Biochemistry Department, Swat Medical College, Swat, Pakistan.
Department of Biotechnology, Sungshin Women's University, Seoul, Republic of Korea.
Genes Genomics. 2021 May;43(5):471-478. doi: 10.1007/s13258-021-01071-6. Epub 2021 Mar 9.
Amyloidosis cutis dyschromica (ACD) is a rare variant of cutaneous amyloidosis. This disorder often clusters in families, and it has been suggested that genetic factors might be involved in its development.
To identify the genetic causes of ACD, we recruited a consanguineous Pakistani family with multiple cases of ACD that display a recessive mode of inheritance.
We performed whole-exome sequencing of samples from 7 members of this family, followed by bioinformatic and in silico analyses to identify the causative variant. For the replication study, we recruited a British family with Pakistani ancestry, and sequenced all exons of glycoprotein non-metastatic melanoma protein b (GPNMB) to identify mutations. We also investigated effects of the mutations on the stability of the GPNMB protein using the I-TASSER three-dimensional modeling tool.
We found a novel homozygous mutation, p.Gly363Val (c.1088 G>T), in GPNMB in all affected cases. In a replication study, another homozygous missense mutation in GPNMB, pIle174Met (c.522 C>G), was carried by the affected son. The two mutations were not observed in our in-house data set comprising 217 healthy Pakistani individuals or in The Genome Aggregation Database. Our structural modeling of GPNMB suggested that p.Gly363Val enhanced its stability, whereas p.Ile174Met caused instability.
This study reports two novel missense mutations in two Pakistani families that cause ACD. The mutations appear to influence GPNMB stability, as revealed by protein modeling.
色素性皮肤淀粉样变(ACD)是皮肤淀粉样变的一种罕见变异。这种疾病常呈家族聚集性,有研究提示遗传因素可能参与其发病。
为明确 ACD 的遗传病因,我们对一个存在多个 ACD 病例的巴基斯坦家系进行了研究,该家系的遗传方式符合常染色体隐性遗传。
我们对该家系的 7 名成员进行了全外显子组测序,然后进行生物信息学和计算机分析,以鉴定致病变异。为了进行验证研究,我们又招募了一个有巴基斯坦血统的英国家系,对该家系所有成员的 GPNMB 基因外显子进行测序,以寻找突变。我们还使用 I-TASSER 三维建模工具研究了突变对 GPNMB 蛋白稳定性的影响。
我们发现 GPNMB 基因中存在一个新的纯合突变 p.Gly363Val(c.1088 G>T),该突变存在于所有受影响的个体中。在验证研究中,我们发现另一个 GPNMB 基因的纯合错义突变 pIle174Met(c.522 C>G),该突变存在于患病的儿子中。这两个突变均未在我们包含 217 名健康巴基斯坦个体的内部数据集或在基因组聚集数据库中检出。我们对 GPNMB 的结构建模提示,p.Gly363Val 增强了蛋白的稳定性,而 p.Ile174Met 则导致其稳定性降低。
本研究报道了两个巴基斯坦家系中的两个新的错义突变,这些突变似乎影响了 GPNMB 的稳定性,这一推测通过蛋白建模得到了证实。
