X 连锁遗传性耳聋及Ⅲ型不完分隔型患者的桑格测序和纳米孔单分子测序的遗传学发现。
Genetic findings of Sanger and nanopore single-molecule sequencing in patients with X-linked hearing loss and incomplete partition type III.
机构信息
Department of Otolaryngology-Head and Neck Surgery, Shanghai Ninth People's Hospital, Shanghai Jiaotong University School of Medicine, 639 Zhizaoju Road, Shanghai, 200011, China.
Ear Institute, Shanghai Jiaotong University School of Medicine, Shanghai, China.
出版信息
Orphanet J Rare Dis. 2022 Feb 21;17(1):65. doi: 10.1186/s13023-022-02235-7.
BACKGROUND
POU3F4 is the causative gene for X-linked deafness-2 (DFNX2), characterized by incomplete partition type III (IP-III) malformation of the inner ear. The purpose of this study was to investigate the clinical characteristics and molecular findings in IP-III patients by Sanger or nanopore single-molecule sequencing.
METHODS
Diagnosis of IP-III was mainly based on clinical characteristics including radiological and audiological findings. Sanger sequencing of POU3F4 was carried out for these IP-III patients. For those patients with negative results for POU3F4 Sanger sequencing, nanopore long-read single-molecule sequencing was used to identify the possible pathogenic variants. Hearing intervention outcomes of hearing aids (HAs) fitting and cochlear implantation (CI) were also analyzed. Aided pure tone average (PTA) was further compared between two groups of patients according to their different locations of POU3F4 variants: in the exon region or in the upstream region.
RESULTS
In total, 18 male patients from 14 unrelated families were diagnosed with IP-III. 10 variants were identified in POU3F4 by Sanger sequencing and 6 of these were reported for the first time (p.Gln181*, p.Val215Gly, p.Arg282Gln, p.Gln316*, c.903_912 delins TGCCA and p.Arg205del). Four different deletions that varied from 80 to 486 kb were identified 876-1503 kb upstream of POU3F4 by nanopore long-read single-molecule sequencing. De novo genetic mutations occurred in 21.4% (3/14) of patients with POU3F4 mutations. Among these 18 patients, 7 had bilateral HAs and 10 patients received unilateral CI. The mean aided PTA for HAs and CI users were 41.1 ± 5.18 and 40.3 ± 7.59 dB HL respectively. The mean PTAs for patients with the variants located in the exon and upstream regions were 39.6 ± 6.31 versus 43.0 ± 7.10 dB HL, which presented no significant difference (p = 0.342).
CONCLUSIONS
Among 14 unrelated IP-III patients, 28.6% (4/14) had no definite mutation in exon region of POU3F4. However, possible pathogenic deletions were identified in upstream region of this gene. De novo genetic mutations occurred in 21.4% (3/14) of patients with POU3F4 mutation. There was no significant difference of hearing intervention outcomes between the IP-III patients with variants located in the exon region and in the upstream region.
背景
POU3F4 是 X 连锁耳聋-2(DFNX2)的致病基因,其特征为内耳不完全分隔 III 型(IP-III)畸形。本研究旨在通过 Sanger 或纳米孔单分子测序,研究 IP-III 患者的临床特征和分子发现。
方法
IP-III 的诊断主要基于临床特征,包括影像学和听力检查结果。对这些 IP-III 患者进行 POU3F4 的 Sanger 测序。对于 POU3F4 Sanger 测序结果为阴性的患者,使用纳米孔长读单分子测序来鉴定可能的致病变异。还分析了助听器(HA)适配和人工耳蜗植入(CI)的听力干预结果。根据 POU3F4 变异的不同位置(外显子区域或上游区域),进一步比较两组患者的助听听阈平均值(PTA)。
结果
共诊断出 14 个无关家系的 18 名男性 IP-III 患者。通过 Sanger 测序在 POU3F4 中发现了 10 种变异,其中 6 种为首次报道(p.Gln181*,p.Val215Gly,p.Arg282Gln,p.Gln316*,c.903_912delinsTGCCA 和 p.Arg205del)。通过纳米孔长读单分子测序,在 POU3F4 的上游 876-1503kb 处鉴定出 4 种不同的缺失,大小从 80 到 486kb 不等。在 21.4%(3/14)的 POU3F4 突变患者中发生新生基因突变。在这 18 名患者中,7 名患者双侧佩戴 HA,10 名患者单侧接受 CI。HA 和 CI 用户的平均助听听阈分别为 41.1±5.18dB HL 和 40.3±7.59dB HL。位于外显子和上游区域的变异患者的平均 PTA 分别为 39.6±6.31dB HL 与 43.0±7.10dB HL,无显著差异(p=0.342)。
结论
在 14 名无关的 IP-III 患者中,28.6%(4/14)患者 POU3F4 外显子区域无明确突变,但在该基因的上游区域发现了可能的致病性缺失。在 21.4%(3/14)的 POU3F4 突变患者中发生新生基因突变。位于外显子区域和上游区域的变异患者的听力干预结果无显著差异。
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