Ribosomes are abundant,large RNA-protein complexes that are the sites of all protein synthesis in cells.Defects in ribosomal proteins(RPs),including proteoforms arising from genetic variations,alternative splicing of ...Ribosomes are abundant,large RNA-protein complexes that are the sites of all protein synthesis in cells.Defects in ribosomal proteins(RPs),including proteoforms arising from genetic variations,alternative splicing of RNA transcripts,post-translational modifications and alterations of protein expression level,have been linked to a diverse range of diseases,including cancer and aging.Comprehensive characterization of ribosomal proteoforms is challenging but important for the discovery of potential disease biomarkers or protein targets.In the present work,using E.coli 70S RPs as an example,we first developed a top-down proteomics approach on a Waters Synapt G2 Si mass spectrometry(MS)system,and then applied it to the HeLa 80S ribosome.The results were complemented by a bottom-up approach.In total,50 out of 55 RPs were identified using the top-down approach.Among these,more than 30 RPs were found to have their N-terminal methionine removed.Additional modifications such as methylation,acetylation,and hydroxylation were also observed,and the modification sites were identified by bottomup MS.In a HeLa 80S ribosomal sample,we identified 98 ribosomal proteoforms,among which multiple truncated 80S ribosomal proteoforms were observed,the type of information which is often overlooked by bottom-up experiments.Although their relevance to diseases is not yet known,the integration of topdown and bottom-up proteomics approaches paves the way for the discovery of proteoform-specific disease biomarkers or targets.展开更多
The role of co-agonists of glucagon-like peptide-1 receptor(GLP-1R)and glucagon receptor(GCGR)in chronic kidney disease(CKD)remains unclear.Herein we found that GLP-1R and GCGR expression levels were lower in the kidn...The role of co-agonists of glucagon-like peptide-1 receptor(GLP-1R)and glucagon receptor(GCGR)in chronic kidney disease(CKD)remains unclear.Herein we found that GLP-1R and GCGR expression levels were lower in the kidneys of mice with CKD compared to healthy mice and were correlated with disease severity.Interestingly,GLP-1R or GCGR knockdown aggravated the progression of kidney injury in both diabetic db/db mice and non-diabetic mice undergoing unilateral ureteral obstruction(UUO).Based on the importance of GLP-1R and GCGR in CKD,we reported a novel monomeric peptide,1907-B,with dual-agonism on both GLP-1R and GCGR.The data confirmed that 1907-B had a longer half-life than long-acting semaglutide in rats or cynomolgus monkeys(~2-3 fold)and exhibited better therapeutic contribution to CKD than best-in-class monoagonists,semaglutide,or glucagon,in db/db mice and UUO mice.Various lock-of-function models,including selective pharmacological activation and genetic knockdown,confirmed that 1907-B’s effects on ameliorating diabetic nephropathy in db/db mice,as well as inhibiting kidney fibrosis in UUO mice,were mediated through GLP-1 and glucagon signaling.These findings highlight that 1907-B,a novel GLP-1R and GCGR co-agonist,exerts multifactorial improvement in kidney injuries and is an effective and promising therapeutic option for CKD treatment.展开更多
Cancer stands as one of the predominant causes of mortality globally, necessitating ongoing efforts to develop innovative therapeutics. Historically, natural products have been foundational in the quest for anticancer...Cancer stands as one of the predominant causes of mortality globally, necessitating ongoing efforts to develop innovative therapeutics. Historically, natural products have been foundational in the quest for anticancer agents. Bulbocodin D (BD) and Bulbocodin C (BC), two bibenzyls derived from Pleione bulbocodioides (Franch.) Rolfe, have demonstrated notable in vitro anticancer activity. In human lung cancer A549 cells, the IC50s for BD and BC were 11.63 and 11.71 μmol·L^(−1), respectively. BD triggered apoptosis, as evidenced by an upsurge in Annexin V-positive cells and elevated protein expression of cleaved-PARP in cancer cells. Furthermore, BD and BC markedly inhibited the migratory and invasive potentials of A549 cells. The altered genes identified through RNA-sequencing analysis were integrated into the CMap dataset, suggesting BD’s role as a potential signal transducer and activator of transcription 3 (STAT3) inhibitor. SwissDock and MOE analyses further revealed that both BD and BC exhibited a commendable binding affinity with STAT3. Additionally, a surface plasmon resonance assay confirmed the direct binding affinity between these compounds and STAT3. Notably, treatment with either BD or BC led to a significant reduction in p-STAT3 (Tyr 705) protein levels, regardless of interleukin-6 stimulation in A549 cells. In addition, the extracellular signal-regulated kinase (ERK) was activated after BD or BC treatment. An enhancement in cancer cell mortality was observed upon combined treatment of BD and U0126, the MEK1/2 inhibitor. In conclusion, BD and BC emerge as promising novel STAT3 inhibitors with potential implications in cancer therapy.展开更多
The authors regret that there are two errors in the article Fig.4A and Fig.5C due to the mistake of copying and pasting in the process of assembling figures and negligence in the proofreading.
