干细胞
生物
细胞生物学
人口
调节器
细胞生长
转基因
成体干细胞
内分泌学
生长激素
细胞
受体
细胞分化
内科学
细胞分裂
负调节器
发育生物学
激素
干细胞衰老理论
生长激素受体
遗传学
骨髓干细胞
转基因小鼠
信号转导
作者
Nelson Tsz Long Chu,Baoyi Zhou,Jussi Heinonen,Ostap A. Dregval,Xin Liu,Dana Trompet,Xin Tian,Phillip T. Newton,Lars Sävendahl,Ameya Bendre,Ola Nilsson,Claes Ohlsson,Andrei S. Chagin
标识
DOI:10.1073/pnas.2512316122
摘要
Growth hormone (GH) is a key systemic regulator of longitudinal bone growth and is widely used in pediatric endocrinology, including in patients without GH deficiency. Its primary target is the growth plate-a cartilaginous structure driving bone elongation-yet the cellular mechanisms underlying GH action remain incompletely understood. Here, we identify a direct role for GH in regulating a recently defined population of cartilaginous stem cells within the growth plate. Using multiple transgenic mouse models, we show that GH reduces the pool of slow-cycling, label-retaining stem cells by promoting their differentiation into transient progenitors. Clonal and lineage-tracing analyses reveal that these stem cells renew via population asymmetry and that GH promotes their committed cell division, leading to stem cell depletion. Conversely, genetic deletion of the GH receptor in stem cells impairs their ability to generate chondrocytes, confirming a direct GH effect. These findings support a general principle by which endocrine cues regulate tissue regeneration, establish a mechanistic link between GH signaling and cartilaginous stem cells, and provide a potential explanation for certain related clinical observations, such as the declining long-term efficacy of GH therapy.
科研通智能强力驱动
Strongly Powered by AbleSci AI