A series of function blocking antibodies against the alpha v beta 3 integrin bind allosteric to the ligand binding site and induce ligand dissociation.
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引用次数: 11
Abstract
The alpha v beta 3 integrin plays a critical role in bone resorption, angiogenesis, and tumor cell invasion. A blockade of this receptor has therapeutic potential in osteoporosis, vascular restenosis, and cancer. In this report, we characterize the mechanism by which six monoclonal antibodies inhibit the function of alpha v beta 3. All six antibodies interact with a common site that is partially comprised of residues 164-202 within the beta 3 subunit. This domain is physically separate from the RGD binding site, and appears to regulate ligand binding allosterically. Thus, the blocking antibodies function, in part, by inducing the dissociation of ligand from alpha v beta 3. Although this family of antibodies is able to virtually abolish alpha v beta 3-mediated cell adhesion, they only block about one-half of soluble ligand binding to the integrin. This observation is consistent with the idea that two functionally distinct populations of alpha v beta 3 are present on the cell surface. The unique mechanism of action of these antibodies provides new insight in the structure-function relationships of alpha v beta 3, and also suggest that such antibodies are likely to behave differently than RGD mimetics if used as drugs.
α v β 3整合素在骨吸收、血管生成和肿瘤细胞侵袭中起关键作用。阻断该受体对骨质疏松症、血管再狭窄和癌症具有治疗潜力。在本报告中,我们描述了六种单克隆抗体抑制α v β 3功能的机制。所有六种抗体都与β 3亚基中的一个共同位点相互作用,该位点部分由残基164-202组成。该结构域在物理上与RGD结合位点分离,并且似乎以变构方式调节配体结合。因此,阻断抗体的作用部分是通过诱导配体与α v β 3的分离来实现的。尽管该抗体家族实际上能够消除α v β 3介导的细胞粘附,但它们只能阻断约一半的可溶性配体与整合素的结合。这一观察结果与细胞表面存在两种功能不同的α v β 3的观点是一致的。这些抗体的独特作用机制为α v β 3的结构-功能关系提供了新的见解,也表明如果用作药物,这些抗体的行为可能与RGD模拟物不同。
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