The dental operative microscope has been widely employed in the field of dentistry,particularly in endodontics and operative dentistry,resulting in significant advancements in the effectiveness of root canal therapy,e...The dental operative microscope has been widely employed in the field of dentistry,particularly in endodontics and operative dentistry,resulting in significant advancements in the effectiveness of root canal therapy,endodontic surgery,and dental restoration.However,the improper use of this microscope continues to be common in clinical settings,primarily due to operators’insufficient understanding and proficiency in both the features and established operating procedures of this equipment.In October 2019,Professor Jingping Liang,Vice Chairman of the Society of Cariology and Endodontology,Chinese Stomatological Association,organized a consensus meeting with Chinese experts in endodontics and operative dentistry.The objective of this meeting was to establish a standard operation procedure for the dental operative microscope.Subsequently,a consensus was reached and officially issued.Over the span of about four years,the content of this consensus has been further developed and improved through practical experience.展开更多
Dental stem cells(DSCs)have attracted significant interest as autologous stem cells since they are easily accessible and give a minimal immune response.These properties and their ability to both maintain self-renewal ...Dental stem cells(DSCs)have attracted significant interest as autologous stem cells since they are easily accessible and give a minimal immune response.These properties and their ability to both maintain self-renewal and undergo multi-lineage differentiation establish them as key players in regenerative medicine.While many regulatory factors determine the differentiation trajectory of DSCs,prior research has predominantly been based on genetic,epigenetic,and molecular aspects.Recent evidence suggests that DSC differentiation can also be influenced by autophagy,a highly conserved cellular process responsible for maintaining cellular and tissue homeostasis under various stress conditions.This comprehensive review endeavors to elucidate the intricate regulatory mechanism and relationship between autophagy and DSC differentiation.To achieve this goal,we dissect the intricacies of autophagy and its mechanisms.Subsequently,we elucidate its pivotal roles in impacting DSC differentiation,including osteo/odontogenic,neurogenic,and angiogenic trajectories.Furthermore,we reveal the regulatory factors that govern autophagy in DSC lineage commitment,including scaffold materials,pharmaceutical cues,and the extrinsic milieu.The implications of this review are far-reaching,underpinning the potential to wield autophagy as a regulatory tool to expedite DSC-directed differentiation and thereby promote the application of DSCs within the realm of regenerative medicine.展开更多
A decline in mucosal vascularity is a histological hallmark of oral submucous fibrosis (OSF), a premalignant disease that is largely induced by betel quid chewing. However, the lack of available models has challenged ...A decline in mucosal vascularity is a histological hallmark of oral submucous fibrosis (OSF), a premalignant disease that is largely induced by betel quid chewing. However, the lack of available models has challenged studies of angiogenesis in OSF. Here, we found that the expression of thrombospondin 1 (THBS1), an endogenous angiostatic protein, was elevated in the stroma of tissues with OSF. Using a fibroblast-attached organoid (FAO) model, the overexpression of THBS1 in OSF was stably recapitulated in vitro. In the FAO model,treatment with arecoline, a major pathogenic component in areca nuts, enhanced the secretion of transforming growth factor (TGF)-β1 by epithelial cells, which then promoted the expression of THBS1 in fibroblasts. Furthermore, human umbilical vein endothelial cells (HUVECs)were incorporated into the FAO to mimic the vascularized component. Overexpression of THBS1 in fibroblasts drastically suppressed the sprouting ability of endothelial cells in vascularized FAOs (v FAOs). Consistently, treatment with arecoline reduced the expression of CD31in v FAOs, and this effect was attenuated when the endothelial cells were preincubated with neutralizing antibody of CD36, a receptor of THBS1. Finally, in an arecoline-induced rat OSF model, THBS1 inhibition alleviated collagen deposition and the decline in vascularity in vivo. Overall, we exploited an assembled organoid model to study OSF pathogenesis and provide a rationale for targeting THBS1.展开更多
