非经典卷曲蛋白信号传导调节生长板软骨细胞的细胞极性。
Noncanonical frizzled signaling regulates cell polarity of growth plate chondrocytes.
作者信息
Li Yuwei, Dudley Andrew T
机构信息
Department of Biochemistry, Northwestern University, Evanston, IL 60208, USA.
出版信息
Development. 2009 Apr;136(7):1083-92. doi: 10.1242/dev.023820. Epub 2009 Feb 18.
Abstract
Bone growth is driven by cell proliferation and the subsequent hypertrophy of chondrocytes arranged in columns of discoid cells that resemble stacks of coins. However, the molecular mechanisms that direct column formation and the importance of columnar organization to bone morphogenesis are not known. Here, we show in chick that discoid proliferative chondrocytes orient the division plane to generate daughter cells that are initially displaced laterally and then intercalate into the column. Downregulation of frizzled (Fzd) signaling alters the dimensions of long bones and produces cell-autonomous changes in proliferative chondrocyte organization characterized by arbitrary division planes and altered cell stacking. These defects are phenocopied by disruption of noncanonical effector pathways but not by inhibitors of canonical Fzd signaling. These findings demonstrate that the regulation of cell polarity and cell arrangement by noncanonical Fzd signaling plays important roles in generating the unique morphological characteristics that shape individual cartilage elements.
摘要
骨生长由细胞增殖以及随后排列成盘状细胞柱的软骨细胞肥大驱动,这些盘状细胞柱类似一摞硬币。然而,指导柱形成的分子机制以及柱状组织对骨形态发生的重要性尚不清楚。在此,我们在鸡身上发现,盘状增殖软骨细胞将分裂平面定向,以产生最初侧向移位然后插入柱中的子细胞。卷曲蛋白(Fzd)信号的下调会改变长骨的尺寸,并在增殖软骨细胞组织中产生细胞自主变化,其特征是任意的分裂平面和改变的细胞堆叠。这些缺陷可由非经典效应途径的破坏模拟,但不能由经典Fzd信号抑制剂模拟。这些发现表明,非经典Fzd信号对细胞极性和细胞排列的调节在产生塑造单个软骨元件的独特形态特征中起重要作用。
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