Wheat powdery mildew and stripe rust are the major diseases in wheat producing area in Xinjiang.To obtain wheat germplasm resources and varieties resistant to powdery mildew and rust,36 high-generation stable strains ...Wheat powdery mildew and stripe rust are the major diseases in wheat producing area in Xinjiang.To obtain wheat germplasm resources and varieties resistant to powdery mildew and rust,36 high-generation stable strains of Xinjiang winter wheat were evaluated using the method of natural inducement from 2018 to 2020.A total of 5 strains with high resistance to powdery mildew,4 strains with slow stripe rust and 1 strain with resistance to powdery mildew and adult plant slow stripe rust were obtained.And the parental combination of disease-resistant varieties was analyzed.These studies will provide theoretical basis for the breeding of resistant wheat varieties in Xinjiang.展开更多
Photodynamic therapy (PDT) is a clinically approved cancer treatment that uses energy of light to generate active substances that cause damage to the cancer. Photosensitizers are employed to absorb light and generate ...Photodynamic therapy (PDT) is a clinically approved cancer treatment that uses energy of light to generate active substances that cause damage to the cancer. Photosensitizers are employed to absorb light and generate toxic reactive oxygen species (ROS) to damage biomolecules like DNA. At the same time, some chemotherapy drugs like nucleotide analogues can provide mechanism-guided promotion in the treatment efficacy of PDT. However, the photosensitizer and chemotherapy drugs used in PDT is usually organic molecules, which suffers from bad solubility, fast clearance, and acute toxicity. To achieve targeted treatment, a reasonable delivery system is necessary. Therefore, we reported a metal-phenolic network where IR780 and gemcitabine were coupled chemically to overcome these shortcomings. The enhanced PDT effects can be realized by the promoted cell death both in vitro and in vivo. Moreover, the synergistic therapy also induced T-cell mediated anti-tumor immune response, which was significant for the inhibition of distant tumor growth. This work expanded the biomedical application of metal-phenolic materials and contribute to the wider application of photodynamic cancer therapy.展开更多
The catalytic alcohol dehydrogenation to carboxylic acids has been demonstrated as an atom-economic and environmental-friendly synthetic method.However,the reported catalysts either require relatively complicated synt...The catalytic alcohol dehydrogenation to carboxylic acids has been demonstrated as an atom-economic and environmental-friendly synthetic method.However,the reported catalysts either require relatively complicated synthesis or exhibit high activity only in the presence of a solvent.Therefore,it is still in high demand to obtain catalysts that feature facile synthesis and perform well even without any solvent.Herein,a series of nanostructured bimetallic Zn/Co species embedded in N-doped hierarchical porous carbon were fabricated in a facile and green manner.More significantly,the best-performing material(Zn/Co@NC-800)was identified as the first heterogeneous catalyst to enable this transformation under solvent-free conditions.Moreover,the as-prepared composites were comprehensively investigated to de-termine their structural and morphological properties,which rationalized the superiority of Zn/Co@NC-800 over the other synthesized materials.Further studies signified that Co sites(both Co^(0)and Co^(2+))and N species(mainly pyridinic N)were probably involved in this process,functioning as the Lewis acid site and basic site,respectively.Hopefully,this study could provide a simple and sustainable method for carboxylic acid synthesis.展开更多
Malignant melanoma cell-intrinsic PD-1:PD-L1 interaction thrusts tumorigenesis,angiogenesis,and radioresistance via mTOR hyperactivation to aggravate circumjacent aggression.Interdicting melanoma intrinsic growth sign...Malignant melanoma cell-intrinsic PD-1:PD-L1 interaction thrusts tumorigenesis,angiogenesis,and radioresistance via mTOR hyperactivation to aggravate circumjacent aggression.Interdicting melanoma intrinsic growth signals,including the blockade of PD-L1 and mTOR signaling concurrently,cooperative with radiotherapy may provide a vigorous repertoire to alleviate the tumor encumbrance.Thence,we design a three-pronged platinum@polymer-catechol nanobraker to deliver mTOR inhibitor TAK228 and anti-PD-L1 antibody(aPD-L1)for impeding the melanoma-PD-1-driven aggression and maximizing the melanoma eradication.The aPD-L1 collaborated with TAK228 restrains melanoma cell-intrinsic PD-1:PD-L1 tumorigenic interaction via blocking melanoma-PD-L1 ligand and the melanoma-PD-1 receptor-driven mTOR signaling;corresponding downregulation of mTOR downstream protumorigenic cellular MYC and proangiogenic hypoxia-inducible factor 1-alpha is conducive to preventing tumorigenesis and angiogenesis,respectively.Further,high-Z metal platinum sensitizing TAK228-enhanced radiotherapy confers the nanobraker on remarkable tumoricidal efficacy.Hereto,the customized three-pronged nanobrakers efficiently suppress melanoma tumorigenesis and angiogenesis concomitant with the amplification of radiotherapeutic efficacy.Such an ingenious tactic may provide substantial benefits to clinical melanoma patients.展开更多