Autophagy is a widespread biological process that controls cellular growth,survival,development,and death.Circadian rhythm is a recurring reaction of living organisms and behaviors to variations in surrounding brightn...Autophagy is a widespread biological process that controls cellular growth,survival,development,and death.Circadian rhythm is a recurring reaction of living organisms and behaviors to variations in surrounding brightness and obscurity.Most of the fundamental physiological processes in mammals,such as the sleep-wake pattern and the rhythm of nutrition and energy metabolism,are governed by circadian rhythms.Research has indicated that autophagy exhibits a specific circadian pattern in both normal and abnormal conditions.Autophagy can modulate circadian rhythms by breaking down proteins that regulate the circadian clock.The potential regulatory connection between the two has been a popular subject of clinical and fundamental research.Understanding the interaction between circadian rhythm and autophagy could potentially lead to the development of novel approaches for disease treatment in the future.The present analysis presented a summary of the molecular processes implicated in the interplay between autophagy and circadian rhythm,as well as the pathological importance of the disrupted regulatory association between these two phenomena.展开更多
Chemical cleaning and disinfection are crucial steps for eliminating infection in root canal treatment. However, irrigant selection or irrigation procedures are far from clear. The vapor lock effect in the apical regi...Chemical cleaning and disinfection are crucial steps for eliminating infection in root canal treatment. However, irrigant selection or irrigation procedures are far from clear. The vapor lock effect in the apical region has yet to be solved, impeding irrigation efficacy and resulting in residual infections and compromised treatment outcomes.展开更多
BACKGROUND Bone marrow mesenchymal stromal cells(BMSCs)are the commonly used seed cells in tissue engineering.Aryl hydrocarbon receptor(AhR)is a transcription factor involved in various cellular processes.However,the ...BACKGROUND Bone marrow mesenchymal stromal cells(BMSCs)are the commonly used seed cells in tissue engineering.Aryl hydrocarbon receptor(AhR)is a transcription factor involved in various cellular processes.However,the function of constitutive AhR in BMSCs remains unclear.AIM To investigate the role of AhR in the osteogenic and macrophage-modulating potential of mouse BMSCs(mBMSCs)and the underlying mechanism.METHODS Immunochemistry and immunofluorescent staining were used to observe the expression of AhR in mouse bone marrow tissue and mBMSCs.The overexpression or knockdown of AhR was achieved by lentivirus-mediated plasmid.The osteogenic potential was observed by alkaline phosphatase and alizarin red staining.The mRNA and protein levels of osteogenic markers were detected by quantitative polymerase chain reaction(qPCR)and western blot.After coculture with different mBMSCs,the cluster of differentiation(CD)86 and CD206 expressions levels in RAW 264.7 cells were analyzed by flow cytometry.To explore the underlying molecular mechanism,the interaction of AhR with signal transducer and activator of transcription 3(STAT3)was observed by co-immunoprecipitation and phosphorylation of STAT3 was detected by western blot.RESULTS AhR expressions in mouse bone marrow tissue and isolated mBMSCs were detected.AhR overexpression enhanced the osteogenic potential of mBMSCs while AhR knockdown suppressed it.The ratio of CD86+RAW 264.7 cells cocultured with AhR-overexpressed mBMSCs was reduced and that of CD206+cells was increased.AhR directly interacted with STAT3.AhR overexpression increased the phosphorylation of STAT3.After inhibition of STAT3 via stattic,the promotive effects of AhR overexpression on the osteogenic differentiation and macrophage-modulating were partially counteracted.CONCLUSION AhR plays a beneficial role in the regenerative potential of mBMSCs partially by increasing phosphorylation of STAT3.展开更多