α-Functionalized organoborons are useful building blocks and key structural elements in functional molecules.Their previous synthesis relied on the famous Matteson reaction or the late-stage borylative modification o...α-Functionalized organoborons are useful building blocks and key structural elements in functional molecules.Their previous synthesis relied on the famous Matteson reaction or the late-stage borylative modification of alkynes or alkenes.Recently,the synthetic transformation of borylated building blocks offers another useful strategy and is currently actively explored.We report herein that B(MIDA)-propargylic alcohols(BPAs) are a useful type of borylated building blocks.Bearing two complementary functional group handles(alkyne and hydroxyl) in close proximity,the redox-neutral [3,3] and [2,3] sigmatropic rearrangements of BPAs allow the efficient synthesis of several types of α-functionalized boronates,including α,β-unsaturated acylborons,α-S/P-substituted allenylborons,boryl-substituted thiazoles and a borylated α,β-unsaturated hydrazine,some of which are otherwise challenging targets using other synthetic methods.展开更多
The poor prognosis of triple negative breast cancer(TNBC)results from a lack of approved targeted therapies coupled with aggressive proliferation and metastasis,which is associated with high recurrence and short overa...The poor prognosis of triple negative breast cancer(TNBC)results from a lack of approved targeted therapies coupled with aggressive proliferation and metastasis,which is associated with high recurrence and short overall survival.Here we developed a strategy by employing tumor-targeted selfassembled nanoparticles to coordinately regulate BACH1(BTB domain and CNC homology 1)and mitochondrial metabolism.The BACH1 inhibitor hemin and mitochondria function inhibitor berberine derivative(BD)were used to prepare nanoparticles(BH NPs)followed by the modification of chondroitin sulfate(CS)on the surface of BH NPs to achieve tumor targeting(CS/BH NPs).CS/BH NPs were found to be able to inhibit tumor migration and invasion by significantly decreasing the amounts of tumor cell metabolites,glycolysis and metastasis-associated proteins,which were related to the inhibition of BACH1 function.Meanwhile,decreased mitochondrial membrane potential,activated caspase 3/9 and increased ROS production demonstrated coordinated regulation of BACH1 and mitochondrial metabolism.In a xenograft mice model of breast cancer,CS/BH NPs significantly inhibited tumor growth and metastasis due to the synergetic effect of hemin and BD without showing obvious toxicities for major organs.In sum,the results of efficacy and safety experiments suggest potential clinical significance of the prepared self-assembled CS/BH nanoparticles for the treatment of TNBC.展开更多
An efficient asymmetric and enantio-swithchable organocatalytic[3+3]annulation reaction using MBH-2-naphthoates of nitroalkenes and 4-hydroxyquinolin-2(1H)-ones has been developed.Densely substituted tetrahydropyrano[...An efficient asymmetric and enantio-swithchable organocatalytic[3+3]annulation reaction using MBH-2-naphthoates of nitroalkenes and 4-hydroxyquinolin-2(1H)-ones has been developed.Densely substituted tetrahydropyrano[3,2-c]qui noli nones scaffolds with two adjacent stereogenic centers are obtained with high yield(up to 95%yield)and good stereoselectivities(up to>20:1 dr and 96%ee)in an enantio-switchable manner.Furthermore,gram scale synthesis was achieved and the nitro group could easily transform into an amino group without any appreciable loss in the diastereo-and enantioselectivity.展开更多
Homogeneous gold catalysis has demonstrated the preponderant capability of realizing a broad range of synthetically versatile alkyne functionalization over the last two decades.Though catalytic asymmetric alkyne trans...Homogeneous gold catalysis has demonstrated the preponderant capability of realizing a broad range of synthetically versatile alkyne functionalization over the last two decades.Though catalytic asymmetric alkyne transformation has focused on the principle of using gold catalysts either associated with chiral phosphine ligand or combined with chiral counterion,a variety of breakthroughs have been reported with the application of gold-complex and chiral organocatalyst cooperative catalysis strategy,which could enable the challenging transformations that cannot be realized by mono-catalysis with excellent stereoselectivity.This review will cover two general protocols in this field,including relay catalysis and synergistic catalysis,with emphasis on the detailed cooperative catalysts models to illustrate the roles of the two catalysts and highlight the potential synthetic opportunities offered by asymmetric cooperative catalysis.展开更多
An unprecedented gold-catalyzed ketene C=O/C=C bifunctionalization method has been developed.Mechanistic studies and density function theory(DFT)calculations indicate that the reaction is initiated by gold-catalyzed W...An unprecedented gold-catalyzed ketene C=O/C=C bifunctionalization method has been developed.Mechanistic studies and density function theory(DFT)calculations indicate that the reaction is initiated by gold-catalyzed Wolff rearrangement of diazoketone to form the ketene intermediate,followed by intermolecular nucleophilic addition and terminated with two divergent cyclization processes via enol intermediates.In the case with alcohols as the nucleophiles,the reaction goes through a C-5-endodig carbocyclization to give the indene products;whereas,O-7-endo-dig cyclization occurs dominantly when indoles/pyrroles are used as the nucleophiles,delivering the 7-membered benzo[d]oxepines.In comparison with the well-documented cycloaddition and nucleophilic addition reactions,this cascade reaction features a novel reaction pattern for the ketene dual functionalization through addition with nucleophile and electrophile in sequence.展开更多
A chiral dirhodium complex is an effective and robust catalyst for asymmetric carbene transformations.However,dirhodiumcatalyzed asymmetric ylide interception processes are rare,mainly because of the dissociation of t...A chiral dirhodium complex is an effective and robust catalyst for asymmetric carbene transformations.However,dirhodiumcatalyzed asymmetric ylide interception processes are rare,mainly because of the dissociation of the metal catalyst before the stereo-determining step.Herein,we report a chiral dirhodium(Ⅱ)-catalyzed asymmetric annulation of vinyl diazoesters withα-hydroxyl ketones,which provides an efficient way to form chiral 2,3-dihydropyrans in good yields with excellent diastereoselectivities and enantioselectivities.This article is the first example of the chiral dirhodium complex–controlled asymmetric aldol-type interception of an in situ–formed oxonium ylide.The origin of the high stereoselectivity is well expounded via experimental and computational studies.These generated chiral products exhibit potent antiproliferation activity in three tested cancer cell lines,namely HCT116(colon cancer),A549(lung adenocarcinoma),and SJSA-1(osteosarcoma cancer).展开更多
