Molecular evolution of autophagy rate-limiting factor LAMP2 in placental mammals

生物 自噬 细胞生物学 溶酶体 进化生物学 系统发育树 基因 遗传学 生物化学 细胞凋亡
作者
Zahra Jalali,Najmeh Parvaz
出处
期刊:Gene [Elsevier BV]
卷期号:727: 144231-144231 被引量:5
标识
DOI:10.1016/j.gene.2019.144231
摘要

Autophagy is the cellular process of removal of misfolded or damaged macromolecules and organelles. Experimental studies have demonstrated autophagy as a major mechanism of lifespan extension in long-lived mammals such as bats and mole rat rodents. Moreover, the role of this biological process has been well documented in protection against age-associated diseases and viral infection. However, studies on the molecular adaptive changes of autophagy factors during evolution are scarce. Here, we conducted a bioinformatics study of the molecular evolution of the Lysosomal Associated Membrane Protein 2 (LAMP2), as a rate-limiting factor in the lysosomal degradation stage of autophagy (the communal step of two of autophagy types: macroautophagy and chaperone-mediated). Analyzing LAMP2 across placental mammals, our phylogenetic-based maximum likelihood analyses indicate that the majority of the coding sites undergo purifying selection. However, around 27% of sites display a relaxation of purifying constraints (average ω = 0.42128), among which, 14 particular sites undergo positive selection (ω > 1). These sites are mostly located in the first luminal domain of LAMP2 (N-domain), with a hotspot region in the 135–144 codons interval. Therefore, the N-domain may account for the functional diversity and regulation of LAMP2. In addition, the identified positive selection sites could act as key regulatory sites in the LAMP2 function. On the other hand, testing the rate of evolution in LAMP2 along different clades of placental mammals revealed a relatively relaxed evolution in LAMP2 along megabats’ clade. It is not clear yet whether an expedited evolution of LAMP2 in megabats has contributed to their reported up-regulation of autophagy. Finally, our data indicate positive selection sites along the ancestral branch of the clades of rodents, mouse-related rodents, and mole-rats; and suggest the potentially important regulatory role of these sites in LAMP2. Identifying the residues under positive selection, our findings pave the way for future experimental investigations to define how these selective substitutions have functionally affected autophagy.

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