Currently, accumulating pieces of evidence indicate that probiotics, living in the gastrointestinal tract, play an important role in regulating host metabolism. As a tool, probiotics have great potential for treating ...Currently, accumulating pieces of evidence indicate that probiotics, living in the gastrointestinal tract, play an important role in regulating host metabolism. As a tool, probiotics have great potential for treating lipid metabolism diseases. However, the relationship between probiotics and abnormal lipid metabolism is still unclear, and the mechanism of action has been become a focus of microbiome research. Therefore, taking intestinal probiotics as the starting point, this article combs the relationship between probiotics and lipid metabolism. Moreover, we discuss the underlying mechanisms of intestinal probiotics regulating lipid metabolism and summarize the therapeutic strategies for abnormal lipids metabolism. This article provides a reference for the further utilization of probiotics in the field of functional foods(food industry). Meanwhile, it will benefit the clinical diagnosis and treatment of lipid metabolism diseases.展开更多
Activation of osteoclasts during orthodontic tooth treatment is a prerequisite for alveolar bone resorption and tooth movement.However,the key regulatory molecules involved in osteoclastogenesis during this process re...Activation of osteoclasts during orthodontic tooth treatment is a prerequisite for alveolar bone resorption and tooth movement.However,the key regulatory molecules involved in osteoclastogenesis during this process remain unclear.Long noncoding RNAs(lnc RNAs)are a newly identified class of functional RNAs that regulate cellular processes,such as gene expression and translation regulation.Recently,lnc RNAs have been reported to be involved in osteogenesis and bone formation.However,as the most abundant noncoding RNAs in vivo,the potential regulatory role of lnc RNAs in osteoclast formation and bone resorption urgently needs to be clarified.We recently found that the lnc RNA Nron(long noncoding RNA repressor of the nuclear factor of activated T cells)is highly expressed in osteoclast precursors.Nron is downregulated during osteoclastogenesis and bone ageing.To further determine whether Nron regulates osteoclast activity during orthodontic treatment,osteoclastic Nron transgenic(Nron c TG)and osteoclastic knockout(Nron CKO)mouse models were generated.When Nron was overexpressed,the orthodontic tooth movement rate was reduced.In addition,the number of osteoclasts decreased,and the activity of osteoclasts was inhibited.Mechanistically,Nron controlled the maturation of osteoclasts by regulating NFATc1 nuclear translocation.In contrast,by deleting Nron specifically in osteoclasts,tooth movement speed increased in Nron CKO mice.These results indicate that lnc RNAs could be potential targets to regulate osteoclastogenesis and orthodontic tooth movement speed in the clinic in the future.展开更多
The procedure of preparing specimens of ultrafine particles (UFP) Fe<sub>3</sub>O<sub>4</sub> was studied and themeasurement and analysis of the Mssbauer spectra at room temperature was made....The procedure of preparing specimens of ultrafine particles (UFP) Fe<sub>3</sub>O<sub>4</sub> was studied and themeasurement and analysis of the Mssbauer spectra at room temperature was made.After thehyperfine field due to iron was analyzed carefully,it is shown that the interaction of the interfaces be-tween grains of UFP Fe<sub>3</sub>O<sub>4</sub> has stronger effects (enlarging the quadrupole splitting in Mssbauerspectrum) and it is found that superparamagnetic effects appear,which means that the magneticproperty of UFP Fe<sub>3</sub>O<sub>4</sub> is different from that of bulk Fe<sub>3</sub>O<sub>4</sub>.展开更多
Unlike adult mammalian heart,zebrafish heart has a remarkable capacity to regenerate after injury.Previous study has shown Notch signaling activation in the endocardium is essential for regeneration of the myocardium ...Unlike adult mammalian heart,zebrafish heart has a remarkable capacity to regenerate after injury.Previous study has shown Notch signaling activation in the endocardium is essential for regeneration of the myocardium and this activation is mediated by hemodynamic alteration after injury,however,the molecular mechanism has not been fully explored.In this study we demonstrated that blood flow change could be perceived and transmitted in a primary cilia dependent manner to control the hemodynamic responsive klf2 gene expression and subsequent activation of Notch signaling in the endocardium.First we showed that both homologues of human gene KLF2 in zebrafish,klf2a and klf2b,could respond to hemodynamic alteration and both were required for Notch signaling activation and heart regeneration.Further experiments indicated that the upregulation of klf2 gene expression was mediated by endocardial primary cilia.Overall,our findings reveal a novel aspect of mechanical shear stress signal in activating Notch pathway and regulating cardiac regeneration.展开更多
