Severe pulmonary arterial hypertension in congenital sideroblastic anemia from PUS1 mutation - a case report.

IF 2.1 4区医学 Q3 GENETICS & HEREDITY BMC Medical Genomics Pub Date : 2024-08-15 DOI:10.1186/s12920-024-01983-8

Shyam S Kothari, Jayal Shah, Vishal Sharma, Riyaz Charaniya, Rujuta Parikh, Salil N Vaniawala

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Abstract

Background: Myopathy, lactic acidosis and inherited sideroblastic anemia (MLASA) are a group of rare intriguing disorders with wider pathophysiological implications. One of the causes of MLASA is the mutation in PUS1 gene that encodes for pseudouridine synthase. This PUS1 mutation results in MLASA in which anemia and myopathy predominate. Severe pulmonary arterial hypertension has not been previously reported in patients with PUS1 gene mutation.

Case report: A 17 year old girl with congenital sideroblastic anemia presented with worsening of breathlessness. Severe pulmonary artery hypertension was documented on investigations. A homozygous variant in exon 3 of gene PUS1,( chromosome 12:g.131932301 C > T c.430 C > T) was found on sanger sequencing.

Conclusion: We document severe pulmonary arterial hypertension in a patient of congenital sideroblastic anemia from PUS1 gene. We hypothesis that cross talk with TGFb pathways might occur in PUS1 mutation, and that might cause severe PAH. This observation might have therapeutic implications.

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PUS1 基因突变导致先天性红细胞性贫血的重度肺动脉高压--病例报告。

背景：肌病、乳酸酸中毒和遗传性红细胞性贫血（MLASA）是一组罕见的复杂疾病，具有广泛的病理生理影响。导致 MLASA 的原因之一是编码假尿苷合成酶的 PUS1 基因发生突变。PUS1 基因突变导致的 MLASA 以贫血和肌病为主。PUS1 基因突变患者出现严重肺动脉高压的情况以前从未报道过：病例报告：一名患有先天性红细胞性贫血的 17 岁女孩因呼吸困难而就诊。检查发现她患有严重的肺动脉高压。桑格测序发现，PUS1 基因第 3 外显子（12 号染色体：g.131932301 C > T c.430 C > T）存在同源变异：我们记录了一名先天性红细胞性贫血患者因 PUS1 基因导致的严重肺动脉高压。我们假设，PUS1 基因突变可能与 TGFb 通路发生交叉反应，从而导致严重的 PAH。这一发现可能具有治疗意义。

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

BMC Medical Genomics 医学-遗传学

CiteScore

3.90

自引率

0.00%

发文量

243

审稿时长

3.5 months

期刊介绍： BMC Medical Genomics is an open access journal publishing original peer-reviewed research articles in all aspects of functional genomics, genome structure, genome-scale population genetics, epigenomics, proteomics, systems analysis, and pharmacogenomics in relation to human health and disease.