A germline chimeric KANK1-DMRT1 transcript derived from a complex structural variant is associated with a congenital heart defect segregating across five generations.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-03-19 DOI:10.1007/s10577-024-09750-2
Silvia Souza da Costa, Veniamin Fishman, Mara Pinheiro, Andre Rodrigueiro, Maria Teresa Sanseverino, Paulo Zielinsky, Claudia M B Carvalho, Carla Rosenberg, Ana Cristina Victorino Krepischi
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Abstract

Structural variants (SVs) pose a challenge to detect and interpret, but their study provides novel biological insights and molecular diagnosis underlying rare diseases. The aim of this study was to resolve a 9p24 rearrangement segregating in a family through five generations with a congenital heart defect (congenital pulmonary and aortic valvular stenosis and pulmonary artery stenosis), by applying a combined genomic analysis. The analysis involved multiple techniques, including karyotype, chromosomal microarray analysis (CMA), FISH, genome sequencing (GS), RNA-seq, and optical genome mapping (OGM). A complex 9p24 SV was hinted at by CMA results, showing three interspersed duplicated segments. Combined GS and OGM analyses revealed that the 9p24 duplications constitute a complex SV, on which a set of breakpoints matches the boundaries of the CMA duplicated sequences. The proposed structure for this complex rearrangement implies three duplications associated with an inversion of ~ 2 Mb region on chromosome 9 and a SINE element insertion at the more distal breakpoint. Interestingly, this genomic structure of rearrangement forms a chimeric transcript of the KANK1/DMRT1 loci, which was confirmed by both RNA-seq and Sanger sequencing on blood samples from 9p24 rearrangement carriers. Altogether with breakpoint amplification and FISH analysis, this combined approach allowed a deep characterization of this complex rearrangement. Although the genotype-phenotype correlation remains elusive from the molecular mechanism point of view, this study identified a large genomic rearrangement at 9p24 segregating with a familial congenital heart defect, revealing a genetic biomarker that was successfully applied for embryo selection, changing the reproductive perspective of affected individuals.

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源自复杂结构变异的种系嵌合 KANK1-DMRT1 转录本与五代遗传的先天性心脏缺陷有关。
结构变异(SVs)的检测和解释是一项挑战,但对它们的研究提供了新的生物学见解和罕见疾病的分子诊断依据。本研究的目的是通过联合基因组分析,解决一个先天性心脏缺陷(先天性肺动脉瓣狭窄、主动脉瓣狭窄和肺动脉狭窄)家族中历经五代的 9p24 重排遗传问题。该分析涉及多种技术,包括核型、染色体微阵列分析(CMA)、FISH、基因组测序(GS)、RNA-seq 和光学基因组图谱(OGM)。染色体微阵列分析(CMA)结果显示有三个穿插重复的片段,暗示了一个复杂的 9p24 SV。结合 GS 和 OGM 分析发现,9p24 重复段构成了一个复杂的 SV,其上的一组断点与 CMA 重复序列的边界相吻合。这一复杂重排的拟议结构意味着三个重复序列与 9 号染色体上约 2 Mb 区域的反转和较远断点的 SINE 元素插入有关。有趣的是,这种重排的基因组结构形成了 KANK1/DMRT1 基因座的嵌合转录本,9p24 重排携带者血液样本的 RNA-seq 和 Sanger 测序均证实了这一点。这种方法与断点扩增和 FISH 分析相结合,对这种复杂的重排进行了深入分析。虽然从分子机制的角度来看,基因型与表型之间的相关性仍然难以捉摸,但这项研究确定了 9p24 基因组大重排与家族性先天性心脏缺陷的分离关系,揭示了一种遗传生物标志物,并成功地应用于胚胎选择,改变了受影响个体的生殖前景。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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