Fractures are frequently occurring diseases that endanger human health. Crucial to fracture healing is cartilage formation, which provides a bone-regeneration environment. Cartilage consists of both chondrocytes and e...Fractures are frequently occurring diseases that endanger human health. Crucial to fracture healing is cartilage formation, which provides a bone-regeneration environment. Cartilage consists of both chondrocytes and extracellular matrix (ECM). The ECM of cartilage includes collagens and various types of proteoglycans (PGs), which play important roles in maintaining primary stability in fracture healing. The PG form of dentin matrix protein 1 (DMP1-PG) is involved in maintaining the health of articular cartilage and bone. Our previous data have shown that DMP1-PG is richly expressed in the cartilaginous calluses of fracture sites. However, the possible significant role of DMP1-PG in chondrogenesis and fracture healing is unknown. To further detect the potential role of DMP1-PG in fracture repair, we established a mouse fracture model by using a glycosylation site mutant DMP1 mouse (S89G-DMP1 mouse). Upon inspection, fewer cartilaginous calluses and down-regulated expression levels of chondrogenesis genes were observed in the fracture sites of S89G-DMP1 mice. Given the deficiency of DMP1-PG, the impaired IL-6/JAK/STAT signaling pathway was observed to affect the chondrogenesis of fracture healing. Overall, these results suggest that DMP1-PG is an indispensable proteoglycan in chondrogenesis during fracture healing.展开更多
As a highly conserved signaling pathway in metazoans,the Notch pathway plays important roles in embryonic development and tissue regeneration.Recently,cardiac injury and regeneration have become an increasingly popula...As a highly conserved signaling pathway in metazoans,the Notch pathway plays important roles in embryonic development and tissue regeneration.Recently,cardiac injury and regeneration have become an increasingly popular topic for biomedical research,and Notch signaling has been shown to exert crucial functions during heart regeneration as well.In this review,we briefly summarize the molecular functions of the endocardial Notch pathway in several cardiac injury and stress models.Although there is an increase in appreciating the importance of endocardial Notch signaling in heart regeneration,the mechanism of its activation is not fully understood.This review highlights recent findings on the activation of the endocardial Notch pathway by hemodynamic blood flow change in larval zebrafish ventricle after partial ablation,a process involving primary cilia,mechanosensitive ion channel Trpv4 and mechanosensitive transcription factor Klf2.展开更多
基金sponsored by the Natural Science Foundation of Zhejiang Province (LQ22C200002)Shenzhen Peacock Talent Programs Research Start-up Grant (802-012677)Shenzhen Key Laboratory Foundation (ZDSYS20200811143757022)。
文摘Currently, accumulating pieces of evidence indicate that probiotics, living in the gastrointestinal tract, play an important role in regulating host metabolism. As a tool, probiotics have great potential for treating lipid metabolism diseases. However, the relationship between probiotics and abnormal lipid metabolism is still unclear, and the mechanism of action has been become a focus of microbiome research. Therefore, taking intestinal probiotics as the starting point, this article combs the relationship between probiotics and lipid metabolism. Moreover, we discuss the underlying mechanisms of intestinal probiotics regulating lipid metabolism and summarize the therapeutic strategies for abnormal lipids metabolism. This article provides a reference for the further utilization of probiotics in the field of functional foods(food industry). Meanwhile, it will benefit the clinical diagnosis and treatment of lipid metabolism diseases.
基金supported by grants from the National Natural Science Foundation Projects of China(81822012,81771043)National Science and Technology Major Project of China(2016YFC1102705)+1 种基金Special Fund of Chinese Central University for Basic Scientific Research(20173386)Training Program of Shanghai Municipal Health System for Excellent Talents(2017BR009)。
文摘Activation of osteoclasts during orthodontic tooth treatment is a prerequisite for alveolar bone resorption and tooth movement.However,the key regulatory molecules involved in osteoclastogenesis during this process remain unclear.Long noncoding RNAs(lnc RNAs)are a newly identified class of functional RNAs that regulate cellular processes,such as gene expression and translation regulation.Recently,lnc RNAs have been reported to be involved in osteogenesis and bone formation.However,as the most abundant noncoding RNAs in vivo,the potential regulatory role of lnc RNAs in osteoclast formation and bone resorption urgently needs to be clarified.We recently found that the lnc RNA Nron(long noncoding RNA repressor of the nuclear factor of activated T cells)is highly expressed in osteoclast precursors.Nron is downregulated during osteoclastogenesis and bone ageing.To further determine whether Nron regulates osteoclast activity during orthodontic treatment,osteoclastic Nron transgenic(Nron c TG)and osteoclastic knockout(Nron CKO)mouse models were generated.When Nron was overexpressed,the orthodontic tooth movement rate was reduced.In addition,the number of osteoclasts decreased,and the activity of osteoclasts was inhibited.Mechanistically,Nron controlled the maturation of osteoclasts by regulating NFATc1 nuclear translocation.In contrast,by deleting Nron specifically in osteoclasts,tooth movement speed increased in Nron CKO mice.These results indicate that lnc RNAs could be potential targets to regulate osteoclastogenesis and orthodontic tooth movement speed in the clinic in the future.
