Dongerdiye Rashmi, Bokde Meghana, More Tejashree Anil, Saptarshi Arati, Devendra Rati, Chiddarwar Ashish, Warang Prashant, Kedar Prabhakar
Department of Haematogenetics, ICMR-National Institute of Immunohematology, 13th Floor, NMS Building, King Edward Memorial (KEM) Hospital Campus, Parel, 400012, Mumbai, India.
Ann Hematol. 2023 May;102(5):1029-1036. doi: 10.1007/s00277-023-05152-2. Epub 2023 Mar 9.
Pyruvate kinase deficiency (PKD) is an autosomal recessive condition, caused due to homozygous or compound heterozygous mutation in the PKLR gene resulting in non-spherocytic hereditary hemolytic anemia. Clinical manifestations in PKD patients vary from moderate to severe lifelong hemolytic anemia either requiring neonatal exchange transfusion or blood transfusion support. Measuring PK enzyme activity is the gold standard approach for diagnosis but residual activity must be related to the increased reticulocyte count. The confirmatory diagnosis is provided by PKLR gene sequencing by conventional as well as targeted next-generation sequencing involving genes associated with enzymopathies, membranopathies, hemoglobinopathies, and bone marrow failure disorders. In this study, we report the mutational landscape of 45 unrelated PK deficiency cases from India. The genetic sequencing of PKLR revealed 40 variants comprising 34 Missense Mutations (MM), 2 Nonsense Mutations (NM), 1 Splice site, 1 Intronic, 1 Insertion, and 1 Large Base Deletion. The 17 novel variants identified in this study are A115E, R116P, A423G, K313I, E315G, E318K, L327P, M377L, A423E, R449G, H507Q, E538K, G563S, c.507 + 1 G > C, c.801_802 ins A (p.Asp268ArgfsTer48), IVS9dsA-T + 3, and one large base deletion. In combination with previous reports on PK deficiency, we suggest c.880G > A, c.943G > A, c.994G > A, c.1456C > T, c.1529G > A are the most frequently observed mutations in India. This study expands the phenotypic and molecular spectrum of PKLR gene disorders and also emphasizes the importance of combining both targeted next-generation sequencing with bioinformatics analysis and detailed clinical evaluation to elaborate a more accurate diagnosis and correct diagnosis for transfusion dependant hemolytic anemia in a cohort of the Indian population.
丙酮酸激酶缺乏症(PKD)是一种常染色体隐性疾病,由PKLR基因的纯合或复合杂合突变引起,导致非球形红细胞遗传性溶血性贫血。PKD患者的临床表现从中度到重度的终身溶血性贫血不等,有的需要新生儿换血输血或输血支持。检测PK酶活性是诊断的金标准方法,但残余活性必须与网织红细胞计数增加相关。通过常规以及涉及与酶病、膜病、血红蛋白病和骨髓衰竭疾病相关基因的靶向新一代测序进行PKLR基因测序可提供确诊。在本研究中,我们报告了来自印度的45例非亲缘PK缺乏症病例的突变图谱。PKLR的基因测序显示有40个变异,包括34个错义突变(MM)、2个无义突变(NM)、1个剪接位点、1个内含子、1个插入和1个大片段碱基缺失。本研究中鉴定出的17个新变异为A115E、R116P、A423G、K313I、E315G、E318K、L327P、M377L、A423E、R449G、H507Q、E538K、G563S、c.507 + 1 G > C、c.801_802 ins A(p.Asp268ArgfsTer48)、IVS9dsA-T + 3以及1个大片段碱基缺失。结合先前关于PK缺乏症的报告,我们认为c.880G > A、c.943G > A、c.994G > A、c.1456C > T、c.1529G > A是印度最常观察到的突变。本研究扩展了PKLR基因疾病的表型和分子谱,也强调了将靶向新一代测序与生物信息学分析以及详细的临床评估相结合对于在印度人群队列中为输血依赖性溶血性贫血做出更准确和正确诊断的重要性。