Autophagy is a conserved lysosomal degradation pathway where cellular components are dynamically degraded and re-processed to maintain physical homeostasis.However,the physiological effect of autophagy appears to be m...Autophagy is a conserved lysosomal degradation pathway where cellular components are dynamically degraded and re-processed to maintain physical homeostasis.However,the physiological effect of autophagy appears to be multifaced.On the one hand,autophagy functions as a cytoprotective mechanism,protecting against multiple diseases,especially tumor,cardiovascular disorders,and neurodegenerative and infectious disease.Conversely,autophagy may also play a detrimental role via pro-survival effects on cancer cells or cell-killing effects on normal body cells.During disorder onset and progression,the expression levels of autophagy-related regulators and proteins encoded by autophagy-related genes(ATGs)are abnormally regulated,giving rise to imbalanced autophagy flux.However,the detailed mechanisms and molecular events of this process are quite complex.Epigenetic,including DNA methylation,histone modifications and miRNAs,and post-translational modifications,including ubiquitination,phosphorylation and acetylation,precisely manipulate gene expression and protein function,and are strongly correlated with the occurrence and development of multiple diseases.There is substantial evidence that autophagy-relevant regulators and machineries are subjected to epigenetic and post-translational modulation,resulting in alterations in autophagy levels,which subsequently induces disease or affects the therapeutic effectiveness to agents.In this review,we focus on the regulatory mechanisms mediated by epigenetic and post-translational modifications in disease-related autophagy to unveil potential therapeutic targets.In addition,the effect of autophagy on the therapeutic effectiveness of epigenetic drugs or drugs targeting post-translational modification have also been discussed,providing insights into the combination with autophagy activators or inhibitors in the treatment of clinical diseases.展开更多
Currently, there is still no effective curative treatment for the development of late-stage liver fibrosis. Here, we have illustrated that TB001, a dual glucagon-like peptide-1 receptor/glucagon receptor(GLP-1 R/GCGR)...Currently, there is still no effective curative treatment for the development of late-stage liver fibrosis. Here, we have illustrated that TB001, a dual glucagon-like peptide-1 receptor/glucagon receptor(GLP-1 R/GCGR) agonist with higher affinity towards GCGR, could retard the progression of liver fibrosis in various rodent models, with remarkable potency, selectivity, extended half-life and low toxicity. Four types of liver fibrosis animal models which were induced by CCl_(4), a-naphthyl-isothiocyanate(ANIT), bile duct ligation(BDL) and Schistosoma japonicum were used in our study. We found that TB001 treatment dose-dependently significantly attenuated liver injury and collagen accumulation in these animal models. In addition to decreased levels of extracellular matrix(ECM) accumulation during hepatic injury, activation of hepatic stellate cells was also inhibited via suppression of TGF-β expression as well as downstream Smad signaling pathways particularly in CCl_(4)-and S. japonicum-induced liver fibrosis. Moreover, TB001 attenuated liver fibrosis through blocking downstream activation of proinflammatory nuclear factor kappa B/NF-kappa-B inhibitor alpha(NFκB/IKBa) pathways as well as cJun N-terminal kinase(JNK)-dependent induction of hepatocyte apoptosis. Furthermore, GLP-1 R and/or GCGR knock-down results represented GCGR played an important role in ameliorating CCl_(4)-induced hepatic fibrosis. Therefore, TB001 can be used as a promising therapeutic candidate for the treatment of multiple causes of hepatic fibrosis demonstrated by our extensive pre-clinical evaluation of TB001.展开更多
An enantioselective three-component propargyloxylation reaction of propargyl alcohols,pyridotriazoles,and imines has been realized by cooperative catalysis with dirhodium complex and chiral phosphoric acid under mild ...An enantioselective three-component propargyloxylation reaction of propargyl alcohols,pyridotriazoles,and imines has been realized by cooperative catalysis with dirhodium complex and chiral phosphoric acid under mild conditions.This is the first example of a catalytic asymmetric three-component propargyloxylation reaction,which provides practical access to chiral polyfunctionalized succinate derivatives with adjacent quaternary and tertiary stereocenters in good to high yields with excellent enantioselectivity.In addition to the alkyne motif,pyridyl,alkoxy,amino,and alkenyl species are all tolerated under the reaction conditions.Notably,the utility of the current method is demonstrated by catalytic cyclization of the product alkyne into a variety of heterocyclic structures without loss of enantiomeric purity.展开更多
Allenylboronates represent a very intriguing class of organoborons but are challenging to synthesis.In addition,these compounds are typically unstable,rendering the separation difficult.We report herein a practical an...Allenylboronates represent a very intriguing class of organoborons but are challenging to synthesis.In addition,these compounds are typically unstable,rendering the separation difficult.We report herein a practical and concise route to a new class of stable,easy-separable allenyl B(MIDA)via a hydrazination/fragmentation of B(MIDA)-propargylic alcohols.The synthesis of optically active allenyl B(MIDA)was also achieved.Interesting reactivity of the resulting product was observed.展开更多
On-resin peptide modification renders an easy-to-operate method that combines solid-phase peptide synthesis efficiency and avoids tedious purification procedures. Herein, we report the transition-metal-free and redox-...On-resin peptide modification renders an easy-to-operate method that combines solid-phase peptide synthesis efficiency and avoids tedious purification procedures. Herein, we report the transition-metal-free and redox-neutral approach for solid-phase Met diversification with substrate diversity, which could be applied to synthesize cyclic peptides of different sizes.展开更多
