Shilling F M, Krätzschmar J, Cai H, Weskamp G, Gayko U, Leibow J, Myles D G, Nuccitelli R, Blobel C P
Section of Molecular and Cellular Biology, University of California, Davis 95616, USA.
Dev Biol. 1997 Jun 15;186(2):155-64. doi: 10.1006/dbio.1997.8586.
Proteins containing a membrane-anchored metalloprotease domain, a disintegrin domain, and a cysteine-rich region (MDC proteins) are thought to play an important role in mammalian fertilization, as well as in somatic cell-cell interactions. We have identified PCR sequence tags encoding the disintegrin domain of five distinct MDC proteins from Xenopus laevis testis cDNA. Four of these sequence tags (xMDC9, xMDC11.1, xMDC11.2, and xMDC13) showed strong similarity to known mammalian MDC proteins, whereas the fifth (xMDC16) apparently represents a novel family member. Northern blot analysis revealed that the mRNA for xMDC16 was only expressed in testis, and not in heart, muscle, liver, ovaries, or eggs, whereas the mRNAs corresponding to the four other PCR products were expressed in testis and in some or all somatic tissues tested. The xMDC16 protein sequence, as predicted from the full-length cDNA, contains a metalloprotease domain with the active-site sequence HEXXH, a disintegrin domain, a cysteine-rich region, an EGF repeat, a transmembrane domain, and a short cytoplasmic tail. To study a potential role for these xMDC proteins in fertilization, peptides corresponding to the predicted integrin-binding domain of each protein were tested for their ability to inhibit X. laevis fertilization. Cyclic and linear xMDC16 peptides inhibited fertilization in a concentration-dependent manner, whereas xMDC16 peptides that were scrambled or had certain amino acid replacements in the predicted integrin-binding domain did not affect fertilization. Cyclic and linear xMDC9 peptides and linear xMDC13 peptides also inhibited fertilization similarly to xMDC16 peptides, whereas peptides corresponding to the predicted integrin-binding site of xMDC11.1 and xMDC11.2 did not. These results are discussed in the context of a model in which multiple MDC protein-receptor interactions are necessary for fertilization to occur.
含有膜锚定金属蛋白酶结构域、解整合素结构域和富含半胱氨酸区域的蛋白质(MDC蛋白)被认为在哺乳动物受精以及体细胞间相互作用中发挥重要作用。我们从非洲爪蟾睾丸cDNA中鉴定出编码五种不同MDC蛋白解整合素结构域的PCR序列标签。其中四个序列标签(xMDC9、xMDC11.1、xMDC11.2和xMDC13)与已知的哺乳动物MDC蛋白有很强的相似性,而第五个(xMDC16)显然代表一个新的家族成员。Northern印迹分析显示,xMDC16的mRNA仅在睾丸中表达,在心脏、肌肉、肝脏、卵巢或卵子中不表达,而与其他四个PCR产物相对应的mRNA在睾丸以及所检测的一些或所有体细胞组织中表达。根据全长cDNA预测的xMDC16蛋白序列包含一个具有活性位点序列HEXXH的金属蛋白酶结构域、一个解整合素结构域、一个富含半胱氨酸区域、一个EGF重复序列、一个跨膜结构域和一个短的细胞质尾巴。为了研究这些xMDC蛋白在受精中的潜在作用,测试了与每种蛋白预测的整合素结合结构域相对应的肽抑制非洲爪蟾受精的能力。环状和线性xMDC16肽以浓度依赖的方式抑制受精,而在预测的整合素结合结构域中被打乱或有某些氨基酸替换的xMDC16肽不影响受精。环状和线性xMDC9肽以及线性xMDC13肽也与xMDC16肽类似地抑制受精,而与xMDC11.1和xMDC11.2预测的整合素结合位点相对应的肽则没有。这些结果在一个模型的背景下进行了讨论,在该模型中,多种MDC蛋白-受体相互作用对于受精的发生是必要的。
