Kandettu Amoolya, Yeole Mayuri, Sekar Hamsini, Garapati Kishore, Kaur Namanpreet, Anand Aakanksha, Hegde Pranavi, Nair Karthik, Medishetti Raghavender, Bhat Vivekananda, Radhakrishnan Periyasamy, Mundkur Suneel C, Shrikiran Hebbar A, Pandey Akhilesh, Sevilimedu Aarti, Chakrabarty Sanjiban, Shukla Anju
Department of Public Health Genomics, Manipal School of Life Sciences, Manipal Academy of Higher Education, Manipal, India.
Department of Medical Genetics, Kasturba Medical College, Manipal, Manipal Academy of Higher Education, Manipal, India.
Eur J Hum Genet. 2025 May 13. doi: 10.1038/s41431-025-01858-1.
Mitochondrial ribosomal protein-small 2 (MRPS2) encodes a vital structural protein essential for assembling mitoribosomal small subunit and thus mitochondrial translation. Any defect in mitochondrial translation impacts OXPHOS activity and cellular respiration. Defects in MRPS2 have been implicated recently in four families with combined oxidative phosphorylation deficiency-36 (MIM# 617950). We herein describe two individuals from two unrelated families with variable phenotypes of acute onset severe metabolic decompensation and symptomatic hypoglycemia. Exome sequencing identified bi-allelic variants in MRPS2 (NM_016034.5) in the affected individuals: P1: c.490 G > A p.(Glu164Lys); and P2: c.413 G > A p.(Arg138His). Further evaluation of the variant c.490 G > A p.(Glu164Lys) in patient-derived skin fibroblasts revealed decreased expression of MRPS2 transcript and protein levels of MRPS2 along with expression of complex I and IV proteins. Proteomics analysis revealed decreased expression of small subunit proteins and increased expression of large subunit proteins. Also, reduced complex I and IV enzyme activities, mitochondrial respiration (OCR), and altered mitochondrial morphology on confocal imaging were observed. Additionally, mrps2 knockout zebrafish larvae demonstrated an abnormal developmental phenotype and reduced Complex IV activity. With these findings, we identify additional families with variants in MRPS2, illustrating the variable clinical spectrum and validate the pathogenicity of defects in MRPS2 through in-vitro and in-vivo assays.
线粒体核糖体蛋白小亚基2(MRPS2)编码一种对组装线粒体核糖体小亚基以及线粒体翻译至关重要的结构蛋白。线粒体翻译中的任何缺陷都会影响氧化磷酸化活性和细胞呼吸。最近已发现MRPS2缺陷与四个患有联合氧化磷酸化缺陷36型(MIM# 617950)的家族有关。我们在此描述了来自两个不相关家族的两名个体,他们具有急性起病的严重代谢失代偿和症状性低血糖的可变表型。外显子组测序在受影响个体中鉴定出MRPS2(NM_016034.5)的双等位基因变异:个体1:c.490 G > A,p.(Glu164Lys);个体2:c.413 G > A,p.(Arg138His)。对患者来源的皮肤成纤维细胞中c.490 G > A,p.(Glu164Lys)变异的进一步评估显示,MRPS2转录本的表达以及MRPS2蛋白水平连同复合物I和IV蛋白的表达均降低。蛋白质组学分析显示小亚基蛋白表达降低,大亚基蛋白表达增加。此外,观察到复合物I和IV酶活性降低、线粒体呼吸(氧耗率)降低以及共聚焦成像中线粒体形态改变。此外,mrps2基因敲除斑马鱼幼虫表现出异常的发育表型且复合物IV活性降低。基于这些发现,我们确定了更多携带MRPS2变异的家族,阐明了可变的临床谱,并通过体外和体内试验验证了MRPS2缺陷的致病性。