Stimulator of interferon genes(STING) is a cytosolic DNA sensor which is regarded as a potential target for antitumor immunotherapy. However, clinical trials of STING agonists display limited anti-tumor effects and do...Stimulator of interferon genes(STING) is a cytosolic DNA sensor which is regarded as a potential target for antitumor immunotherapy. However, clinical trials of STING agonists display limited anti-tumor effects and dose-dependent side-effects like inflammatory damage and cell toxicity. Here,we showed that tetrahedral DNA nanostructures(TDNs) actively enter macrophages to promote STING activation and M1 polarization in a size-dependent manner, and synergized with Mn^(2+) to enhance the expressions of IFN-β and iNOS, as well as the co-stimulatory molecules for antigen presentation. Moreover, to reduce the cytotoxicity of Mn^(2+),we constructed a TDN-MnO_(2) complex and found that it displayed a much higher efficacy than TDN plus Mn^(2+) to initiate macrophage activation and anti-tumor response both in vitro and in vivo. Together, our studies explored a novel immune activation effect of TDN in cancer therapy and its synergistic therapeutic outcomes with MnO_(2).These findings provide new therapeutic opportunities for cancer therapy.展开更多
Since the sulfur(Ⅵ)fluoride exchange reaction(SuFEx)was introduced by Sharpless and co-workers in 2014,this new-generation click chemistry has emerged as an efficient and reliable tool for creating modular intermolec...Since the sulfur(Ⅵ)fluoride exchange reaction(SuFEx)was introduced by Sharpless and co-workers in 2014,this new-generation click chemistry has emerged as an efficient and reliable tool for creating modular intermolecular connections.Sulfonyl fluorides,one of the most important sulfur(Ⅵ)fluoride species,have attracted enormous attention in diverse fields,ranging from organic synthesis and material science,to chemical biology and drug discovery.This review aims to introduce seminal and recent progresses on the synthetic methods of sulfonyl fluorides,which include aromatic,aliphatic,alkenyl,and alkynyl sulfonyl fluorides.While not meant to be exhaustive,the purpose is to give a timely overview and insight in this field,and stimulate the development of more efficient synthetic methods of sulfonyl fluorides.展开更多
β-Difluorinated alkyl halides are of significant value in the modular synthesis of gem-difluorinated molecules.An exclusive 1,2-halo migratory gem-difluorination of vinyl halides with in situ-generated PhIF_(2)·...β-Difluorinated alkyl halides are of significant value in the modular synthesis of gem-difluorinated molecules.An exclusive 1,2-halo migratory gem-difluorination of vinyl halides with in situ-generated PhIF_(2)·HF is described.This protocol provides a general and practical approach towards a wide variety ofβ-difluorinated alkyl bromides.Bothα-andβ-bromoalkyl alkenes are suitable substrates,leading to two distinct types of products.The extension of this protocol to vinyl chloride and iodide are also feasible.The synthetic versatility of this method has been highlighted by the late-stage modification of complex small molecules and further transformations of theβ-difluorinated alkyl halides to valuable CF_(2)-containing compounds.展开更多
The synthesis of bo rylated orga nofluorines is of great interest due to their potential values as synthons in modular construction of fluorine-containing molecules.Reported herein is a rhodium-catalyzed hydrobo ratio...The synthesis of bo rylated orga nofluorines is of great interest due to their potential values as synthons in modular construction of fluorine-containing molecules.Reported herein is a rhodium-catalyzed hydrobo ration of arylgem-difluoroalkenes leading to a series of α-difluoromethylated benzylborons.The use of cationic rhodium catalyst and a biphosphine ligand with large bite angle was crucial for reactivity by offering good regioselectivity and diminishing the undesired β-F elimination.Preliminary derivatizations of the products were conducted to showcase the utility of this protocol.展开更多
Site-selective modification of peptide/protein is a vital approach to disclose post-translational modifications(PTMs) and plays a crucial role in chemical biology, as well as drug development. Compared with synthetic ...Site-selective modification of peptide/protein is a vital approach to disclose post-translational modifications(PTMs) and plays a crucial role in chemical biology, as well as drug development. Compared with synthetic and chemical biology methods, chemical modification of native peptide/protein provides a more versatile approach to achieve late-stage diversification for functional studies. Lysine featured high nucleophilicity, frequency, and solvent accessibility, making its site-selective modification important but elusive. Herein, we reported a visible-light-driven and Cys-directed Lys site-selective stapling approach for peptide/protein. By cleavable Cys anchoring, site-selective Lys single-site modification was achieved, and this method could be applied to multi-functionalization.展开更多
基金supported in part by the National Natural Science Foundation of China(Grant Nos.:91953102 and 81872836)Natural Science Foundation of Guangdong Province,China(Grant Nos.:2019A1515011265 and 2022A1515010965)+1 种基金the Fundamental Research Funds for Sun Yat-sen University,China(Grant No.:19ykzd26)Open Project Funding of the State Key Laboratory of Crop Stress Adaptation and Improvement(Grant No.:2020KF05).Huilin Li would like to thank the Pearl River Talent Recruitment Program for support.
文摘Ribosomes are abundant,large RNA-protein complexes that are the sites of all protein synthesis in cells.Defects in ribosomal proteins(RPs),including proteoforms arising from genetic variations,alternative splicing of RNA transcripts,post-translational modifications and alterations of protein expression level,have been linked to a diverse range of diseases,including cancer and aging.Comprehensive characterization of ribosomal proteoforms is challenging but important for the discovery of potential disease biomarkers or protein targets.In the present work,using E.coli 70S RPs as an example,we first developed a top-down proteomics approach on a Waters Synapt G2 Si mass spectrometry(MS)system,and then applied it to the HeLa 80S ribosome.The results were complemented by a bottom-up approach.In total,50 out of 55 RPs were identified using the top-down approach.Among these,more than 30 RPs were found to have their N-terminal methionine removed.Additional modifications such as methylation,acetylation,and hydroxylation were also observed,and the modification sites were identified by bottomup MS.In a HeLa 80S ribosomal sample,we identified 98 ribosomal proteoforms,among which multiple truncated 80S ribosomal proteoforms were observed,the type of information which is often overlooked by bottom-up experiments.Although their relevance to diseases is not yet known,the integration of topdown and bottom-up proteomics approaches paves the way for the discovery of proteoform-specific disease biomarkers or targets.
