Guha Arjun, Deshpande Aditya, Jain Aradhya, Sebastiani Paola, Cardoso Wellington V
Institute for Stem Cell Biology and Regenerative Medicine (inStem), Bengaluru 560065, India; Pulmonary Center, Boston University School of Medicine, Boston, MA 02118, USA.
Institute for Stem Cell Biology and Regenerative Medicine (inStem), Bengaluru 560065, India.
Cell Rep. 2017 Apr 11;19(2):246-254. doi: 10.1016/j.celrep.2017.03.051.
There is evidence that certain club cells (CCs) in the murine airways associated with neuroepithelial bodies (NEBs) and terminal bronchioles are resistant to the xenobiotic naphthalene (Nap) and repopulate the airways after Nap injury. The identity and significance of these progenitors (variant CCs, v-CCs) have remained elusive. A recent screen for CC markers identified rare Uroplakin3a (Upk3a)-expressing cells (U-CCs) with a v-CC-like distribution. Here, we employ lineage analysis in the uninjured and chemically injured lungs to investigate the role of U-CCs as epithelial progenitors. U-CCs proliferate and generate CCs and ciliated cells in uninjured airways long-term and, like v-CCs, after Nap. U-CCs have a higher propensity to generate ciliated cells than non-U-CCs. Although U-CCs do not contribute to alveolar maintenance long-term, they generate alveolar type I and type II cells after Bleomycin (Bleo)-induced alveolar injury. Finally, we report that Upk3a cells exist in the NEB microenvironment of the human lung and are aberrantly expanded in conditions associated with neuroendocrine hyperplasias.
有证据表明,小鼠气道中与神经上皮小体(NEBs)和终末细支气管相关的某些克拉拉细胞(CCs)对异生物质萘(Nap)具有抗性,并在Nap损伤后重新填充气道。这些祖细胞(变体CCs,v-CCs)的身份和意义仍然难以捉摸。最近一项针对CC标志物的筛选鉴定出了罕见的表达uroplakin3a(Upk3a)的细胞(U-CCs),其分布类似于v-CCs。在这里,我们在未受伤和化学损伤的肺中进行谱系分析,以研究U-CCs作为上皮祖细胞的作用。U-CCs在未受伤的气道中长期增殖并产生CCs和纤毛细胞,并且与v-CCs一样,在Nap损伤后也是如此。与非U-CCs相比,U-CCs产生纤毛细胞的倾向更高。虽然U-CCs长期对肺泡维持没有贡献,但在博来霉素(Bleo)诱导的肺泡损伤后,它们会产生I型和II型肺泡细胞。最后,我们报告Upk3a细胞存在于人类肺的NEB微环境中,并且在与神经内分泌增生相关的情况下异常扩增。