文摘The procedure of preparing specimens of ultrafine particles (UFP) Fe<sub>3</sub>O<sub>4</sub> was studied and themeasurement and analysis of the Mssbauer spectra at room temperature was made.After thehyperfine field due to iron was analyzed carefully,it is shown that the interaction of the interfaces be-tween grains of UFP Fe<sub>3</sub>O<sub>4</sub> has stronger effects (enlarging the quadrupole splitting in Mssbauerspectrum) and it is found that superparamagnetic effects appear,which means that the magneticproperty of UFP Fe<sub>3</sub>O<sub>4</sub> is different from that of bulk Fe<sub>3</sub>O<sub>4</sub>.
基金We thank Haitao Zhou and Lifeng Li for fish care,Kaa Seng Lai,Yabo Fang and Wenyan Li for technical support and other lab members for in depth discussion.We thank Dr Tao Zhong for providing reagents.This study was supported by National Key R&D Program of China grant 2018YFA0801004 and NSFC grant 31571492 to R.Z.
文摘Unlike adult mammalian heart,zebrafish heart has a remarkable capacity to regenerate after injury.Previous study has shown Notch signaling activation in the endocardium is essential for regeneration of the myocardium and this activation is mediated by hemodynamic alteration after injury,however,the molecular mechanism has not been fully explored.In this study we demonstrated that blood flow change could be perceived and transmitted in a primary cilia dependent manner to control the hemodynamic responsive klf2 gene expression and subsequent activation of Notch signaling in the endocardium.First we showed that both homologues of human gene KLF2 in zebrafish,klf2a and klf2b,could respond to hemodynamic alteration and both were required for Notch signaling activation and heart regeneration.Further experiments indicated that the upregulation of klf2 gene expression was mediated by endocardial primary cilia.Overall,our findings reveal a novel aspect of mechanical shear stress signal in activating Notch pathway and regulating cardiac regeneration.
基金Key Project of Chinese National Programs for Research and Development (No.2016YFC1102075, Yao Sun)National Natural Science Foundation of China (Nos.81470715, 81771043, 81822012, Yao Sun+4 种基金81770873, 81722031, Xiaogang Wang81670962, Zuolin Wang)Shanghai Health System (No.2017BR009 , Yao Sun ), Tongji University (Nos.TJ15042119036 and TJ2000219143, Zuolin Wang)Chinese Universities Scientific Fund (No.kx0200020173386, Rui Yue)We would like to appreciate Dr.Chunlin Qin (College of Dentistry, Texas A&M University) for providing the DMP1-N antibody and assistance.We thank Qigang Wang Group, School of Chemical Science and Engineering, Tongji University for providing biom echanical testing machine.We would also like to thank Xiaojuan Yang, Gongchen Li, and Mengmeng Liu for their help in revising the paper.
文摘Fractures are frequently occurring diseases that endanger human health. Crucial to fracture healing is cartilage formation, which provides a bone-regeneration environment. Cartilage consists of both chondrocytes and extracellular matrix (ECM). The ECM of cartilage includes collagens and various types of proteoglycans (PGs), which play important roles in maintaining primary stability in fracture healing. The PG form of dentin matrix protein 1 (DMP1-PG) is involved in maintaining the health of articular cartilage and bone. Our previous data have shown that DMP1-PG is richly expressed in the cartilaginous calluses of fracture sites. However, the possible significant role of DMP1-PG in chondrogenesis and fracture healing is unknown. To further detect the potential role of DMP1-PG in fracture repair, we established a mouse fracture model by using a glycosylation site mutant DMP1 mouse (S89G-DMP1 mouse). Upon inspection, fewer cartilaginous calluses and down-regulated expression levels of chondrogenesis genes were observed in the fracture sites of S89G-DMP1 mice. Given the deficiency of DMP1-PG, the impaired IL-6/JAK/STAT signaling pathway was observed to affect the chondrogenesis of fracture healing. Overall, these results suggest that DMP1-PG is an indispensable proteoglycan in chondrogenesis during fracture healing.
基金This study was supported by National Key R&D Program of China grant 2018YFA0801000 and NSFC grant 31571492 to R.
文摘As a highly conserved signaling pathway in metazoans,the Notch pathway plays important roles in embryonic development and tissue regeneration.Recently,cardiac injury and regeneration have become an increasingly popular topic for biomedical research,and Notch signaling has been shown to exert crucial functions during heart regeneration as well.In this review,we briefly summarize the molecular functions of the endocardial Notch pathway in several cardiac injury and stress models.Although there is an increase in appreciating the importance of endocardial Notch signaling in heart regeneration,the mechanism of its activation is not fully understood.This review highlights recent findings on the activation of the endocardial Notch pathway by hemodynamic blood flow change in larval zebrafish ventricle after partial ablation,a process involving primary cilia,mechanosensitive ion channel Trpv4 and mechanosensitive transcription factor Klf2.