基金financial support from the National Natural Science Foundation of China(No.82273761 and No.81871257)the Medical Innovation and Development Project of Lanzhou University(lzuyxcx-2022-156,China)+1 种基金the Undergraduate Teaching Quality Engineering Project of Sun Yat-sen University[2021]93the Guangdong Provincial Key Laboratory of Construction Foundation(2023B1212060022,China)。
文摘The role of co-agonists of glucagon-like peptide-1 receptor(GLP-1R)and glucagon receptor(GCGR)in chronic kidney disease(CKD)remains unclear.Herein we found that GLP-1R and GCGR expression levels were lower in the kidneys of mice with CKD compared to healthy mice and were correlated with disease severity.Interestingly,GLP-1R or GCGR knockdown aggravated the progression of kidney injury in both diabetic db/db mice and non-diabetic mice undergoing unilateral ureteral obstruction(UUO).Based on the importance of GLP-1R and GCGR in CKD,we reported a novel monomeric peptide,1907-B,with dual-agonism on both GLP-1R and GCGR.The data confirmed that 1907-B had a longer half-life than long-acting semaglutide in rats or cynomolgus monkeys(~2-3 fold)and exhibited better therapeutic contribution to CKD than best-in-class monoagonists,semaglutide,or glucagon,in db/db mice and UUO mice.Various lock-of-function models,including selective pharmacological activation and genetic knockdown,confirmed that 1907-B’s effects on ameliorating diabetic nephropathy in db/db mice,as well as inhibiting kidney fibrosis in UUO mice,were mediated through GLP-1 and glucagon signaling.These findings highlight that 1907-B,a novel GLP-1R and GCGR co-agonist,exerts multifactorial improvement in kidney injuries and is an effective and promising therapeutic option for CKD treatment.
基金supported by the Science and Technology Development Fund,Macao SAR(File no.0053-2021-AGJ)the Joint Foundation of Guangdong and Macao for Science and Technology Innovation(2022A0505020024)+3 种基金the 2020 Guangdong Provincial Science and Technology Innovation Strategy Special Fund(Guangdong-Hong Kong-Macao Joint Lab,File No.:2020B1212030006)the Internal Research Grant of the State Key Laboratory of Quality Research in Chinese Medicine,University of Macao(File No.:SKL-QRCM-IRG2023-011)the Natural Science Foundation of Fujian Province(2022J01244)the Outstanding-Young Scientific Research Talents Program of Fujian Agriculture and Forestry University(XJQ202103)。
文摘Cancer stands as one of the predominant causes of mortality globally, necessitating ongoing efforts to develop innovative therapeutics. Historically, natural products have been foundational in the quest for anticancer agents. Bulbocodin D (BD) and Bulbocodin C (BC), two bibenzyls derived from Pleione bulbocodioides (Franch.) Rolfe, have demonstrated notable in vitro anticancer activity. In human lung cancer A549 cells, the IC50s for BD and BC were 11.63 and 11.71 μmol·L^(−1), respectively. BD triggered apoptosis, as evidenced by an upsurge in Annexin V-positive cells and elevated protein expression of cleaved-PARP in cancer cells. Furthermore, BD and BC markedly inhibited the migratory and invasive potentials of A549 cells. The altered genes identified through RNA-sequencing analysis were integrated into the CMap dataset, suggesting BD’s role as a potential signal transducer and activator of transcription 3 (STAT3) inhibitor. SwissDock and MOE analyses further revealed that both BD and BC exhibited a commendable binding affinity with STAT3. Additionally, a surface plasmon resonance assay confirmed the direct binding affinity between these compounds and STAT3. Notably, treatment with either BD or BC led to a significant reduction in p-STAT3 (Tyr 705) protein levels, regardless of interleukin-6 stimulation in A549 cells. In addition, the extracellular signal-regulated kinase (ERK) was activated after BD or BC treatment. An enhancement in cancer cell mortality was observed upon combined treatment of BD and U0126, the MEK1/2 inhibitor. In conclusion, BD and BC emerge as promising novel STAT3 inhibitors with potential implications in cancer therapy.
文摘The authors regret that there are two errors in the article Fig.4A and Fig.5C due to the mistake of copying and pasting in the process of assembling figures and negligence in the proofreading.
基金supported by the National Natural Science Foundation of China (22022114,21971261)the Local Innovative and Research Teams Project of Guangdong Pearl River Talents Program(2017BT01Y093)Guangdong Basic Research Center of Excellence for Functional Molecular Engineering。
文摘α-Functionalized organoborons are useful building blocks and key structural elements in functional molecules.Their previous synthesis relied on the famous Matteson reaction or the late-stage borylative modification of alkynes or alkenes.Recently,the synthetic transformation of borylated building blocks offers another useful strategy and is currently actively explored.We report herein that B(MIDA)-propargylic alcohols(BPAs) are a useful type of borylated building blocks.Bearing two complementary functional group handles(alkyne and hydroxyl) in close proximity,the redox-neutral [3,3] and [2,3] sigmatropic rearrangements of BPAs allow the efficient synthesis of several types of α-functionalized boronates,including α,β-unsaturated acylborons,α-S/P-substituted allenylborons,boryl-substituted thiazoles and a borylated α,β-unsaturated hydrazine,some of which are otherwise challenging targets using other synthetic methods.
基金supported by the National Natural Science Foundation of China(Nos.81973264,82104080 and 81773659)Guangdong Basic and Applied Basic Research Foundation,China(Nos.2020A1515010593,2019A1515011954 and 2021A1515012621)+1 种基金Guangdong Provincial Key Laboratory of Construction Foundation,Sun Yat-sen University(No.2019B030301005,China)the Fundamental Research Funds for the Central Universities,Sun Yat-sen University(No.22qntd4509,China).
