Ninomiya H, Roch J M, Sundsmo M P, Otero D A, Saitoh T
Department of Neurosciences, University of California, San Diego, La Jolla 92093.
J Cell Biol. 1993 May;121(4):879-86. doi: 10.1083/jcb.121.4.879.
The growth of A-1 fibroblasts depends on exogenous amyloid beta/A4 protein precursor (APP), providing a simple bioassay to study the function of APP. Our preliminary study, testing the activity of a series of fragments derived from the secreted form of APP-695 (sAPP-695) on this bioassay, has shown that at least one of the active sites of sAPP-695 was localized within a 40-mer sequence (APP296-335, Kang sequence; Roch, J.-M., I. P. Shapiro, M. P. Sundsmo, D. A. C. Otero, L. M. Refolo, N. K. Robakis, and T. Saitoh. 1992. J. Biol. Chem. 267:2214-2221). In the present study, to further characterize the growth-promoting activity of sAPP-695 on fibroblasts, we applied a battery of synthetic peptides on this bioassay and found that: (a) the sequence of five amino acids, RERMS (APP328-332), was uniquely required for the growth-promoting activity of sAPP-695; (b) the activity was sequence-specific because the reverse-sequence peptide of the active domain had no activity; and (c) the four-amino-acid peptide RMSQ (APP330-333), which partially overlaps the COOH-terminal side of the active sequence RERMS, could antagonize the activity of sAPP-695. Furthermore, a recombinant protein which lacks this active domain (APP20-591 without 306-335) did not promote fibroblast cell growth, suggesting that this domain is the only site of sAPP-695 involved in the growth stimulation. The availability of these biologically active, short peptides and their antagonists should prove to be an essential step for the elucidation of APP involvement in regulation of cellular homeostasis.
A-1成纤维细胞的生长依赖于外源性淀粉样β/A4蛋白前体(APP),这为研究APP的功能提供了一种简单的生物测定方法。我们的初步研究,在此生物测定中测试了一系列源自分泌形式的APP-695(sAPP-695)的片段的活性,结果表明sAPP-695的至少一个活性位点位于一个40肽序列内(APP296-335,康氏序列;罗奇,J.-M.,I.P.夏皮罗,M.P.桑德斯莫,D.A.C.奥特罗,L.M.雷福洛,N.K.罗巴克斯,和T.斋藤。1992.《生物化学杂志》267:2214-2221)。在本研究中,为了进一步表征sAPP-695对成纤维细胞的促生长活性,我们在此生物测定中应用了一系列合成肽,发现:(a)五个氨基酸的序列RERMS(APP328-332)是sAPP-695促生长活性唯一所需的;(b)该活性具有序列特异性,因为活性结构域的反向序列肽没有活性;(c)与活性序列RERMS的COOH末端部分重叠的四氨基酸肽RMSQ(APP330-333)可以拮抗sAPP-695的活性。此外,缺乏该活性结构域的重组蛋白(APP20-591缺失306-335)不能促进成纤维细胞生长,这表明该结构域是sAPP-695参与生长刺激的唯一部位。这些具有生物活性的短肽及其拮抗剂的可得性应被证明是阐明APP参与细胞稳态调节的关键一步。