Interferon-γ(IFN-γ),secreted by activated T cells predominantly,plays a crucial performance in the tumoricidal immune response.Unfortunately,a high level of IFN-γseverely ignites the immunosuppressive response,espe...Interferon-γ(IFN-γ),secreted by activated T cells predominantly,plays a crucial performance in the tumoricidal immune response.Unfortunately,a high level of IFN-γseverely ignites the immunosuppressive response,especially by increasing the expression of immune checkpoint programmed death-ligand 1(PD-L1)and immunoregulatory enzyme indoleamine 2,3-dioxygenase 1(IDO-1).Herein,we have explored a versatile IFN-γ-nano-integrator(aPD-L1-SH@Ce6@NLG919-PEG,simplified as CNDP)to establish a positive anti-tumor feedback loop to amplify the IFN-γ-mediated tumoricidal effect.In this nanointegrator,photosensitizer chlorin e6(Ce6)mediates photodynamic therapy(PDT)to re-shape immunogenicity and activate the adaptive immune response,followed by the secretion of high-level IFN-γto struggle tumor cells.IDO-1 inhibitor(NLG919)afterwards mitigates the immunosuppressive behavior of IFN-γby neutralizing the function of IDO-1.To turn“waste”into wealth,anti-PD-L1(aPD-L1)antibodies are technically integrated into the nano-integrator to propel the precise attack of breast cancer through ascending PD-L1 blockade.Together,this“three musketeers”nano-integrator tumoricidal tactic may give a unique insight into the clinical anti-tumor therapy.展开更多
Despite tremendous advances in gas therapy,there are major concerns about the inevitable concentration of toxicity and the ability to perform real-time tracking of drug delivery.Second near-infrared(NIR-Ⅱ)window abso...Despite tremendous advances in gas therapy,there are major concerns about the inevitable concentration of toxicity and the ability to perform real-time tracking of drug delivery.Second near-infrared(NIR-Ⅱ)window absorbing nanoplatforms hold great promise for precision medicine because of their excellent tissue penetration of light and non-invasive nature.In this study,we engineered an NIR-Ⅱlaser-activated theranostic agent(named CP-bF@PEG)that was composed of amphiphilic polymers(Pluronic F127,with polyethylene glycol,PEG,moieties)coated with an NIR-Ⅱ-absorbing conjugated polymer(PTTBBT,CP)and nitric oxide(NO)donor(benzofuroxan,bF),which served as an NIR-Ⅱphotothermal inducer and NO nanogenerator.Under deep tissue penetration of NIR-Ⅱlaser irradiation,CP-bF@PEG was found to possess fluorescence imaging ability to accurately identify tumor and excellent photothermal effect.Moreover,CP-bF@PEG could generate NO via glutathione activation in the tumor microenvironment in a controllable manner.This NIR-Ⅱ-absorbing polymer for high-contrast NIR-Ⅱfluorescence imaging-guided precision photothermal therapy achieved synergistic effects with NO therapy,as evidenced by pronounced tumor therapeutic efficacy and few side effects.This nanotheranostic agent is a highly promising candidate for high-contrast NIR-Ⅱimaging-guided precision photothermal therapy combined with gas therapy against cancer.展开更多
Zn-air batteries(ZABs)as a class of promising energy storage setups are generally powered by efficient and robust catalysts at the oxygen-involving cathode.Although the existing non-noble catalysts have outperformed n...Zn-air batteries(ZABs)as a class of promising energy storage setups are generally powered by efficient and robust catalysts at the oxygen-involving cathode.Although the existing non-noble catalysts have outperformed noble Pt benchmark in the alkaline liquid-state ZABs,to the best of our knowledge few have excelled Pt in quasi-solid-state(QSS)ZABs.Herein,we found that an integrated Mn-Co cathode derived from the bimetallic Mn/Co metal organic frameworks generates a 1.4-fold greater power density in the QSS ZABs than a Pt cathode while its power density in liquid-state ZABs is only 0.8-fold of the latter.Moreover,such Mn-Co catalyst delivers high-rate oxygen reduction reaction(ORR)capability with half-wave potential of 0.84 V.The in-depth characterizations and analyses have demonstrated that the Co and Mn species show the specific affinity towards H_(2)O and O_(2),respectively,synergizing the ORR process in the water-deficient environment of QSS ZABs.This work has enlightened the rational design of non-noble metal catalysts to improve the power density of QSS ZABs.展开更多
基金National Key Research and Development Program of China(2017YFD0101003)Science and Technology Program of Xinjiang Production and Construction Corps(2016AC027,2019AB021).