文摘The poor prognosis of triple negative breast cancer(TNBC)results from a lack of approved targeted therapies coupled with aggressive proliferation and metastasis,which is associated with high recurrence and short overall survival.Here we developed a strategy by employing tumor-targeted selfassembled nanoparticles to coordinately regulate BACH1(BTB domain and CNC homology 1)and mitochondrial metabolism.The BACH1 inhibitor hemin and mitochondria function inhibitor berberine derivative(BD)were used to prepare nanoparticles(BH NPs)followed by the modification of chondroitin sulfate(CS)on the surface of BH NPs to achieve tumor targeting(CS/BH NPs).CS/BH NPs were found to be able to inhibit tumor migration and invasion by significantly decreasing the amounts of tumor cell metabolites,glycolysis and metastasis-associated proteins,which were related to the inhibition of BACH1 function.Meanwhile,decreased mitochondrial membrane potential,activated caspase 3/9 and increased ROS production demonstrated coordinated regulation of BACH1 and mitochondrial metabolism.In a xenograft mice model of breast cancer,CS/BH NPs significantly inhibited tumor growth and metastasis due to the synergetic effect of hemin and BD without showing obvious toxicities for major organs.In sum,the results of efficacy and safety experiments suggest potential clinical significance of the prepared self-assembled CS/BH nanoparticles for the treatment of TNBC.
基金financial support from the National Natural Science Foundation of China(No.81602972)Guangdong Natural Science Funds for Distinguished Young Scholar(No.2018B030306017)Guangdong Province Universities and Colleges Pearl River Scholar Funded Scheme(2018)。
文摘An efficient asymmetric and enantio-swithchable organocatalytic[3+3]annulation reaction using MBH-2-naphthoates of nitroalkenes and 4-hydroxyquinolin-2(1H)-ones has been developed.Densely substituted tetrahydropyrano[3,2-c]qui noli nones scaffolds with two adjacent stereogenic centers are obtained with high yield(up to 95%yield)and good stereoselectivities(up to>20:1 dr and 96%ee)in an enantio-switchable manner.Furthermore,gram scale synthesis was achieved and the nitro group could easily transform into an amino group without any appreciable loss in the diastereo-and enantioselectivity.
基金Support for this research from the National Natural Science Foundation of China (Nos. 21971262, 81702255)National Postdoctoral Program for Innovative Talents (No. BX20190399)+1 种基金Guangdong Provincial Key Laboratory of Chiral Molecule and Drug Discovery (No. 2019B030301005)The Program for Guangdong Introducing Innovative and Entrepreneurial Teams (No. 2016ZT06Y337)
文摘Homogeneous gold catalysis has demonstrated the preponderant capability of realizing a broad range of synthetically versatile alkyne functionalization over the last two decades.Though catalytic asymmetric alkyne transformation has focused on the principle of using gold catalysts either associated with chiral phosphine ligand or combined with chiral counterion,a variety of breakthroughs have been reported with the application of gold-complex and chiral organocatalyst cooperative catalysis strategy,which could enable the challenging transformations that cannot be realized by mono-catalysis with excellent stereoselectivity.This review will cover two general protocols in this field,including relay catalysis and synergistic catalysis,with emphasis on the detailed cooperative catalysts models to illustrate the roles of the two catalysts and highlight the potential synthetic opportunities offered by asymmetric cooperative catalysis.
基金This work was supported by the National Natural Science Foundation of China(21971262,92056201)the National Postdoctoral Program for Innovative Talents(BX20190399)+3 种基金Guangdong Provincial Key Laboratory of Chiral Molecule and Drug Discovery(2019B030301005)the National Mega-project for Innovative Drugs(2019ZX09721001-006-001)the Program for Guangdong Introducing Innovative and Entrepreneurial Teams(2016ZT06Y337)the Fundamental Research Funds for the Central Universities(20ykpy113,18843407).
文摘An unprecedented gold-catalyzed ketene C=O/C=C bifunctionalization method has been developed.Mechanistic studies and density function theory(DFT)calculations indicate that the reaction is initiated by gold-catalyzed Wolff rearrangement of diazoketone to form the ketene intermediate,followed by intermolecular nucleophilic addition and terminated with two divergent cyclization processes via enol intermediates.In the case with alcohols as the nucleophiles,the reaction goes through a C-5-endodig carbocyclization to give the indene products;whereas,O-7-endo-dig cyclization occurs dominantly when indoles/pyrroles are used as the nucleophiles,delivering the 7-membered benzo[d]oxepines.In comparison with the well-documented cycloaddition and nucleophilic addition reactions,this cascade reaction features a novel reaction pattern for the ketene dual functionalization through addition with nucleophile and electrophile in sequence.
基金supported by the National Natural Science Foundation of China(22001268,21973113,81973176)the Guangdong Provincial Key Laboratory of Chiral Molecule and Drug Discovery(2019B030301005)+2 种基金the Program for Guangdong Introducing Innovative and Entrepreneurial Teams(2016ZT06Y337)the Guangdong Natural Science Fund(2020A1515010614)Key-Area Research and Development Program of Guangdong Province(2022B1111050003)。
文摘A chiral dirhodium complex is an effective and robust catalyst for asymmetric carbene transformations.However,dirhodiumcatalyzed asymmetric ylide interception processes are rare,mainly because of the dissociation of the metal catalyst before the stereo-determining step.Herein,we report a chiral dirhodium(Ⅱ)-catalyzed asymmetric annulation of vinyl diazoesters withα-hydroxyl ketones,which provides an efficient way to form chiral 2,3-dihydropyrans in good yields with excellent diastereoselectivities and enantioselectivities.This article is the first example of the chiral dirhodium complex–controlled asymmetric aldol-type interception of an in situ–formed oxonium ylide.The origin of the high stereoselectivity is well expounded via experimental and computational studies.These generated chiral products exhibit potent antiproliferation activity in three tested cancer cell lines,namely HCT116(colon cancer),A549(lung adenocarcinoma),and SJSA-1(osteosarcoma cancer).