Odontogenic maxillary sinusitis (OMS) is a subtype of maxillary sinusitis (MS). It is actually inflammation of the maxillary sinus that secondary to adjacent infectious maxillary dental lesion. Due to the lack of uniq...Odontogenic maxillary sinusitis (OMS) is a subtype of maxillary sinusitis (MS). It is actually inflammation of the maxillary sinus that secondary to adjacent infectious maxillary dental lesion. Due to the lack of unique clinical features, OMS is difficult to distinguish from other types of rhinosinusitis. Besides, the characteristic infectious pathogeny of OMS makes it is resistant to conventional therapies of rhinosinusitis. Its current diagnosis and treatment are thus facing great difficulties. The multi-disciplinary cooperation between otolaryngologists and dentists is absolutely urgent to settle these questions and to acquire standardized diagnostic and treatment regimen for OMS. However, this disease has actually received little attention and has been underrepresented by relatively low publication volume and quality. Based on systematically reviewed literature and practical experiences of expert members, our consensus focuses on characteristics, symptoms, classification and diagnosis of OMS, and further put forward multidisciplinary treatment decisions for OMS, as well as the common treatment complications and relative managements. This consensus aims to increase attention to OMS, and optimize the clinical diagnosis and decision-making of OMS, which finally provides evidence-based options for OMS clinical management.展开更多
Background:Shengxuebao mixture(SXBM)is a novel herbal drug approved by China State Food and Drug Administration for the treatment of Leukopenia and iron deficiency anemia caused by radiotherapy and chemotherapy.Method...Background:Shengxuebao mixture(SXBM)is a novel herbal drug approved by China State Food and Drug Administration for the treatment of Leukopenia and iron deficiency anemia caused by radiotherapy and chemotherapy.Methods:To explore the mechanism of SXBM in treating blood deficiency syndrome(BDS).Firstly,network pharmacology and in vivo experiments were used to screen candidate targets and important signaling pathways of SXBM,GO functional enrichment and KEGG pathway analysis were performed.Secondly,a BDS rat model was established to verify the results of the analysis of network pharmacological enrichment.Histopathology and routine peripheral blood examination were observed.The expressions of tumor necrosis factor-α,interleukin(IL)-6,HIF-1αand NF-κB were detected by Western blot,and the expressions of IL-6,IL-1βwere detected by ELISA.Results:62 bioactive components,66 potential targets and 131 signaling pathways of BDS were successfully identified by network pharmacology.Molecular docking simulation techniques showed that key targets tumor necrosis factor-α,IL-6,IL-1βcan dock well with crucial components,and the BDS-related signaling pathways HIF-1 and JAK-STAT play a vital role.The combined model experiment of acetylphenylhydrazine and cyclophosphamide showed that the model group had obvious blood deficiency,and the histopathology and blood routine were effectively restored after administration.Our findings indicate that SXBM’s therapeutic effect on BDS primarily involves the mediation of the HIF-1α/NF-κB signaling pathway and the regulation of hematopoietic factor expression.Conclusion:This study not only affirmed the protective properties of SXBM against BDS but also provided insights into a potential mechanism for blood replenishment in the treatment of BDS using SXBM.展开更多
Mouse dental papilla cells(mDPCs)are cranial neural crest-derived dental mesenchymal cells that give rise to dentin-secreting odontoblasts after the bell stage during odontogenesis.The odontoblastic differentiation of...Mouse dental papilla cells(mDPCs)are cranial neural crest-derived dental mesenchymal cells that give rise to dentin-secreting odontoblasts after the bell stage during odontogenesis.The odontoblastic differentiation of mDPCs is spatiotemporally regulated by transcription factors(TFs).Our previous work reveals that chromatin accessibility was correlated with the occupation of the basic leucine zipper TF family during odontoblastic differentiation.However,the detailed mechanism by which TFs regulate the initiation of odontoblastic differentiation remains elusive.Here,we report that phosphorylation of ATF2(p-ATF2)is particularly increased during odontoblastic differentiation in vivo and in vitro.ATAC-seq and p-ATF2 CUT&Tag experiments further demonstrate a high correlation between p-ATF2 localization and increased chromatin accessibility of regions near mineralization-related genes.Knockdown of Atf2 inhibits the odontoblastic differentiation of mDPCs,while overexpression of p-ATF2 promotes odontoblastic differentiation.ATAC-seq after overexpression of p-ATF2 reveals that p-ATF2 increases the chromatin accessibility of regions adjacent to genes associated with matrix mineralization.Furthermore,we find that p-ATF2 physically interacts with and promotes H2BK12 acetylation.Taken together,our findings reveal a mechanism that p-ATF2 promotes odontoblastic differentiation at initiation via remodeling chromatin accessibility and emphasize the role of the phosphoswitch model of TFs in cell fate transitions.展开更多