文摘Wheat powdery mildew and stripe rust are the major diseases in wheat producing area in Xinjiang.To obtain wheat germplasm resources and varieties resistant to powdery mildew and rust,36 high-generation stable strains of Xinjiang winter wheat were evaluated using the method of natural inducement from 2018 to 2020.A total of 5 strains with high resistance to powdery mildew,4 strains with slow stripe rust and 1 strain with resistance to powdery mildew and adult plant slow stripe rust were obtained.And the parental combination of disease-resistant varieties was analyzed.These studies will provide theoretical basis for the breeding of resistant wheat varieties in Xinjiang.
基金the National Natural Science Foundation of China(NSFC,Nos.32171318,32222090 and 32101069)the Faculty of Health Sciences,University of Macao,the Multi-Year Research Grant(MYRG)of University of Macao(No.MYRG2022-00011-FHS)+2 种基金the Science and Technology Development Fund,Macao SAR(Nos.0103/2021/A and 0002/2021/AKP)Shenzhen Science and Technology Innovation Commission,Shenzhen-Hong Kong-Macao Science and Technology Plan C(No.SGDX20201103093600004)Dr.Stanley Ho Medical Development Foundation(No.SHMDF-OIRFS/2022/002)。
文摘Photodynamic therapy (PDT) is a clinically approved cancer treatment that uses energy of light to generate active substances that cause damage to the cancer. Photosensitizers are employed to absorb light and generate toxic reactive oxygen species (ROS) to damage biomolecules like DNA. At the same time, some chemotherapy drugs like nucleotide analogues can provide mechanism-guided promotion in the treatment efficacy of PDT. However, the photosensitizer and chemotherapy drugs used in PDT is usually organic molecules, which suffers from bad solubility, fast clearance, and acute toxicity. To achieve targeted treatment, a reasonable delivery system is necessary. Therefore, we reported a metal-phenolic network where IR780 and gemcitabine were coupled chemically to overcome these shortcomings. The enhanced PDT effects can be realized by the promoted cell death both in vitro and in vivo. Moreover, the synergistic therapy also induced T-cell mediated anti-tumor immune response, which was significant for the inhibition of distant tumor growth. This work expanded the biomedical application of metal-phenolic materials and contribute to the wider application of photodynamic cancer therapy.
基金This work was financially supported by the Natural Science Foundation of Hubei Province(No.2022CFB388)the fund of the Key Laboratory of Catalysis and Energy Materials Chemistry of the Ministry of Education&Hubei Key Laboratory of Catalysis and Ma-terials Science(No.CHCL19002)+1 种基金the State Key Laboratory of Ad-vanced Technology for Materials Synthesis and Processing(Wuhan University of Technology,No.2021-KF-19)the National Natural Science Foundation of China(No.22102127).We would also like to thank eceshi(www.eceshi.com)for the TPD tests.