基金This work was supported by the National Natural Science Foundation of China(No.82272388,82072365,82273566)Guangdong Basic and Applied Basic Research Foundation(No.2019A1515011666)+1 种基金The Youth Innovation Project of the University of Science and Technology of China(WK9110000203)the Natural Science Foundation of Anhui Province(2008085MH241).
文摘Autophagy is a conserved lysosomal degradation pathway where cellular components are dynamically degraded and re-processed to maintain physical homeostasis.However,the physiological effect of autophagy appears to be multifaced.On the one hand,autophagy functions as a cytoprotective mechanism,protecting against multiple diseases,especially tumor,cardiovascular disorders,and neurodegenerative and infectious disease.Conversely,autophagy may also play a detrimental role via pro-survival effects on cancer cells or cell-killing effects on normal body cells.During disorder onset and progression,the expression levels of autophagy-related regulators and proteins encoded by autophagy-related genes(ATGs)are abnormally regulated,giving rise to imbalanced autophagy flux.However,the detailed mechanisms and molecular events of this process are quite complex.Epigenetic,including DNA methylation,histone modifications and miRNAs,and post-translational modifications,including ubiquitination,phosphorylation and acetylation,precisely manipulate gene expression and protein function,and are strongly correlated with the occurrence and development of multiple diseases.There is substantial evidence that autophagy-relevant regulators and machineries are subjected to epigenetic and post-translational modulation,resulting in alterations in autophagy levels,which subsequently induces disease or affects the therapeutic effectiveness to agents.In this review,we focus on the regulatory mechanisms mediated by epigenetic and post-translational modifications in disease-related autophagy to unveil potential therapeutic targets.In addition,the effect of autophagy on the therapeutic effectiveness of epigenetic drugs or drugs targeting post-translational modification have also been discussed,providing insights into the combination with autophagy activators or inhibitors in the treatment of clinical diseases.
基金the financial support from the National Natural Science Foundation of China (No.91853106)the Program for Guangdong Introducing Innovative and Enterpre-neurial Teams (No.2016ZT06Y337,China)+3 种基金Guangdong Provincial Key Laboratory of Construction Foundation (No.2019B030301005,China)Shenzhen Science and Technology Program (JSGG20200225153121723,China)the Fundamental Research Funds for the Central Universities (No.19ykzd25,China)CAMS Innovation Fund for Medical Sciences (CIFMS,2019-I2M-5-074,China)。
文摘Currently, there is still no effective curative treatment for the development of late-stage liver fibrosis. Here, we have illustrated that TB001, a dual glucagon-like peptide-1 receptor/glucagon receptor(GLP-1 R/GCGR) agonist with higher affinity towards GCGR, could retard the progression of liver fibrosis in various rodent models, with remarkable potency, selectivity, extended half-life and low toxicity. Four types of liver fibrosis animal models which were induced by CCl_(4), a-naphthyl-isothiocyanate(ANIT), bile duct ligation(BDL) and Schistosoma japonicum were used in our study. We found that TB001 treatment dose-dependently significantly attenuated liver injury and collagen accumulation in these animal models. In addition to decreased levels of extracellular matrix(ECM) accumulation during hepatic injury, activation of hepatic stellate cells was also inhibited via suppression of TGF-β expression as well as downstream Smad signaling pathways particularly in CCl_(4)-and S. japonicum-induced liver fibrosis. Moreover, TB001 attenuated liver fibrosis through blocking downstream activation of proinflammatory nuclear factor kappa B/NF-kappa-B inhibitor alpha(NFκB/IKBa) pathways as well as cJun N-terminal kinase(JNK)-dependent induction of hepatocyte apoptosis. Furthermore, GLP-1 R and/or GCGR knock-down results represented GCGR played an important role in ameliorating CCl_(4)-induced hepatic fibrosis. Therefore, TB001 can be used as a promising therapeutic candidate for the treatment of multiple causes of hepatic fibrosis demonstrated by our extensive pre-clinical evaluation of TB001.
基金supported by the National Natural Science Foundation of China(nos.21971262 and 81973176)the Guangdong Provincial Key Laboratory of Chiral Molecule and Drug Discovery(no.2019B030301005)+1 种基金the National Mega-Project for Innovative Drugs(no.2019ZX09721001-006-001)the Program for Guangdong Introducing Innovative and Entrepreneurial Teams(no.2016ZT06Y337).
文摘An enantioselective three-component propargyloxylation reaction of propargyl alcohols,pyridotriazoles,and imines has been realized by cooperative catalysis with dirhodium complex and chiral phosphoric acid under mild conditions.This is the first example of a catalytic asymmetric three-component propargyloxylation reaction,which provides practical access to chiral polyfunctionalized succinate derivatives with adjacent quaternary and tertiary stereocenters in good to high yields with excellent enantioselectivity.In addition to the alkyne motif,pyridyl,alkoxy,amino,and alkenyl species are all tolerated under the reaction conditions.Notably,the utility of the current method is demonstrated by catalytic cyclization of the product alkyne into a variety of heterocyclic structures without loss of enantiomeric purity.
基金supported by the National Natural Science Foundation of China(Nos.22022114 and 21971261)the Guangdong Basic and Applied Basic Research Foundation(No.2020A1515010624)+1 种基金the Fundamental Research Funds for the Central Universities(No.20ykzd12)the Local Innovative and Research Teams Project of Guangdong Pearl River Talents Program(No.2017BT01Y093)。
文摘Allenylboronates represent a very intriguing class of organoborons but are challenging to synthesis.In addition,these compounds are typically unstable,rendering the separation difficult.We report herein a practical and concise route to a new class of stable,easy-separable allenyl B(MIDA)via a hydrazination/fragmentation of B(MIDA)-propargylic alcohols.The synthesis of optically active allenyl B(MIDA)was also achieved.Interesting reactivity of the resulting product was observed.
