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Mol Syndromol. 2025 May;16(3):271-277. doi: 10.1159/000541717. Epub 2024 Oct 29.
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本文引用的文献

1
Biosynthesis, Deficiency, and Supplementation of Coenzyme Q.辅酶Q的生物合成、缺乏与补充
Antioxidants (Basel). 2023 Jul 21;12(7):1469. doi: 10.3390/antiox12071469.
2
Mosaic Variegated Aneuploidy Syndrome and Noonan Syndrome in the Same Family.同一家庭中的嵌合型杂合性非整倍体综合征和努南综合征
Mol Syndromol. 2022 Dec;13(5):402-408. doi: 10.1159/000523877. Epub 2022 Mar 31.
3
Biallelic variants in coenzyme Q10 biosynthesis pathway genes cause a retinitis pigmentosa phenotype.辅酶Q10生物合成途径基因的双等位基因变异导致色素性视网膜炎表型。
NPJ Genom Med. 2022 Oct 20;7(1):60. doi: 10.1038/s41525-022-00330-z.
4
Evidence for high breakpoint variability in 46, XX, SRY-positive testicular disorder and frequent ARSE deletion that may be associated with short stature.存在 46, XX, SRY 阳性睾丸发育障碍中高断点变异性和 ARSE 缺失频繁的证据,这可能与身材矮小有关。
Andrology. 2022 Nov;10(8):1625-1631. doi: 10.1111/andr.13279. Epub 2022 Sep 7.
5
Primary Coenzyme Q10 Deficiency-7 and Pathogenic Variants: Clinical Presentation, Biochemical Analyses, and Treatment.原发性辅酶Q10缺乏症-7与致病变体:临床表现、生化分析及治疗
Front Genet. 2022 Jan 26;12:776807. doi: 10.3389/fgene.2021.776807. eCollection 2021.
6
Human COQ4 deficiency: delineating the clinical, metabolic and neuroimaging phenotypes.人类 COQ4 缺乏症:描绘临床、代谢和神经影像学表型。
J Med Genet. 2022 Sep;59(9):878-887. doi: 10.1136/jmedgenet-2021-107729. Epub 2021 Oct 16.
7
International System for Human Cytogenetic or Cytogenomic Nomenclature (ISCN): Some Thoughts.国际人类细胞遗传学或细胞基因组命名系统(ISCN):一些思考。
Cytogenet Genome Res. 2021;161(5):223-224. doi: 10.1159/000516654. Epub 2021 Aug 18.
8
New pathogenic variants in COQ4 cause ataxia and neurodevelopmental disorder without detectable CoQ deficiency in muscle or skin fibroblasts.COQ4 中的新致病性变异导致共济失调和神经发育障碍,而肌肉或皮肤成纤维细胞中无可检测到的 CoQ 缺乏。
J Neurol. 2021 Sep;268(9):3381-3389. doi: 10.1007/s00415-021-10509-6. Epub 2021 Mar 11.
9
Clinical spectrum in multiple families with primary COQ deficiency.多家族原发性 COQ 缺陷的临床谱。
Am J Med Genet A. 2021 Feb;185(2):440-452. doi: 10.1002/ajmg.a.61983. Epub 2020 Nov 20.
10
The crucial role of SRY gene in the determination of human genetic sex: 46,XX disorder of sex development.SRY基因在人类遗传性别决定中的关键作用:46,XX性发育障碍
Rom J Morphol Embryol. 2019;60(4):1311-1316.

性发育障碍与辅酶Q10缺乏的混合表型,以及该基因中具有纯合变异的同胞。

Blended Phenotypes of Sexual Development Disorder and Coenzyme Q10 Deficiency, Together with a Sibling with Homozygous Variants in the Gene.

作者信息

Atasay Rumeysa, Yilmaz Leyla Nur, Gulec Ayten, Canpolat Mehmet, Per Huseyin, Kardas Fatih, Ozsait Selcuk Bilge, Karaman Birsen, Kiraz Aslihan, Dundar Munis

机构信息

Department of Medical Genetics, Faculty of Medicine, Erciyes University, Kayseri, Turkey.

Department of Pediatric Neurology, Faculty of Medicine, Erciyes University, Kayseri, Turkey.

出版信息

Mol Syndromol. 2025 May;16(3):271-277. doi: 10.1159/000541717. Epub 2024 Oct 29.

DOI:10.1159/000541717
PMID:40475171
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12136569/
Abstract

INTRODUCTION

In consanguineous marriages, different homozygous variants in a single gene may occur in the same family. This may lead to blended phenotypes. This study presents a family in which different rare mechanisms come together as a result of consanguineous marriage. Primary coenzyme Q10 deficiency is a very rare disease that occurs due to homozygous or compound heterozygous variants in the gene.

CASE PRESENTATION

A 2-year-old proband with a blended phenotype with sex development disorder and coenzyme Q (CoQ) 10 deficiency has psychomotor retardation, dysmorphic findings, hypotonia, micropenis, and bilateral cryptorchidism. The patient's cytogenetic analysis results were compatible with -positive 46,XX sex reversal disease. In the subsequent whole-exome analysis, a c.437T>G (Phe146Cys) missense homozygous probable pathogenic variant was detected in the 5th exon of the gene (NM_016035) that explains other clinical findings. The brother of the index was previously deceased due to hydrocephalus and had a nonsense homozygous variant c.1051C>T p.(Arg351*) in the 7th exon of the gene (NM_001134830).

DISCUSSION

Alterations in exons 5-7 of the COQ4 gene manifest early in life, resulting in neonatal fatality and a more pronounced clinical trajectory. Conversely, mutations occurring in exons 1-4 emerge later and exhibit a less severe clinical progression. Interestingly, the c.437T>G variant within exon 5 of the COQ4 gene induces comparatively milder clinical symptoms, deviating from the documented cases in the literature. To our knowledge, there is no other reported case in the literature with a blended phenotype of a sexual development anomaly and primary CoQ10 deficiency.

摘要

引言

在近亲婚姻中,同一个家族中单个基因可能会出现不同的纯合变异。这可能导致混合表型。本研究介绍了一个因近亲婚姻而出现不同罕见机制共同作用的家族。原发性辅酶Q10缺乏症是一种非常罕见的疾病,由该基因的纯合或复合杂合变异引起。

病例报告

一名2岁先证者具有性发育障碍和辅酶Q(CoQ)10缺乏的混合表型,有精神运动发育迟缓、畸形表现、肌张力低下、小阴茎和双侧隐睾。患者的细胞遗传学分析结果与46,XX性反转疾病阳性相符。在随后的全外显子组分析中,在该基因(NM_016035)的第5外显子中检测到一个c.437T>G(Phe146Cys)错义纯合可能致病变异,该变异解释了其他临床发现。先证者的哥哥此前因脑积水去世,在该基因(NM_001134830)的第7外显子中有一个无义纯合变异c.1051C>T p.(Arg351*)。

讨论

COQ4基因外显子5-7的改变在生命早期表现出来,导致新生儿死亡和更明显的临床病程。相反,外显子1-4中发生的突变出现较晚,临床进展较轻。有趣的是,COQ4基因第5外显子中的c.437T>G变异诱导的临床症状相对较轻,与文献中记载的病例不同。据我们所知,文献中没有其他报道的具有性发育异常和原发性辅酶Q10缺乏混合表型的病例。