文摘The catalytic alcohol dehydrogenation to carboxylic acids has been demonstrated as an atom-economic and environmental-friendly synthetic method.However,the reported catalysts either require relatively complicated synthesis or exhibit high activity only in the presence of a solvent.Therefore,it is still in high demand to obtain catalysts that feature facile synthesis and perform well even without any solvent.Herein,a series of nanostructured bimetallic Zn/Co species embedded in N-doped hierarchical porous carbon were fabricated in a facile and green manner.More significantly,the best-performing material(Zn/Co@NC-800)was identified as the first heterogeneous catalyst to enable this transformation under solvent-free conditions.Moreover,the as-prepared composites were comprehensively investigated to de-termine their structural and morphological properties,which rationalized the superiority of Zn/Co@NC-800 over the other synthesized materials.Further studies signified that Co sites(both Co^(0)and Co^(2+))and N species(mainly pyridinic N)were probably involved in this process,functioning as the Lewis acid site and basic site,respectively.Hopefully,this study could provide a simple and sustainable method for carboxylic acid synthesis.
基金This work was supported by the National Natural Science Foundation of China(NSFC 32171318 and 32101069)the Faculty of Health Sciences,University of Macao,the Science and Technology Development Fund,Macao SAR(File no.0109/2018/A3,0011/2019/AKP,0113/2019/A2,0103/2021/A,and 0002/2021/AKP)+1 种基金the Multi-Year Research Grant(MYRG)of University of Macao(File no.MYRG2022-00011-FHS)Shenzhen Science and Technology Innovation Commission,Shenzhen-Hong Kong-Macao Science and Technology Plan C(No.SGDX20201103093600004).
文摘Malignant melanoma cell-intrinsic PD-1:PD-L1 interaction thrusts tumorigenesis,angiogenesis,and radioresistance via mTOR hyperactivation to aggravate circumjacent aggression.Interdicting melanoma intrinsic growth signals,including the blockade of PD-L1 and mTOR signaling concurrently,cooperative with radiotherapy may provide a vigorous repertoire to alleviate the tumor encumbrance.Thence,we design a three-pronged platinum@polymer-catechol nanobraker to deliver mTOR inhibitor TAK228 and anti-PD-L1 antibody(aPD-L1)for impeding the melanoma-PD-1-driven aggression and maximizing the melanoma eradication.The aPD-L1 collaborated with TAK228 restrains melanoma cell-intrinsic PD-1:PD-L1 tumorigenic interaction via blocking melanoma-PD-L1 ligand and the melanoma-PD-1 receptor-driven mTOR signaling;corresponding downregulation of mTOR downstream protumorigenic cellular MYC and proangiogenic hypoxia-inducible factor 1-alpha is conducive to preventing tumorigenesis and angiogenesis,respectively.Further,high-Z metal platinum sensitizing TAK228-enhanced radiotherapy confers the nanobraker on remarkable tumoricidal efficacy.Hereto,the customized three-pronged nanobrakers efficiently suppress melanoma tumorigenesis and angiogenesis concomitant with the amplification of radiotherapeutic efficacy.Such an ingenious tactic may provide substantial benefits to clinical melanoma patients.
基金This work was supported by the National Natural Science Foundation of China(NSFC)(Nos.32171318 and 32101069)the Faculty of Health Sciences,University of Macao,the Start-up Research Grant(SRG)of University of Macao(No.SRG2018-00130-FHS)+2 种基金the Science and Technology Development Fund,Macao SAR(Nos.0109/2018/A3,0011/2019/AKP,0113/2019/A2,and 0103/2021/A)Shenzhen Science and Technology Innovation Commission,Shenzhen-Hong Kong-Macao Science and Technology Plan C(No.SGDX20201103093600004)We appreciate the assistance and support from the Proteomics,Metabolomics and Drug Development Core,Animal Research Core,and Biological Imaging and Stem Cell Core in the Faculty of Health Sciences,University of Macao.
