Classical cadherins evolutionary constraints in primates is associated with their expression in the central nervous system.

IF 2.9 3区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES
PLoS ONE Pub Date : 2024-11-21 eCollection Date: 2024-01-01 DOI:10.1371/journal.pone.0313428
Max Petersen, Fredy Reyes-Vigil, Marc Campo, Juan L Brusés
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引用次数: 0

Abstract

Classical cadherins (CDH) comprise a family of single-pass transmembrane glycoproteins that contribute to tissue morphogenesis by regulating cell-cell adhesion, cytoskeletal dynamics, and cell signaling. CDH are grouped into type I (CDH 1, 2, 3, 4 and 15) and type II (CDH 5, 6, 7, 8, 9, 10, 11, 12, 18, 20, 22 and 24), based on the folding of the cadherin binding domain involved in trans-dimer formation. CDH are exclusively found in metazoans, and the origin and expansion of the gene family coincide with the emergence of multicellularity and vertebrates respectively. This study examined the evolutionary changes of CDH orthologs in primates and the factors that influence selective pressure to investigate the varying constraints exerted among CDH. Pairwise comparisons of the number of amino acid substitutions and of the ratio of non-synonymous substitutions per non-synonymous sites (dN) over synonymous substitutions per synonymous sites (dS), show that CDH2, CDH4, and most type II CDH have been under significantly higher negative selective pressure as compared to CDH1, CDH3, CDH5 and CDH19. Evaluation of gene essentiality as determined by the effect of germline deletion on animal viability, morphogenic phenotype, and reproductive fitness, show no correlation with the with extent of negative selection observed on CDH. Spearman's correlation analysis shows a positive correlation between CDH expression levels (E) in mouse and human tissues and their rate of evolution (R), as observed in most proteins expressed on the cell surface. However, CDH expression in the CNS show a significant E-R negative correlation, indicating that the strong negative selection exerted on CDH2, CDH4, and most type II CDH is associated with their expression in the CNS. CDH participate in a variety of cellular processes in the CNS including neuronal migration and functional assembly of neural circuits, which could profoundly influence animal fitness. Therefore, our findings suggest that the unusually high negative selective pressure exerted on CDH2, CDH4 and most type II CDH is due to their role in CNS formation and function and may have contributed to shape the evolution of the CNS in primates.

灵长类动物中经典粘附蛋白的进化限制与其在中枢神经系统中的表达有关。
经典粘附素(CDH)由单通道跨膜糖蛋白家族组成,它们通过调节细胞-细胞粘附、细胞骨架动力学和细胞信号传导来促进组织形态发生。根据参与反式二聚体形成的粘附素结合域的折叠情况,CDH 可分为 I 型(CDH 1、2、3、4 和 15)和 II 型(CDH 5、6、7、8、9、10、11、12、18、20、22 和 24)。CDH 只存在于元动物中,该基因家族的起源和扩展分别与多细胞和脊椎动物的出现相吻合。本研究考察了灵长类动物中CDH直向同源基因的进化变化以及影响选择压力的因素,以研究CDH之间不同的制约因素。氨基酸替换数和每个非同义位点的非同义替换数(dN)与每个同义位点的同义替换数(dS)之比的配对比较显示,与 CDH1、CDH3、CDH5 和 CDH19 相比,CDH2、CDH4 和大多数 II 型 CDH 受到的负选择压力明显更高。通过种系缺失对动物存活率、形态形成表型和繁殖能力的影响来评估基因的基本性,结果显示这与在 CDH 上观察到的负选择程度无关。斯皮尔曼相关分析表明,CDH 在小鼠和人类组织中的表达水平(E)与它们的进化速度(R)呈正相关,这在大多数细胞表面表达的蛋白质中都能观察到。然而,CDH 在中枢神经系统中的表达却显示出显著的 E-R 负相关,这表明 CDH2、CDH4 和大多数 II 型 CDH 所面临的强烈负选择与它们在中枢神经系统中的表达有关。CDH 参与了中枢神经系统的多种细胞过程,包括神经元迁移和神经回路的功能组装,这可能对动物的健康状况产生深远影响。因此,我们的研究结果表明,CDH2、CDH4 和大多数 II 型 CDH 所承受的异常高的负选择压力是由于它们在中枢神经系统的形成和功能中的作用,并可能促成了灵长类动物中枢神经系统的进化。
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
PLoS ONE
PLoS ONE 生物-生物学
CiteScore
6.20
自引率
5.40%
发文量
14242
审稿时长
3.7 months
期刊介绍: PLOS ONE is an international, peer-reviewed, open-access, online publication. PLOS ONE welcomes reports on primary research from any scientific discipline. It provides: * Open-access—freely accessible online, authors retain copyright * Fast publication times * Peer review by expert, practicing researchers * Post-publication tools to indicate quality and impact * Community-based dialogue on articles * Worldwide media coverage
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