Periodontitis is a prevalent oral disease. It can cause tooth loss and has a significant impact on patients’ quality of life. While existing treatments can only slow the progression of periodontitis, they are unable ...Periodontitis is a prevalent oral disease. It can cause tooth loss and has a significant impact on patients’ quality of life. While existing treatments can only slow the progression of periodontitis, they are unable to achieve complete regeneration and functional reconstruction of periodontal tissues. As a result, regenerative therapies based on biomaterials have become a focal point of research in the field of periodontology. Despite numerous studies reporting the superiority of new materials in periodontal regeneration, limited progress has been made in translating these findings into clinical practice. This may be due to the lack of appropriate animal models to simulate the tissue defects caused by human periodontitis. This review aims to provide an overview of established animal models for periodontal regeneration, examine their advantages and limitations, and outline the steps for model construction. The objective is to determine the most relevant animal models for periodontal regeneration based on the hypothesis and expected outcomes.展开更多
文摘The dental operative microscope has been widely employed in the field of dentistry,particularly in endodontics and operative dentistry,resulting in significant advancements in the effectiveness of root canal therapy,endodontic surgery,and dental restoration.However,the improper use of this microscope continues to be common in clinical settings,primarily due to operators’insufficient understanding and proficiency in both the features and established operating procedures of this equipment.In October 2019,Professor Jingping Liang,Vice Chairman of the Society of Cariology and Endodontology,Chinese Stomatological Association,organized a consensus meeting with Chinese experts in endodontics and operative dentistry.The objective of this meeting was to establish a standard operation procedure for the dental operative microscope.Subsequently,a consensus was reached and officially issued.Over the span of about four years,the content of this consensus has been further developed and improved through practical experience.
基金funded by grants from the National Natural Science Foundation of China(Nos.81771095,82071235)Key R&D Program of Shaanxi Province(2017SF-103,2021KWZ-26,2023-JC-ZD-56)State Key Laboratory of Military Stomatology(2020ZA01).
文摘Dental stem cells(DSCs)have attracted significant interest as autologous stem cells since they are easily accessible and give a minimal immune response.These properties and their ability to both maintain self-renewal and undergo multi-lineage differentiation establish them as key players in regenerative medicine.While many regulatory factors determine the differentiation trajectory of DSCs,prior research has predominantly been based on genetic,epigenetic,and molecular aspects.Recent evidence suggests that DSC differentiation can also be influenced by autophagy,a highly conserved cellular process responsible for maintaining cellular and tissue homeostasis under various stress conditions.This comprehensive review endeavors to elucidate the intricate regulatory mechanism and relationship between autophagy and DSC differentiation.To achieve this goal,we dissect the intricacies of autophagy and its mechanisms.Subsequently,we elucidate its pivotal roles in impacting DSC differentiation,including osteo/odontogenic,neurogenic,and angiogenic trajectories.Furthermore,we reveal the regulatory factors that govern autophagy in DSC lineage commitment,including scaffold materials,pharmaceutical cues,and the extrinsic milieu.The implications of this review are far-reaching,underpinning the potential to wield autophagy as a regulatory tool to expedite DSC-directed differentiation and thereby promote the application of DSCs within the realm of regenerative medicine.
