Dear Editor,Homeostasis and repair are critical biological processes that allow for tissue and organ preservation and function in multicellular organisms.Their regulation and extension vary drastically across the anim...Dear Editor,Homeostasis and repair are critical biological processes that allow for tissue and organ preservation and function in multicellular organisms.Their regulation and extension vary drastically across the animal kingdom,and mammals show limited tissue-specific regenerative capacity that declines with age.During aging,articular cartilage is one of the tissues that undergo substantial changes in the matrix structure,molecular composition,metabolic activity,and mechanical properties(Loeser et al.2016).展开更多
Dear Editor,Myocardial infarction(MI)is the irreversible cardiomyocyte death resulting from prolonged oxygen deprivation due to obstructed blood supply(ischemia),leading to contractile dysfunction and cardiac remodeli...Dear Editor,Myocardial infarction(MI)is the irreversible cardiomyocyte death resulting from prolonged oxygen deprivation due to obstructed blood supply(ischemia),leading to contractile dysfunction and cardiac remodeling.In recent decades,stem cell transplantation has been extensively investigated for the repair of injured heart in animal studies and clinical trials(Kanelidis et al.,2017;Gyongyosi et al.,2018).展开更多
Identification of the precise molecular pathways involved in oncogene-induced transformation may help us gain a better understanding of tumor initiation and promotion. Here, we demonstrate that SOX2^+ foregut epitheli...Identification of the precise molecular pathways involved in oncogene-induced transformation may help us gain a better understanding of tumor initiation and promotion. Here, we demonstrate that SOX2^+ foregut epithelial cells are prone to oncogenic transformation upon mutagenic insults, such as Kras^G12D and p53 deletion. GFP-based lineage-tracing experiments indicate that SOX2^+ cells are the cells-of-origin of esophagus and stomach hyperplasia. Our observations indicate distinct roles for oncogenic KRAS mutation and P53 deletion. p53 homozygous deletion is required for the acquisition of an invasive potential, and Kras^G12D expression, but not p53 deletion, suffices for tumor formation. Global gene expression analysis reveals secreting factors upregulated in the hyperplasia induced by oncogenic KRAS and highlights a crucial role for the CXCR2 pathway in driving hyperplasia. Collectively, the array of genetic models presented here demonstrate that stratified epithelial cells are susceptible to oncogenic insults, which may lead to a better understanding of tumor initiation and aid in the design of new cancer therapeutics.展开更多
基金supported by the Strategic Priority Research Program of the Chinese Academy of Sciences(XDA16010100)Major Program of Development Fund for Shanghai Zhangjiang National Innovation Demonstration Zone(ZJ2018-ZD-004)+2 种基金the National Natural Science Foundation of China(81625009,81330008,91749202)Beijing Municipal Commission of Health and Family Planning(PXM2018_026283_000002)This study was supported by,Fundaci6n Dr.Pedro Guillen,Universidad Catolica San Antonio de Murcia(UCAM),Asociacion de Futbolistas Espanoles(AFE),Fundacion Telefonica,Fundacion MAPFRE,The Moxie Foundation and The G.Harold and Leila Y.Mathers Charitable Foundation.
文摘Dear Editor,Homeostasis and repair are critical biological processes that allow for tissue and organ preservation and function in multicellular organisms.Their regulation and extension vary drastically across the animal kingdom,and mammals show limited tissue-specific regenerative capacity that declines with age.During aging,articular cartilage is one of the tissues that undergo substantial changes in the matrix structure,molecular composition,metabolic activity,and mechanical properties(Loeser et al.2016).
文摘Dear Editor,Myocardial infarction(MI)is the irreversible cardiomyocyte death resulting from prolonged oxygen deprivation due to obstructed blood supply(ischemia),leading to contractile dysfunction and cardiac remodeling.In recent decades,stem cell transplantation has been extensively investigated for the repair of injured heart in animal studies and clinical trials(Kanelidis et al.,2017;Gyongyosi et al.,2018).
基金National Key Research and Development Program of China (2015CB964800)the Strategic Priority Research Program of the Chinese Academy of Sciences (XDA16010100)+6 种基金the National Natural Science Foundation of China (81625009, 81330008, 91749202, 81861168034)Program of Beijing Municipal Science and Technology Commission (Z151100003915072)Advanced Innovation Center for Human Brain Protection (117212, 3500-1192012)Beijing Municipal Commissio n of Health and Family Planning PXM2018_026283_000002)Work in the laboratory of J.C.I.B was supported by a Cancer Center Support Grant, the G. Harold and Leila Y, Mathers Charitable Foundation, The Leona M. and Harry B. Helmsley Charitable Trust (2012-PG-MED002)The Moxie Foundation, Fundacion Dr. Pedro Guillen and Universidad Catdlica San Antonio de Murcia (UCAM). T.H. was supported by a Pioneer Fund Postdoctoral Scholar Award, Nomis FellowshipUehara Memorial Foundation research fellowship.
文摘Identification of the precise molecular pathways involved in oncogene-induced transformation may help us gain a better understanding of tumor initiation and promotion. Here, we demonstrate that SOX2^+ foregut epithelial cells are prone to oncogenic transformation upon mutagenic insults, such as Kras^G12D and p53 deletion. GFP-based lineage-tracing experiments indicate that SOX2^+ cells are the cells-of-origin of esophagus and stomach hyperplasia. Our observations indicate distinct roles for oncogenic KRAS mutation and P53 deletion. p53 homozygous deletion is required for the acquisition of an invasive potential, and Kras^G12D expression, but not p53 deletion, suffices for tumor formation. Global gene expression analysis reveals secreting factors upregulated in the hyperplasia induced by oncogenic KRAS and highlights a crucial role for the CXCR2 pathway in driving hyperplasia. Collectively, the array of genetic models presented here demonstrate that stratified epithelial cells are susceptible to oncogenic insults, which may lead to a better understanding of tumor initiation and aid in the design of new cancer therapeutics.