Department of Pediatric Neurology, Kartal Dr. Lutfi Kirdar City Hospital, Semsi Denizer Avenue, Cevizli, 34890, Kartal, Istanbul, Turkey.
Department of Medical Genetics, Erzurum City Hospital, Erzurum, Turkey.
Acta Neurol Belg. 2022 Apr;122(2):391-399. doi: 10.1007/s13760-021-01649-7. Epub 2021 Apr 3.
Hereditary spastic paraplegias (HSPs) are a clinically and genetically heterogeneous group of conditions that are characterized by lower limb spasticity and weakness. Considering the clinical overlap between metabolic causes, genetic diseases, and autosomal recessive HSP, differentiation between these types can be difficult based solely on their clinical characteristics. This study aimed to investigate the genetic etiology of patients with clinically suspected HSP. The study group was composed of seven Turkish families who each had two affected children and three families who each had a single affected child (17 total patients). The 17 probands (14 males, 3 females) underwent whole exome sequencing. Five typical HSP genes (FA2H, AP4M1, AP4E1, CYP7B1, and MAG) and three genes not previously related to HSP (HACE1, GLRX5, ad ELP2) were identified in 14 probands. Eight novel variants were identified in seven families: c.653 T > C (p.Leu218Pro) in the FA2H gene, c.347G > A (p.Gly116Asp) in the GLRX5 gene, c.2581G > C (p.Ala861Pro) in the HACE1 gene, c.1580G > A (p.Arg527Gln) and c.1189-1G > A in the ELP2 gene, c.10C > T (p.Gln4*) and c.1025 + 1G > A in the AP4M1 gene, c.1291delG (p.Gly431Alafs3) and c.3250delA (p.Ile1084) in the AP4E1 gene, and c.475 T > G (p.Cys159Gly) in the MAG gene. The growing use of next-generation sequencing improved diagnosis but also led to the continual identification of new causal genes for neurogenetic diseases associated with lower limb spasticity. The increasing number of HSP genes identified thus far highlights the extreme genetic heterogeneity of these disorders and their clinical and functional overlap with other neurological conditions. Our findings suggest that the HACE1, GLRX5, and ELP2 genes are genetic causes of HSP.
遗传性痉挛性截瘫(HSPs)是一组具有临床和遗传异质性的疾病,其特征是下肢痉挛和无力。鉴于代谢性病因、遗传性疾病和常染色体隐性 HSP 之间的临床重叠,仅根据其临床特征很难区分这些类型。本研究旨在探讨临床疑似 HSP 患者的遗传病因。研究组由 7 个土耳其家庭组成,每个家庭有 2 个受影响的孩子,3 个家庭有 1 个受影响的孩子(共 17 个患者)。17 个先证者(男 14 例,女 3 例)进行了全外显子组测序。在 14 个先证者中发现了 5 个典型的 HSP 基因(FA2H、AP4M1、AP4E1、CYP7B1 和 MAG)和 3 个以前与 HSP 无关的基因(HACE1、GLRX5 和 ELP2)。在 7 个家庭中发现了 8 个新变异:FA2H 基因中的 c.653T>C(p.Leu218Pro)、GLRX5 基因中的 c.347G>A(p.Gly116Asp)、HACE1 基因中的 c.2581G>C(p.Ala861Pro)、ELP2 基因中的 c.1580G>A 和 c.1189-1G>A、AP4M1 基因中的 c.10C>T(p.Gln4*)和 c.1025+1G>A、AP4E1 基因中的 c.1291delG(p.Gly431Alafs3)和 c.3250delA(p.Ile1084)以及 MAG 基因中的 c.475T>G(p.Cys159Gly)。下一代测序的广泛应用提高了诊断水平,但也导致了与下肢痉挛相关的神经遗传疾病的新的致病基因的不断发现。迄今为止发现的 HSP 基因数量不断增加,突出了这些疾病的极端遗传异质性及其与其他神经疾病的临床和功能重叠。我们的研究结果表明,HACE1、GLRX5 和 ELP2 基因是 HSP 的遗传原因。