基金supported by grants from National Key R&D Programme of China (No. 2022YFC2504200)the Fundamental Research Funds for the Central Universities (No. 2042023kf0154+4 种基金No. 2042023kfyq02)the National Nature Science Foundation of China (No. 82273306No.81901016No. 82303326)Wuhan Knowledge Innovation Program (No.2022020801020469)。
文摘A decline in mucosal vascularity is a histological hallmark of oral submucous fibrosis (OSF), a premalignant disease that is largely induced by betel quid chewing. However, the lack of available models has challenged studies of angiogenesis in OSF. Here, we found that the expression of thrombospondin 1 (THBS1), an endogenous angiostatic protein, was elevated in the stroma of tissues with OSF. Using a fibroblast-attached organoid (FAO) model, the overexpression of THBS1 in OSF was stably recapitulated in vitro. In the FAO model,treatment with arecoline, a major pathogenic component in areca nuts, enhanced the secretion of transforming growth factor (TGF)-β1 by epithelial cells, which then promoted the expression of THBS1 in fibroblasts. Furthermore, human umbilical vein endothelial cells (HUVECs)were incorporated into the FAO to mimic the vascularized component. Overexpression of THBS1 in fibroblasts drastically suppressed the sprouting ability of endothelial cells in vascularized FAOs (v FAOs). Consistently, treatment with arecoline reduced the expression of CD31in v FAOs, and this effect was attenuated when the endothelial cells were preincubated with neutralizing antibody of CD36, a receptor of THBS1. Finally, in an arecoline-induced rat OSF model, THBS1 inhibition alleviated collagen deposition and the decline in vascularity in vivo. Overall, we exploited an assembled organoid model to study OSF pathogenesis and provide a rationale for targeting THBS1.
基金funded by the National Natural Science Foundation of China(Code No.82100954/81800924)Natural Science Foundation of Inner Mongolia Autonomous Region(Code No.2023QN08026)+3 种基金Key Research and Development Projects of Shaanxi Province(Code No.2022KW-12)The Basic and Natural Science Research Program of Shaanxi Province(Code No.2022JQ-915)Key Research and Development Program of Tibet Autonomous Region(XZ202001ZY0059G)New Technology and New Business Project of the Third Affiliated Hospital of Air Force Military Medical University(Code No.LX2021-416).
文摘Autophagy is a widespread biological process that controls cellular growth,survival,development,and death.Circadian rhythm is a recurring reaction of living organisms and behaviors to variations in surrounding brightness and obscurity.Most of the fundamental physiological processes in mammals,such as the sleep-wake pattern and the rhythm of nutrition and energy metabolism,are governed by circadian rhythms.Research has indicated that autophagy exhibits a specific circadian pattern in both normal and abnormal conditions.Autophagy can modulate circadian rhythms by breaking down proteins that regulate the circadian clock.The potential regulatory connection between the two has been a popular subject of clinical and fundamental research.Understanding the interaction between circadian rhythm and autophagy could potentially lead to the development of novel approaches for disease treatment in the future.The present analysis presented a summary of the molecular processes implicated in the interplay between autophagy and circadian rhythm,as well as the pathological importance of the disrupted regulatory association between these two phenomena.
文摘Chemical cleaning and disinfection are crucial steps for eliminating infection in root canal treatment. However, irrigant selection or irrigation procedures are far from clear. The vapor lock effect in the apical region has yet to be solved, impeding irrigation efficacy and resulting in residual infections and compromised treatment outcomes.
基金Supported by National Natural Science Foundation of China,No.82001014,No.82071090Hubei Provincial Natural Science Foundation of China,No.2022CFB115.
