Collagen prolyl 4-hydroxylase isoenzymes I and II have sequence specificity towards different X-Pro-Gly triplets

IF 4.5 1区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY
Antti M. Salo , Pekka Rappu , M.Kristian Koski , Emma Karjalainen , Valerio Izzi , Kati Drushinin , Ilkka Miinalainen , Jarmo Käpylä , Jyrki Heino , Johanna Myllyharju
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引用次数: 0

Abstract

Collagen biosynthesis requires several co- and post-translational modifications of lysine and proline residues to form structurally and functionally competent collagen molecules. Formation of 4-hydroxyproline (4Hyp) in Y-position prolines of the repetitive -X-Y-Gly- sequences provides thermal stability for the triple-helical collagen molecules. 4Hyp formation is catalyzed by a collagen prolyl 4-hydroxylase (C-P4H) family consisting of three isoenzymes. Here we identify specific roles for the two main C-P4H isoenzymes in collagen hydroxylation by a detailed 4Hyp analysis of type I and IV collagens derived from cell and tissue samples. Loss of C-P4H-I results in underhydroxylation of collagen where the affected prolines are not uniformly distributed, but mainly present in sites where the adjacent X-position amino acid has a positively charged or a polar uncharged side chain. In contrast, loss of C-P4H-II results in underhydroxylation of triplets where the X-position is occupied by a negatively charged amino acid glutamate or aspartate. Hydroxylation of these triplets was found to be important as loss of C-P4H-II alone resulted in reduced collagen melting temperature and altered assembly of collagen fibrils and basement membrane. The observed C-P4H isoenzyme differences in substrate specificity were explained by selective binding of the substrate to the active site resulting in distinct differences in Km and Vmax values. Furthermore, our results clearly show that the substrate proline selection is not dependent on the collagen type, but the main determinant is the X-position amino acid of the -X-Pro-Gly- triplet. Although our data clearly shows the necessity of both C-P4H-I and II for normal prolyl 4-hydroxylation and function of collagens, the mRNA expression of the isoenzymes with various procollagens was, surprisingly, not tightly coordinated, suggesting additional levels of control. In conclusion, this study provides a molecular level explanation for the need of multiple C-P4H isoenzymes to generate collagen molecules capable to assemble into intact extracellular matrix structures.

胶原脯氨酰 4-羟化酶同工酶 I 和 II 对不同的 X-Pro-Gly 三胞胎具有序列特异性
胶原蛋白的生物合成需要对赖氨酸和脯氨酸残基进行多种共翻译和翻译后修饰,以形成结构和功能合格的胶原蛋白分子。在重复 -X-Y-Gly- 序列的 Y 位脯氨酸中形成 4- 羟脯氨酸(4Hyp)可为三重螺旋胶原分子提供热稳定性。4Hyp 的形成是由胶原脯氨酰 4-羟化酶(C-P4H)家族的三种同工酶催化的。在这里,我们通过对来自细胞和组织样本的 I 型和 IV 型胶原进行详细的 4Hyp 分析,确定了两种主要 C-P4H 同工酶在胶原羟基化过程中的特定作用。C-P4H-I 的缺失会导致胶原羟化不足,受影响的脯氨酸分布不均,主要出现在相邻 X 位氨基酸带正电或极性不带电侧链的位置。相反,C-P4H-II 的缺失会导致 X 位被带负电的谷氨酸或天冬氨酸氨基酸占据的三联体羟化不足。研究发现,这些三联体的羟基化非常重要,因为单独缺失 C-P4H-II 会导致胶原蛋白熔化温度降低,并改变胶原纤维和基底膜的组装。观察到的 C-P4H 同工酶在底物特异性方面的差异可通过底物与活性位点的选择性结合导致 Km 值和 Vmax 值的明显差异来解释。此外,我们的研究结果清楚地表明,底物脯氨酸的选择并不取决于胶原蛋白的类型,而主要决定因素是 -X-Pro-Gly- 三联体的 X 位氨基酸。虽然我们的数据清楚地表明了 C-P4H-I 和 II 对于胶原正常的脯氨酰 4-羟基化和功能的必要性,但令人惊讶的是,同工酶与各种原胶原的 mRNA 表达并不紧密协调,这表明存在额外的控制水平。总之,这项研究从分子水平上解释了为什么需要多种 C-P4H 同工酶来生成胶原蛋白分子,使其能够组装成完整的细胞外基质结构。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Matrix Biology
Matrix Biology 生物-生化与分子生物学
CiteScore
11.40
自引率
4.30%
发文量
77
审稿时长
45 days
期刊介绍: Matrix Biology (established in 1980 as Collagen and Related Research) is a cutting-edge journal that is devoted to publishing the latest results in matrix biology research. We welcome articles that reside at the nexus of understanding the cellular and molecular pathophysiology of the extracellular matrix. Matrix Biology focusses on solving elusive questions, opening new avenues of thought and discovery, and challenging longstanding biological paradigms.
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