OBJECTIVE To investigate the role of adventitial vasa vasorum in artery remodeling during the process of pulmonary artery hypertension(PAH),we checked the small heat shock protein 27/25(HSPB1)whether involved in patho...OBJECTIVE To investigate the role of adventitial vasa vasorum in artery remodeling during the process of pulmonary artery hypertension(PAH),we checked the small heat shock protein 27/25(HSPB1)whether involved in pathological basis of vascular remodeling.METHODS We explored the potential role of HSPB1 interacts with ectopic F1Fo-ATPase in the pulmonary vascular remodeling,investigate its effects on the endothelium cell dynamic,and further reveal its possible molecular mechanisms using hypoxic pulmonary hypertension rat model,transgenic mice and pulmonary adventitial vasa vasorum endothelial cell culture in vitro.RESULTS Our studies have shown that HSPB1 improves adventitial vasa vasorum angiogenesis and remodeling.We found that hypoxia induces-HSPB1 upregulation and HSPB1 interact with ectopic F1Fo-ATPase modulate adventitial vasa vasorum endothelial cell proliferation,migration and tube formation.And the inhibition of HSPB1can reverse the vascular inflammation and fibrosis amazingly.CONCLUSION Adventitial vasa vasorum plays an important role in vascular remodeling,and small heat shock protein 27/25 was involved in a variety of diseases during the development of PAH,which could an efficient therapeutic targets and prevention strategy for PAH clinical.展开更多
Background Cotton is an industrial crop renowned for its multifaceted applications in the textiles,pharmaceuticals,and biofuel industries.Plant regeneration through somatic embryogenesis(SE)plays a crucial role in the...Background Cotton is an industrial crop renowned for its multifaceted applications in the textiles,pharmaceuticals,and biofuel industries.Plant regeneration through somatic embryogenesis(SE)plays a crucial role in the genetic improvement of cotton.There is a strong correlation between SE and zygotic embryogenesis(ZE)in plants.Furthermore,the strategy of ectopic expression of cotton genes into the model plant Arabidopsis has been a widely accepted approach for functional study.Result Based on previous spatial transcriptomics of cotton somatic embryos,two genes,Gh HAT5 and Gh CRK29,were identified.They are highly expressed in cotyledon and epidermal cells of cotton cotyledonary embryos,respectively.In this study,Gh HAT5 and Gh CRK29 were ectopically expressed in Arabidopsis to investigate their functions.The result showed that in Arabidopsis zygotic embryos,the overexpression of Gh HAT5 promoted the development of apical embryonic upper-tier cells and embryonic cotyledon,while the overexpression of Gh CRK29 promoted the development of apical embryonic lower-tier cells and embryonic radicle.Given the similarities between somatic and zygotic embryogenesis,these findings suggest that Gh HAT5 and Gh CRK29 are involved in cotton SE.We also speculate that these genes may promote the expression of the Arabidopsis endogenous gene At SCR,which is crucial for embryonic development.Conclusion These results revealed that Gh HAT5 and Gh CRK29 regulate embryonic development and are essential in advancing our understanding of cotton SE and facilitating targeted genetic manipulation strategies to improve industrial crop traits and agricultural sustainability.展开更多
文摘OBJECTIVE To investigate the role of adventitial vasa vasorum in artery remodeling during the process of pulmonary artery hypertension(PAH),we checked the small heat shock protein 27/25(HSPB1)whether involved in pathological basis of vascular remodeling.METHODS We explored the potential role of HSPB1 interacts with ectopic F1Fo-ATPase in the pulmonary vascular remodeling,investigate its effects on the endothelium cell dynamic,and further reveal its possible molecular mechanisms using hypoxic pulmonary hypertension rat model,transgenic mice and pulmonary adventitial vasa vasorum endothelial cell culture in vitro.RESULTS Our studies have shown that HSPB1 improves adventitial vasa vasorum angiogenesis and remodeling.We found that hypoxia induces-HSPB1 upregulation and HSPB1 interact with ectopic F1Fo-ATPase modulate adventitial vasa vasorum endothelial cell proliferation,migration and tube formation.And the inhibition of HSPB1can reverse the vascular inflammation and fibrosis amazingly.CONCLUSION Adventitial vasa vasorum plays an important role in vascular remodeling,and small heat shock protein 27/25 was involved in a variety of diseases during the development of PAH,which could an efficient therapeutic targets and prevention strategy for PAH clinical.
基金supported by the National Key Research and Development Program of China(No.2022YFD1200300)。
文摘Background Cotton is an industrial crop renowned for its multifaceted applications in the textiles,pharmaceuticals,and biofuel industries.Plant regeneration through somatic embryogenesis(SE)plays a crucial role in the genetic improvement of cotton.There is a strong correlation between SE and zygotic embryogenesis(ZE)in plants.Furthermore,the strategy of ectopic expression of cotton genes into the model plant Arabidopsis has been a widely accepted approach for functional study.Result Based on previous spatial transcriptomics of cotton somatic embryos,two genes,Gh HAT5 and Gh CRK29,were identified.They are highly expressed in cotyledon and epidermal cells of cotton cotyledonary embryos,respectively.In this study,Gh HAT5 and Gh CRK29 were ectopically expressed in Arabidopsis to investigate their functions.The result showed that in Arabidopsis zygotic embryos,the overexpression of Gh HAT5 promoted the development of apical embryonic upper-tier cells and embryonic cotyledon,while the overexpression of Gh CRK29 promoted the development of apical embryonic lower-tier cells and embryonic radicle.Given the similarities between somatic and zygotic embryogenesis,these findings suggest that Gh HAT5 and Gh CRK29 are involved in cotton SE.We also speculate that these genes may promote the expression of the Arabidopsis endogenous gene At SCR,which is crucial for embryonic development.Conclusion These results revealed that Gh HAT5 and Gh CRK29 regulate embryonic development and are essential in advancing our understanding of cotton SE and facilitating targeted genetic manipulation strategies to improve industrial crop traits and agricultural sustainability.