文摘BACKGROUND Bone marrow mesenchymal stromal cells(BMSCs)are the commonly used seed cells in tissue engineering.Aryl hydrocarbon receptor(AhR)is a transcription factor involved in various cellular processes.However,the function of constitutive AhR in BMSCs remains unclear.AIM To investigate the role of AhR in the osteogenic and macrophage-modulating potential of mouse BMSCs(mBMSCs)and the underlying mechanism.METHODS Immunochemistry and immunofluorescent staining were used to observe the expression of AhR in mouse bone marrow tissue and mBMSCs.The overexpression or knockdown of AhR was achieved by lentivirus-mediated plasmid.The osteogenic potential was observed by alkaline phosphatase and alizarin red staining.The mRNA and protein levels of osteogenic markers were detected by quantitative polymerase chain reaction(qPCR)and western blot.After coculture with different mBMSCs,the cluster of differentiation(CD)86 and CD206 expressions levels in RAW 264.7 cells were analyzed by flow cytometry.To explore the underlying molecular mechanism,the interaction of AhR with signal transducer and activator of transcription 3(STAT3)was observed by co-immunoprecipitation and phosphorylation of STAT3 was detected by western blot.RESULTS AhR expressions in mouse bone marrow tissue and isolated mBMSCs were detected.AhR overexpression enhanced the osteogenic potential of mBMSCs while AhR knockdown suppressed it.The ratio of CD86+RAW 264.7 cells cocultured with AhR-overexpressed mBMSCs was reduced and that of CD206+cells was increased.AhR directly interacted with STAT3.AhR overexpression increased the phosphorylation of STAT3.After inhibition of STAT3 via stattic,the promotive effects of AhR overexpression on the osteogenic differentiation and macrophage-modulating were partially counteracted.CONCLUSION AhR plays a beneficial role in the regenerative potential of mBMSCs partially by increasing phosphorylation of STAT3.
基金project was supported by grants from National Natural Science Foundations of China (Nos. 82025010, 81630023, 81900917)Changjiang Scholars and Innovative Research Team (No. IRT13082)+4 种基金CAMS Innovation Fund for Medical Sciences (No. 2019-I2M-5-022)Beijing Municipal Science and Technology Commision (Nos. Z181100001618002, Z211100002921057)Capital’s Funds for Health Improvement and Research (No.CFH2022-1-1091)Beijing Municipal Administration of Hospitals’ Mission Project (No. SML20150203)Beijing Municipal Administration of Hospitals’ Dengfeng Project (No. DFL20190202)。
文摘Odontogenic maxillary sinusitis (OMS) is a subtype of maxillary sinusitis (MS). It is actually inflammation of the maxillary sinus that secondary to adjacent infectious maxillary dental lesion. Due to the lack of unique clinical features, OMS is difficult to distinguish from other types of rhinosinusitis. Besides, the characteristic infectious pathogeny of OMS makes it is resistant to conventional therapies of rhinosinusitis. Its current diagnosis and treatment are thus facing great difficulties. The multi-disciplinary cooperation between otolaryngologists and dentists is absolutely urgent to settle these questions and to acquire standardized diagnostic and treatment regimen for OMS. However, this disease has actually received little attention and has been underrepresented by relatively low publication volume and quality. Based on systematically reviewed literature and practical experiences of expert members, our consensus focuses on characteristics, symptoms, classification and diagnosis of OMS, and further put forward multidisciplinary treatment decisions for OMS, as well as the common treatment complications and relative managements. This consensus aims to increase attention to OMS, and optimize the clinical diagnosis and decision-making of OMS, which finally provides evidence-based options for OMS clinical management.
基金National Natural Science Foundation of China(81503280,81573549)Key Industry Innovation Chain(Cluster)Foundation of Shaanxi Province(2022ZDLSF05-04).
