Graner M W, Bunch T A, Baumgartner S, Kerschen A, Brower D L
Department of Molecular and Cellular Biology, University of Arizona, Tucson, Arizona 85721, USA.
J Biol Chem. 1998 Jul 17;273(29):18235-41. doi: 10.1074/jbc.273.29.18235.
Two new potential ligands of the Drosophila PS2 integrins have been characterized by functional interaction in cell culture. These potential ligands are a new Drosophila laminin alpha2 chain encoded by the wing blister locus and Ten-m, an extracellular protein known to be involved in embryonic pattern formation. As with previously identified PS2 ligands, both contain RGD sequences, and RGD-containing fragments of these two proteins (DLAM-RGD and TENM-RGD) can support PS2 integrin-mediated cell spreading. In all cases, this spreading is inhibited specifically by short RGD-containing peptides. As previously found for the PS2 ligand tiggrin (and the tiggrin fragment TIG-RGD), TENM-RGD induces maximal spreading of cells expressing integrin containing the alphaPS2C splice variant. This is in contrast to DLAM-RGD, which is the first Drosophila polypeptide shown to interact preferentially with cells expressing the alphaPS2 m8 splice variant. The betaPS integrin subunit also varies in the presumed ligand binding region as a result of alternative splicing. For TIG-RGD and TENM-RGD, the beta splice variant has little effect, but for DLAM-RGD, maximal cell spreading is supported only by the betaPS4A form of the protein. Thus, the diversity in PS2 integrins due to splicing variations, in combination with diversity of matrix ligands, can greatly enhance the functional complexity of PS2-ligand interactions in the developing animal. The data also suggest that the splice variants may alter regions of the subunits that are directly involved in ligand interactions, and this is discussed with respect to models of integrin structure.
通过细胞培养中的功能相互作用,已对果蝇PS2整合素的两种新的潜在配体进行了表征。这些潜在配体是由翅泡基因座编码的一种新的果蝇层粘连蛋白α2链和Ten-m,一种已知参与胚胎模式形成的细胞外蛋白。与先前鉴定的PS2配体一样,两者都含有RGD序列,并且这两种蛋白质的含RGD片段(DLAM-RGD和TENM-RGD)可以支持PS2整合素介导的细胞铺展。在所有情况下,这种铺展都被含RGD的短肽特异性抑制。如先前在PS2配体tiggrin(以及tiggrin片段TIG-RGD)中发现的那样,TENM-RGD诱导表达含有αPS2C剪接变体的整合素的细胞最大程度地铺展。这与DLAM-RGD形成对比,DLAM-RGD是第一个显示优先与表达αPS2 m8剪接变体的细胞相互作用的果蝇多肽。由于选择性剪接,βPS整合素亚基在假定的配体结合区域也有所不同。对于TIG-RGD和TENM-RGD,β剪接变体影响很小,但对于DLAM-RGD,最大程度的细胞铺展仅由该蛋白质的βPS4A形式支持。因此,由于剪接变异导致的PS2整合素多样性,与基质配体的多样性相结合,可以极大地增强发育中动物体内PS2-配体相互作用的功能复杂性。数据还表明,剪接变体可能会改变亚基中直接参与配体相互作用的区域,并就此结合整合素结构模型进行了讨论。