文摘Interferon-γ(IFN-γ),secreted by activated T cells predominantly,plays a crucial performance in the tumoricidal immune response.Unfortunately,a high level of IFN-γseverely ignites the immunosuppressive response,especially by increasing the expression of immune checkpoint programmed death-ligand 1(PD-L1)and immunoregulatory enzyme indoleamine 2,3-dioxygenase 1(IDO-1).Herein,we have explored a versatile IFN-γ-nano-integrator(aPD-L1-SH@Ce6@NLG919-PEG,simplified as CNDP)to establish a positive anti-tumor feedback loop to amplify the IFN-γ-mediated tumoricidal effect.In this nanointegrator,photosensitizer chlorin e6(Ce6)mediates photodynamic therapy(PDT)to re-shape immunogenicity and activate the adaptive immune response,followed by the secretion of high-level IFN-γto struggle tumor cells.IDO-1 inhibitor(NLG919)afterwards mitigates the immunosuppressive behavior of IFN-γby neutralizing the function of IDO-1.To turn“waste”into wealth,anti-PD-L1(aPD-L1)antibodies are technically integrated into the nano-integrator to propel the precise attack of breast cancer through ascending PD-L1 blockade.Together,this“three musketeers”nano-integrator tumoricidal tactic may give a unique insight into the clinical anti-tumor therapy.
基金J.L.and L.X.contributed equally to this work.This work was sup-ported by the Faculty of Health Sciences,University of Macao,the Start-up Research Grant(SRG)of University of Macao(File No.SRG2018-00130-FHS)the Science and Technology Development Fund,Macao SAR(File Nos.0109/2018/A3 and 0011/2019/AKP)+1 种基金Shenzhen Science and Technology Innovation Commission,Shenzhen-Hong Kong-Macao Science and Technology Plan C,No.SGDX20201103093600004)The authors thank the Animal Research Core and Biological Imaging and Stem Cell Core in the Faculty of Health Sciences,University of Macao.The animal experimental procedures were conducted following an es-tablished protocol(UMARE-030-2018)that had previously been ap-proved by the University of Macao Animal Ethics Committee.
文摘Despite tremendous advances in gas therapy,there are major concerns about the inevitable concentration of toxicity and the ability to perform real-time tracking of drug delivery.Second near-infrared(NIR-Ⅱ)window absorbing nanoplatforms hold great promise for precision medicine because of their excellent tissue penetration of light and non-invasive nature.In this study,we engineered an NIR-Ⅱlaser-activated theranostic agent(named CP-bF@PEG)that was composed of amphiphilic polymers(Pluronic F127,with polyethylene glycol,PEG,moieties)coated with an NIR-Ⅱ-absorbing conjugated polymer(PTTBBT,CP)and nitric oxide(NO)donor(benzofuroxan,bF),which served as an NIR-Ⅱphotothermal inducer and NO nanogenerator.Under deep tissue penetration of NIR-Ⅱlaser irradiation,CP-bF@PEG was found to possess fluorescence imaging ability to accurately identify tumor and excellent photothermal effect.Moreover,CP-bF@PEG could generate NO via glutathione activation in the tumor microenvironment in a controllable manner.This NIR-Ⅱ-absorbing polymer for high-contrast NIR-Ⅱfluorescence imaging-guided precision photothermal therapy achieved synergistic effects with NO therapy,as evidenced by pronounced tumor therapeutic efficacy and few side effects.This nanotheranostic agent is a highly promising candidate for high-contrast NIR-Ⅱimaging-guided precision photothermal therapy combined with gas therapy against cancer.
基金support of the Fundamental Research Funds for the Central Universities(No.40120631)National Natural Science Foundation of China(No.52202291)for the support.
文摘Zn-air batteries(ZABs)as a class of promising energy storage setups are generally powered by efficient and robust catalysts at the oxygen-involving cathode.Although the existing non-noble catalysts have outperformed noble Pt benchmark in the alkaline liquid-state ZABs,to the best of our knowledge few have excelled Pt in quasi-solid-state(QSS)ZABs.Herein,we found that an integrated Mn-Co cathode derived from the bimetallic Mn/Co metal organic frameworks generates a 1.4-fold greater power density in the QSS ZABs than a Pt cathode while its power density in liquid-state ZABs is only 0.8-fold of the latter.Moreover,such Mn-Co catalyst delivers high-rate oxygen reduction reaction(ORR)capability with half-wave potential of 0.84 V.The in-depth characterizations and analyses have demonstrated that the Co and Mn species show the specific affinity towards H_(2)O and O_(2),respectively,synergizing the ORR process in the water-deficient environment of QSS ZABs.This work has enlightened the rational design of non-noble metal catalysts to improve the power density of QSS ZABs.