Baker E K, Tozer E C, Pfaff M, Shattil S J, Loftus J C, Ginsberg M H
Department of Vascular Biology, Scripps Research Institute, La Jolla, CA 92037, USA.
Proc Natl Acad Sci U S A. 1997 Mar 4;94(5):1973-8. doi: 10.1073/pnas.94.5.1973.
Glanzmann thrombasthenia, an inherited bleeding disorder, can be caused by a defect or deficiency in platelet integrin alphaIIb beta3 (GPIIb-IIIa). Studies of thrombasthenia variants have facilitated identification of sites involved in the functions of alphaIIb beta3 and other integrins. Such sites include those that bind ligand and those that participate in the "activation" of alphaIIb beta3 required for high affinity binding of ligands such as fibrinogen or PAC1, a monoclonal antibody. Here we describe the isolation of such variants, created in vitro with Chinese hamster ovary cells that express an activated form of alphaIIb beta3. These cells were exposed to a mutagen, ethyl methane sulfonate, and variants that lost the capacity to bind PAC1 were isolated by fluorescence-activated cell sorting. These variants were grouped into three phenotypic classes. One comprised integrin mutations that disrupt ligand binding function; a second comprised mutations that interfere with the capacity of cells to activate the integrin. Most of these activation-defective mutations were in the integrin cytoplasmic domain, but surprisingly, several were caused by mutations affecting three closely spaced residues in the beta3 extracellular domain. A third class of mutants exhibited a defect in integrin activation not ascribable to changes in the integrin sequence. Thus, these may represent mutated signaling molecules required for integrin activation. This unbiased genetic approach provides new insights into the structural basis of integrin function and may assist in identifying the cellular events that regulate integrin function.
血小板无力症是一种遗传性出血性疾病,可由血小板整合素αIIbβ3(糖蛋白IIb-IIIa)的缺陷或缺乏引起。对血小板无力症变体的研究有助于确定参与αIIbβ3和其他整合素功能的位点。这些位点包括那些结合配体的位点以及那些参与αIIbβ3“激活”的位点,αIIbβ3的激活是纤维蛋白原或PAC1(一种单克隆抗体)等配体高亲和力结合所必需的。在此,我们描述了这些变体的分离,这些变体是在体外利用表达激活形式αIIbβ3的中国仓鼠卵巢细胞产生的。这些细胞暴露于诱变剂甲磺酸乙酯,通过荧光激活细胞分选分离出失去结合PAC1能力的变体。这些变体分为三个表型类别。一类包括破坏配体结合功能的整合素突变;第二类包括干扰细胞激活整合素能力的突变。这些激活缺陷突变大多位于整合素细胞质结构域,但令人惊讶的是,有几个是由影响β3细胞外结构域中三个紧密相邻残基的突变引起的。第三类突变体表现出整合素激活缺陷,这并非归因于整合素序列的变化。因此,这些可能代表整合素激活所需的突变信号分子。这种无偏差的遗传方法为整合素功能的结构基础提供了新的见解,并可能有助于识别调节整合素功能的细胞事件。