A Novel Mutation in the OXCT1 Gene Causing Succinyl-CoA:3-Ketoacid CoA Transferase (SCOT) Deficiency Starting with Neurologic Manifestations.

IF 0.8 Q4 CLINICAL NEUROLOGY Iranian Journal of Child Neurology Pub Date : 2023-01-01 DOI:10.22037/ijcn.v17i2.35963
Davoud Amirkashani, Mostafa Asadollahi, Rozita Hosseini, Saeed Talebi, Zahra Golchehre, Mohammad Keramatipour
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Abstract

Succinyl-CoA:3-oxoacid CoA-transferase (SCOT) deficiency is an inborn error of ketone body utilization characterized by intermittent ketoacidosis crises. This study reports the first Iranian patient with SCOT deficiency who presented with seizure and hypotonia at birth. Accordingly, she was consequently re-hospitalized due to hypotonia and respiratory distress. Laboratory tests revealed hyperammonemia, ketonuria, and metabolic acidosis. Besides, the plasma glucose level was normal without any other abnormality. Despite treatment with high-dose bicarbonate, severe acidosis persisted. Poor response to treatment raised a significant diagnostic challenge among specialists until genetic investigation identified a homozygous nonsense mutation (c.79G>T; p.Gly27*) in the OXCT1 gene (NM_000436), causing SCOT deficiency. Genetic studies help clinicians achieve a definite diagnosis of such metabolic disorders. In this case, the accurate and early diagnosis of SCOT deficiency opened new therapeutic possibilities, including frequent carbohydrate-rich meals and low fat and protein diet. Moreover, our findings expand the mutational and clinical spectrum of SCOT deficiency.

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OXCT1基因的新突变导致琥珀酰辅酶A:3-酮酸辅酶A转移酶(SCOT)缺乏,始于神经系统表现。
琥珀酰辅酶a:3-氧酸辅酶a转移酶(SCOT)缺乏是一种以间歇性酮症酸中毒为特征的酮体利用先天性错误。本研究报告了第一例伊朗SCOT缺乏患者,出生时表现为癫痫发作和低张力。因此,她因张力不足和呼吸窘迫再次住院。实验室检查显示高氨血症、酮症尿和代谢性酸中毒。血糖正常,无其他异常。尽管用大剂量碳酸氢盐治疗,严重酸中毒仍然存在。对治疗的不良反应在专家中提出了重大的诊断挑战,直到遗传调查发现纯合无义突变(c.79G>T;p.Gly27*)在OXCT1基因(NM_000436)中,导致SCOT缺乏。遗传学研究有助于临床医生对此类代谢紊乱做出明确的诊断。在这种情况下,SCOT缺乏的准确和早期诊断开辟了新的治疗可能性,包括频繁的富含碳水化合物的膳食和低脂肪和低蛋白质的饮食。此外,我们的发现扩大了SCOT缺乏症的突变和临床范围。
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发文量
35
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