Wada J, Kumar A, Liu Z, Ruoslahti E, Reichardt L, Marvaldi J, Kanwar Y S
Department of Pathology, Northwestern University Medical School, Chicago, Illinois 60611, USA.
J Cell Biol. 1996 Mar;132(6):1161-76. doi: 10.1083/jcb.132.6.1161.
Metanephrogenesis has been a long-standing model to study cell-matrix interactions. A number of adhesion molecules, including matrix receptors (i.e., integrins), are believed to be involved in such interactions. The integrins contain alpha and beta s ubunits and are present in various tissues in different heterodimeric forms. In this study, one of the members of the integrin superfamily, alphaV, was characterized, and its relevance in murine nephrogenesis was investigated. Mouse embryonic renal cDNA libraries were prepared and screened for alphaV, and multiple clones were isolated and sequenced. The deduced amino acid sequence of the alpha-v cDNA clones and hydropathic analysis revealed that it has a typical signal sequence and extracellular, transmembrane, and cytoplasmic domains, with multiple Ca2+ binding sites. No A(U)nA mRNA instability motifs were present. Conformational analysis revealed no rigid long-range-ordered structure in murine alphaV. The alphaV was expressed in the embryonic kidney at day 13 of the gestation, with a transcript size of approximately 7 kb. Its expression increased progressively during the later gestational stages and in the neonatal period. It was distributed in the epithelial elements of developing nephrons and was absent in the uninduced mesenchyme. In mature metanephroi, the expression was relatively high in the glomeruli and blood vessels, as compared to the tubules. Various heterodimeric associations of alphaV, i.e., with beta1, beta3, beta5, and beta6, were observed in metanephric tissues. Inclusion of alphaV-antisense-oligodeoxynucleotide or -antibody in metanephric culture induced dysmorphogenesis of the kidney with reduced population of the nephrons, disorganization of the ureteric bud branches, and reduction of mRNA and protein expressions of alphaV. The expressions of integrin beta3, beta5, and beta6 were unaltered. These findings suggest that the integrin alphaV is developmentally regulated, has a distinct spatio-temporal expression, and is relevant in the mammalian organogenesis.
后肾发生一直是研究细胞与基质相互作用的长期模型。许多黏附分子,包括基质受体(即整合素),被认为参与了此类相互作用。整合素含有α和β亚基,并以不同的异二聚体形式存在于各种组织中。在本研究中,对整合素超家族的成员之一αV进行了表征,并研究了其在小鼠肾发生中的相关性。制备了小鼠胚胎肾cDNA文库并筛选αV,分离并测序了多个克隆。αV cDNA克隆推导的氨基酸序列和亲水性分析表明,它具有典型的信号序列以及细胞外、跨膜和细胞质结构域,带有多个Ca2+结合位点。不存在A(U)nA mRNA不稳定基序。构象分析表明小鼠αV中不存在刚性的长程有序结构。αV在妊娠第13天的胚胎肾中表达,转录本大小约为7 kb。其表达在妊娠后期和新生儿期逐渐增加。它分布在发育中的肾单位的上皮成分中,在未诱导的间充质中不存在。在成熟的后肾中,与肾小管相比,肾小球和血管中的表达相对较高。在后肾组织中观察到αV的各种异二聚体组合,即与β1、β3、β5和β6的组合。在后肾培养物中加入αV反义寡脱氧核苷酸或抗体可诱导肾脏畸形发生,肾单位数量减少,输尿管芽分支紊乱,αV的mRNA和蛋白表达降低。整合素β3、β5和β6的表达未改变。这些发现表明整合素αV受发育调控,具有独特的时空表达,并且与哺乳动物器官发生相关。