文摘Background:Shengxuebao mixture(SXBM)is a novel herbal drug approved by China State Food and Drug Administration for the treatment of Leukopenia and iron deficiency anemia caused by radiotherapy and chemotherapy.Methods:To explore the mechanism of SXBM in treating blood deficiency syndrome(BDS).Firstly,network pharmacology and in vivo experiments were used to screen candidate targets and important signaling pathways of SXBM,GO functional enrichment and KEGG pathway analysis were performed.Secondly,a BDS rat model was established to verify the results of the analysis of network pharmacological enrichment.Histopathology and routine peripheral blood examination were observed.The expressions of tumor necrosis factor-α,interleukin(IL)-6,HIF-1αand NF-κB were detected by Western blot,and the expressions of IL-6,IL-1βwere detected by ELISA.Results:62 bioactive components,66 potential targets and 131 signaling pathways of BDS were successfully identified by network pharmacology.Molecular docking simulation techniques showed that key targets tumor necrosis factor-α,IL-6,IL-1βcan dock well with crucial components,and the BDS-related signaling pathways HIF-1 and JAK-STAT play a vital role.The combined model experiment of acetylphenylhydrazine and cyclophosphamide showed that the model group had obvious blood deficiency,and the histopathology and blood routine were effectively restored after administration.Our findings indicate that SXBM’s therapeutic effect on BDS primarily involves the mediation of the HIF-1α/NF-κB signaling pathway and the regulation of hematopoietic factor expression.Conclusion:This study not only affirmed the protective properties of SXBM against BDS but also provided insights into a potential mechanism for blood replenishment in the treatment of BDS using SXBM.
基金supported by the National Natural Science Foundation of China (No. 82071110 and No. 82230029) to Zhi Chenthe National Natural Science Foundation of China (No. 82071077 and No.82270948)+1 种基金“the Fundamental Research Funds for the Central Universities”“The Young Top-notch Talent Cultivation Program of Hubei Province” to Huan Liu
文摘Mouse dental papilla cells(mDPCs)are cranial neural crest-derived dental mesenchymal cells that give rise to dentin-secreting odontoblasts after the bell stage during odontogenesis.The odontoblastic differentiation of mDPCs is spatiotemporally regulated by transcription factors(TFs).Our previous work reveals that chromatin accessibility was correlated with the occupation of the basic leucine zipper TF family during odontoblastic differentiation.However,the detailed mechanism by which TFs regulate the initiation of odontoblastic differentiation remains elusive.Here,we report that phosphorylation of ATF2(p-ATF2)is particularly increased during odontoblastic differentiation in vivo and in vitro.ATAC-seq and p-ATF2 CUT&Tag experiments further demonstrate a high correlation between p-ATF2 localization and increased chromatin accessibility of regions near mineralization-related genes.Knockdown of Atf2 inhibits the odontoblastic differentiation of mDPCs,while overexpression of p-ATF2 promotes odontoblastic differentiation.ATAC-seq after overexpression of p-ATF2 reveals that p-ATF2 increases the chromatin accessibility of regions adjacent to genes associated with matrix mineralization.Furthermore,we find that p-ATF2 physically interacts with and promotes H2BK12 acetylation.Taken together,our findings reveal a mechanism that p-ATF2 promotes odontoblastic differentiation at initiation via remodeling chromatin accessibility and emphasize the role of the phosphoswitch model of TFs in cell fate transitions.
文摘Periodontitis is a prevalent oral disease. It can cause tooth loss and has a significant impact on patients’ quality of life. While existing treatments can only slow the progression of periodontitis, they are unable to achieve complete regeneration and functional reconstruction of periodontal tissues. As a result, regenerative therapies based on biomaterials have become a focal point of research in the field of periodontology. Despite numerous studies reporting the superiority of new materials in periodontal regeneration, limited progress has been made in translating these findings into clinical practice. This may be due to the lack of appropriate animal models to simulate the tissue defects caused by human periodontitis. This review aims to provide an overview of established animal models for periodontal regeneration, examine their advantages and limitations, and outline the steps for model construction. The objective is to determine the most relevant animal models for periodontal regeneration based on the hypothesis and expected outcomes.