Notch信号通路、β淀粉样前体蛋白（betaAPP）的γ-分泌酶切割以及早老素蛋白积累均需要aph-1和pen-2。

aph-1 and pen-2 are required for Notch pathway signaling, gamma-secretase cleavage of betaAPP, and presenilin protein accumulation.

作者信息

Francis Ross, McGrath Garth, Zhang Jianhuan, Ruddy David A, Sym Mary, Apfeld Javier, Nicoll Monique, Maxwell Mark, Hai Bing, Ellis Michael C, Parks Annette L, Xu Wei, Li Jinhe, Gurney Mark, Myers Richard L, Himes Carol S, Hiebsch Ronald, Ruble Cara, Nye Jeffrey S, Curtis Daniel

机构信息

Exelixis, Inc., South San Francisco, CA 94083, USA.

出版信息

Dev Cell. 2002 Jul;3(1):85-97. doi: 10.1016/s1534-5807(02)00189-2.

DOI:10.1016/s1534-5807(02)00189-2

PMID:12110170

Abstract

Presenilins are components of the gamma-secretase protein complex that mediates intramembranous cleavage of betaAPP and Notch proteins. A C. elegans genetic screen revealed two genes, aph-1 and pen-2, encoding multipass transmembrane proteins, that interact strongly with sel-12/presenilin and aph-2/nicastrin. Human aph-1 and pen-2 partially rescue the C. elegans mutant phenotypes, demonstrating conserved functions. The human genes must be provided together to rescue the mutant phenotypes, and the inclusion of presenilin-1 improves rescue, suggesting that they interact closely with each other and with presenilin. RNAi-mediated inactivation of aph-1, pen-2, or nicastrin in cultured Drosophila cells reduces gamma-secretase cleavage of betaAPP and Notch substrates and reduces the levels of processed presenilin. aph-1 and pen-2, like nicastrin, are required for the activity and accumulation of gamma-secretase.

摘要

早老素是γ-分泌酶蛋白复合物的组成部分，该复合物介导β淀粉样前体蛋白（betaAPP）和Notch蛋白的膜内裂解。秀丽隐杆线虫的一项遗传筛选发现了两个基因，aph-1和pen-2，它们编码多次跨膜蛋白，与sel-12/早老素和aph-2/尼卡斯特林强烈相互作用。人类aph-1和pen-2部分挽救了秀丽隐杆线虫的突变表型，证明了其保守功能。必须同时提供人类基因才能挽救突变表型，而加入早老素-1可改善挽救效果，这表明它们彼此之间以及与早老素密切相互作用。在培养的果蝇细胞中，RNA干扰介导的aph-1、pen-2或尼卡斯特林失活会降低β淀粉样前体蛋白和Notch底物的γ-分泌酶裂解，并降低加工后的早老素水平。与尼卡斯特林一样，aph-1和pen-2是γ-分泌酶活性和积累所必需的。

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Notch信号通路、β淀粉样前体蛋白（betaAPP）的γ-分泌酶切割以及早老素蛋白积累均需要aph-1和pen-2。

aph-1 and pen-2 are required for Notch pathway signaling, gamma-secretase cleavage of betaAPP, and presenilin protein accumulation.

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