全长未加工的刺猬蛋白是一种活性信号分子。
The full-length unprocessed hedgehog protein is an active signaling molecule.
机构信息
Department of Pharmacology and Toxicology, Dartmouth Medical School, Hanover, New Hampshire 03755, USA.
出版信息
J Biol Chem. 2010 Jan 22;285(4):2562-8. doi: 10.1074/jbc.M109.078626. Epub 2009 Nov 17.
Abstract
The hedgehog (HH) family of ligands plays an important instructional role in metazoan development. HH proteins are initially produced as approximately 45-kDa full-length proteins, which undergo an intramolecular cleavage to generate an amino-terminal product that subsequently becomes cholesterol-modified (HH-Np). It is well accepted that this cholesterol-modified amino-terminal cleavage product is responsible for all HH-dependent signaling events. Contrary to this model we show here that full-length forms of HH proteins are able to traffic to the plasma membrane and participate directly in cell-cell signaling, both in vitro and in vivo. We were also able to rescue a Drosophila eye-specific hh loss of function phenotype by expressing a full-length form of hh that cannot be processed into HH-Np. These results suggest that in some physiological contexts full-length HH proteins may participate directly in HH signaling and that this novel activity of full-length HH may be evolutionarily conserved.
摘要
刺猬(HH)家族的配体在后生动物的发育中起着重要的指导作用。HH 蛋白最初作为大约 45kDa 的全长蛋白产生,其经历分子内切割以产生随后成为胆固醇修饰的氨基末端产物(HH-Np)。人们普遍认为,这种胆固醇修饰的氨基末端切割产物负责所有 HH 依赖性信号事件。与该模型相反,我们在这里表明,HH 蛋白的全长形式能够在体外和体内转运到质膜并直接参与细胞间信号传递。我们还能够通过表达不能加工成 HH-Np 的全长形式的 hh 来挽救果蝇眼部特异性 hh 功能丧失表型。这些结果表明,在某些生理情况下,全长 HH 蛋白可能直接参与 HH 信号传递,并且全长 HH 的这种新活性可能在进化上是保守的。
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