Shen Ming-Fang, Hu Ya-Nan, Chen Wei-Xiang, Liao Li-Sheng, Wu Min, Wu Qiu-Yan, Zhang Jian-Hui, Zhang Yan-Ping, Luo Jie-Wei, Lin Xin-Fu
Fujian Provincial Hospital, Shengli Clinical Medical College of Fujian Medical University, Fuzhou, China.
Pediatrics Department, Fujian Provincial Hospital, Fuzhou, China.
Front Cardiovasc Med. 2022 Apr 26;9:887618. doi: 10.3389/fcvm.2022.887618. eCollection 2022.
Sitosterolemia (OMIM ##210250), also known as phytosterolemia, is a rare autosomal recessive disorder caused by mutations in the ATP-binding cassette subfamily G member 5 () or member 8 () genes. This leads to abnormal functions of the transporter sterolin-1 protein encoded by G5 and sterolin-2 protein encoded by G8, respectively, which can hinder the formation of stable / heterodimers, decreasing its ability to transport sterols. As a result, phytosterols in tissue or plasma are significantly increased, leading to early onset atherosclerosis-related diseases and xanthelasma of tendons and skin. In this study, whole exome sequencing was performed on a Chinese Han proband with sitosterolemia to capture the target gene and screen for suspected pathogenic mutations. Sanger sequencing of the family members was performed to verify the relationship between family genetics and phenotypes. The structural and functional changes in the transporter sterolin-1 protein after the responsible mutation were predicted using bioinformatics analysis. A novel compound heterozygous mutation in the gene (NM_022436) was identified in a proband with sitosterolemia, one of which was inherited from the father: c.296T >G (p.M99R), and one from the mother: c.-76 C >T. SIFT, Polyphen2, and Mutation Taster software predicted that p.M99R may be the responsible variant and a novel variant. RNAFold software predicts that c.-76 C >T may affect the transcriptional information or the binding of RNA binding proteins by regulating the structure of RNA, and ultimately affect gene transcription or RNA stability and translation. Swiss model software predicts that the amino acid sequence around p.M99R is highly conserved, and p.M99R leads to instability of the tertiary structure of the / heterodimer. GPS 5.0 predicted that M99R affects the phosphorylation of nearby amino acid sequences, and DUET and VarSite software predicted that M99R affects the stability of sterolin-1 and cause disease. The p.M99R and c.-76 C >T mutations led to the formation of unstable heterodimers, which disturbed sterol absorption and excretion . The compound heterozygous variants c.296 T >G (p.m99r) and C.-76 C >T on exon 3 of in this family may be the molecular genetic basis of sitosterolemia.
谷甾醇血症(OMIM ##210250),也称为植物甾醇血症,是一种罕见的常染色体隐性疾病,由ATP结合盒亚家族G成员5()或成员8()基因的突变引起。这分别导致由G5编码的转运蛋白甾醇载体蛋白-1和由G8编码的甾醇载体蛋白-2功能异常,从而可能阻碍稳定的/异二聚体的形成,降低其转运甾醇的能力。结果,组织或血浆中的植物甾醇显著增加,导致早发性动脉粥样硬化相关疾病以及肌腱和皮肤的睑黄瘤。在本研究中,对一名患有谷甾醇血症的中国汉族先证者进行了全外显子组测序,以捕获目标基因并筛选可疑的致病突变。对家庭成员进行Sanger测序以验证家族遗传学与表型之间的关系。使用生物信息学分析预测了致病突变后转运蛋白甾醇载体蛋白-1的结构和功能变化。在一名谷甾醇血症先证者中鉴定出基因(NM_022436)中的一种新的复合杂合突变,其中一种来自父亲:c.296T>G(p.M99R),一种来自母亲:c.-76C>T。SIFT、Polyphen2和Mutation Taster软件预测p.M99R可能是致病变异体且是一种新变异体。RNAFold软件预测c.-76C>T可能通过调节RNA的结构影响转录信息或RNA结合蛋白的结合,并最终影响基因转录或RNA稳定性及翻译。Swiss model软件预测p.M99R周围的氨基酸序列高度保守,且p.M99R导致/异二聚体三级结构不稳定。GPS 5.0预测M99R影响附近氨基酸序列的磷酸化,DUET和VarSite软件预测M99R影响甾醇载体蛋白-1的稳定性并导致疾病。p.M99R和c.-76C>T突变导致形成不稳定的异二聚体,扰乱了甾醇的吸收和排泄。该家族中基因第3外显子上的复合杂合变异体c.296T>G(p.m99r)和C.-76C>T可能是谷甾醇血症的分子遗传基础。