基金financial supported by the National Natural Science Foundation of China (No. 22077144)Guangdong Natural Science Funds for Distinguished Young Scholar (No.2018B030306017)+1 种基金Guangdong Provincial Key Laboratory of Chiral Molecule and Drug Discovery (No. 2019B030301005)Key Research and Development Program of Guangdong Province (No.2020B1111110003)。
文摘On-resin peptide modification renders an easy-to-operate method that combines solid-phase peptide synthesis efficiency and avoids tedious purification procedures. Herein, we report the transition-metal-free and redox-neutral approach for solid-phase Met diversification with substrate diversity, which could be applied to synthesize cyclic peptides of different sizes.
基金supported by grants:National Natural Science Foundation of China (82072087,31670880 and 31970893,China)Guangdong Natural Science Fund for Distinguished Young Scholars (2017A030306016 and 2016A030306004,China)+1 种基金the Fundamental Research Funds for the Central Universities (19ykzd39,China)Open project of Guangdong Key Laboratory of Chiral Molecule and Drug Discovery (Sun Yat-sen University,China)。
文摘Stimulator of interferon genes(STING) is a cytosolic DNA sensor which is regarded as a potential target for antitumor immunotherapy. However, clinical trials of STING agonists display limited anti-tumor effects and dose-dependent side-effects like inflammatory damage and cell toxicity. Here,we showed that tetrahedral DNA nanostructures(TDNs) actively enter macrophages to promote STING activation and M1 polarization in a size-dependent manner, and synergized with Mn^(2+) to enhance the expressions of IFN-β and iNOS, as well as the co-stimulatory molecules for antigen presentation. Moreover, to reduce the cytotoxicity of Mn^(2+),we constructed a TDN-MnO_(2) complex and found that it displayed a much higher efficacy than TDN plus Mn^(2+) to initiate macrophage activation and anti-tumor response both in vitro and in vivo. Together, our studies explored a novel immune activation effect of TDN in cancer therapy and its synergistic therapeutic outcomes with MnO_(2).These findings provide new therapeutic opportunities for cancer therapy.
基金financially supported by the National Natural Science Foundation of China(Nos.21502240,81972824)Guangdong Basic and Applied Basic Research Foundation(Nos.2020A1515010684,2020A1515011513)Guangdong Provincial Key Laboratory of Chiral Molecule and Drug Discovery(No.2019B030301005)。
文摘Since the sulfur(Ⅵ)fluoride exchange reaction(SuFEx)was introduced by Sharpless and co-workers in 2014,this new-generation click chemistry has emerged as an efficient and reliable tool for creating modular intermolecular connections.Sulfonyl fluorides,one of the most important sulfur(Ⅵ)fluoride species,have attracted enormous attention in diverse fields,ranging from organic synthesis and material science,to chemical biology and drug discovery.This review aims to introduce seminal and recent progresses on the synthetic methods of sulfonyl fluorides,which include aromatic,aliphatic,alkenyl,and alkynyl sulfonyl fluorides.While not meant to be exhaustive,the purpose is to give a timely overview and insight in this field,and stimulate the development of more efficient synthetic methods of sulfonyl fluorides.
基金This work was supported by the National Natural Science Foundation of China(21961047,21901266,21971261,22022114).
文摘β-Difluorinated alkyl halides are of significant value in the modular synthesis of gem-difluorinated molecules.An exclusive 1,2-halo migratory gem-difluorination of vinyl halides with in situ-generated PhIF_(2)·HF is described.This protocol provides a general and practical approach towards a wide variety ofβ-difluorinated alkyl bromides.Bothα-andβ-bromoalkyl alkenes are suitable substrates,leading to two distinct types of products.The extension of this protocol to vinyl chloride and iodide are also feasible.The synthetic versatility of this method has been highlighted by the late-stage modification of complex small molecules and further transformations of theβ-difluorinated alkyl halides to valuable CF_(2)-containing compounds.
基金financial support from the National Natural Science Foundation of China(No.21971261)Guangdong Provincial Key Laboratory of Chiral Molecule and Drug Discovery(No.2019B030301005)+1 种基金Key Project of Chinese National Programs for Fundamental Research and Development(No.2016YFA0602900)the Local Innovative and Research Teams Project of Guangdong Pearl River Talents Program(No.2017BT01Y093)is gratefully acknowledged。
文摘The synthesis of bo rylated orga nofluorines is of great interest due to their potential values as synthons in modular construction of fluorine-containing molecules.Reported herein is a rhodium-catalyzed hydrobo ration of arylgem-difluoroalkenes leading to a series of α-difluoromethylated benzylborons.The use of cationic rhodium catalyst and a biphosphine ligand with large bite angle was crucial for reactivity by offering good regioselectivity and diminishing the undesired β-F elimination.Preliminary derivatizations of the products were conducted to showcase the utility of this protocol.
基金supported by Guangdong Natural Science Funds for Distinguished Young Scholar (2018B030306017)the National Natural Science Foundation of China (22077144)+1 种基金Guangdong Provincial Key Laboratory of Chiral Molecule and Drug Discovery (2019B030301005)Key Research and Development Program of Guangdong Province (2020B1111110003)。
文摘Site-selective modification of peptide/protein is a vital approach to disclose post-translational modifications(PTMs) and plays a crucial role in chemical biology, as well as drug development. Compared with synthetic and chemical biology methods, chemical modification of native peptide/protein provides a more versatile approach to achieve late-stage diversification for functional studies. Lysine featured high nucleophilicity, frequency, and solvent accessibility, making its site-selective modification important but elusive. Herein, we reported a visible-light-driven and Cys-directed Lys site-selective stapling approach for peptide/protein. By cleavable Cys anchoring, site-selective Lys single-site modification was achieved, and this method could be applied to multi-functionalization.
