Division of Basic Sciences, Fred Hutchinson Cancer Center, Seattle, WA 98109, USA.
Department of Biology, Brandeis University, Waltham, MA 02454, USA.
Dev Cell. 2024 Jul 8;59(13):1668-1688.e7. doi: 10.1016/j.devcel.2024.04.005. Epub 2024 Apr 25.
For an organ to maintain correct architecture and function, its diverse cellular components must coordinate their size and shape. Although cell-intrinsic mechanisms driving homotypic cell-cell coordination are known, it is unclear how cell shape is regulated across heterotypic cells. We find that epithelial cells maintain the shape of neighboring sense-organ glia-neuron units in adult Caenorhabditis elegans (C. elegans). Hsp co-chaperone UNC-23/BAG2 prevents epithelial cell shape from deforming, and its loss causes head epithelia to stretch aberrantly during animal movement. In the sense-organ glia, amphid sheath (AMsh), this causes progressive fibroblast growth factor receptor (FGFR)-dependent disruption of the glial apical cytoskeleton. Resultant glial cell shape alteration causes concomitant shape change in glia-associated neuron endings. Epithelial UNC-23 maintenance of glia-neuron shape is specific both spatially, within a defined anatomical zone, and temporally, in a developmentally critical period. As all molecular components uncovered are broadly conserved across central and peripheral nervous systems, we posit that epithelia may similarly regulate glia-neuron architecture cross-species.
为了维持器官的正确结构和功能,其多样化的细胞成分必须协调它们的大小和形状。尽管已知有内在的细胞机制驱动同质细胞间的协调,但细胞形状如何在异质细胞间被调控尚不清楚。我们发现成年秀丽隐杆线虫(C. elegans)的上皮细胞能够维持相邻感觉器官神经胶质-神经元单元的形状。热休克伴侣蛋白 UNC-23/BAG2 防止上皮细胞形状变形,其缺失会导致动物运动时头部上皮细胞异常拉伸。在感觉器官的神经胶质细胞中,这种情况导致成纤维细胞生长因子受体(FGFR)依赖性的神经胶质顶端细胞骨架的渐进性破坏。由此产生的神经胶质细胞形状改变导致与之相关的神经元末梢的形状同时发生变化。上皮细胞 UNC-23 对神经胶质-神经元形状的维持在空间上是特定的,在一个定义的解剖区域内,在时间上也是特定的,在发育的关键时期。由于所揭示的所有分子成分在中枢和外周神经系统中都广泛保守,我们假设上皮细胞可能以类似的方式调节跨物种的神经胶质-神经元结构。
