Heterozygous COL5A1 deletion in a cat with classical Ehlers–Danlos syndrome

IF 16.4 1区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY
Stefan J. Rietmann, Sarah Nowell, M. Kelly Keating, Cynthia Bauer, Vidhya Jagannathan, Tosso Leeb
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Collagen type V represents only a small percentage of the total collagen content in most tissues but plays a key role in regulating collagen fibrillogenesis (Malfait et al., <span>2020</span>). In cats, five different causative variants for cEDS have been reported in the <i>COL5A1</i> gene so far (Kiener et al., <span>2022</span>; McElroy et al., <span>2023</span>; Spycher et al., <span>2018</span>; OMIA:002165-9685). In this study, we investigated a female Maine Coon cat with suspected EDS due to complications in wound healing.</p><p>The 10-month-old female Maine Coon was presented to a specialty dermatology practice for referral and consultation regarding a nonhealing spay incision. The wound had shown minimal bleeding but had not resolved after multiple attempts at corrective surgery. On initial physical examination, the cat showed bilateral alopecia of the concave and multiple small wounds at the base of the pinnae from self-trauma. Scarring was present on the base of neck and the preauricular region. The wound associated with the spay incision was healed at the time of presentation, but a white scar persisted. Skin elasticity index was determined to be 23% (Figure 1a). The remaining physical examination was unremarkable.</p><p>Histopathological examination of a skin biopsy from the cat revealed mildly decreased dermal thickness. Collagen fibers were of variable size and width and increased numbers of fibroblasts were present in some regions (Figure 1b). The epidermis was of normal thickness and the hair follicles and adnexa present in adequate number.</p><p>Genomic DNA of the cat was isolated from an EDTA-blood sample. A PCR-free library was prepared and sequenced with 2 × 150-bp reads at 22× coverage. The sequencing reads were aligned to the F.catus_Fcat126_mat1.0 reference assembly and variant calling was performed as described (Jagannathan et al., <span>2019</span>). Comparison to 87 control genomes (Table S1) yielded three homozygous and 182 heterozygous private protein changing variants (Table S2). However, none of these variants were located in any of the 20 known functional candidate genes for EDS that were analyzed (Table S3).</p><p>Therefore, the short-read alignments of the affected cat were visually inspected for structural variants in the same 20 candidate genes using the Integrative Genomics Viewer (Robinson et al., <span>2011</span>). This led to the discovery of a heterozygous deletion spanning 33 740 base pairs including the last two exons of <i>COL5A1</i> (Figure 2). The variant can be designated as NC_058380.1:g.93561989_93595728del. It was not present in any of the 87 control genomes.</p><p><i>COL5A1</i> is a well-established candidate gene for autosomal dominant cEDS (Symoens et al., <span>2012</span>). The loss of the last two exons removes 127 codons from the wildtype open reading frame. 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引用次数: 0

Abstract

Classical Ehlers–Danlos syndrome (cEDS) represents one of 14 subtypes of EDS, hereditary connective tissue disorders characterized by skin hyperextensibility, poor wound healing and, especially in human patients, joint hypermobility (Bowen et al., 2017; Malfait et al., 2020). cEDS is frequently inherited as an autosomal dominant trait and caused by pathogenic variants in the COL5A1 gene encoding the α-1 subunit of collagen type V (Mak et al., 2016; Symoens et al., 2012). Collagen type V represents only a small percentage of the total collagen content in most tissues but plays a key role in regulating collagen fibrillogenesis (Malfait et al., 2020). In cats, five different causative variants for cEDS have been reported in the COL5A1 gene so far (Kiener et al., 2022; McElroy et al., 2023; Spycher et al., 2018; OMIA:002165-9685). In this study, we investigated a female Maine Coon cat with suspected EDS due to complications in wound healing.

The 10-month-old female Maine Coon was presented to a specialty dermatology practice for referral and consultation regarding a nonhealing spay incision. The wound had shown minimal bleeding but had not resolved after multiple attempts at corrective surgery. On initial physical examination, the cat showed bilateral alopecia of the concave and multiple small wounds at the base of the pinnae from self-trauma. Scarring was present on the base of neck and the preauricular region. The wound associated with the spay incision was healed at the time of presentation, but a white scar persisted. Skin elasticity index was determined to be 23% (Figure 1a). The remaining physical examination was unremarkable.

Histopathological examination of a skin biopsy from the cat revealed mildly decreased dermal thickness. Collagen fibers were of variable size and width and increased numbers of fibroblasts were present in some regions (Figure 1b). The epidermis was of normal thickness and the hair follicles and adnexa present in adequate number.

Genomic DNA of the cat was isolated from an EDTA-blood sample. A PCR-free library was prepared and sequenced with 2 × 150-bp reads at 22× coverage. The sequencing reads were aligned to the F.catus_Fcat126_mat1.0 reference assembly and variant calling was performed as described (Jagannathan et al., 2019). Comparison to 87 control genomes (Table S1) yielded three homozygous and 182 heterozygous private protein changing variants (Table S2). However, none of these variants were located in any of the 20 known functional candidate genes for EDS that were analyzed (Table S3).

Therefore, the short-read alignments of the affected cat were visually inspected for structural variants in the same 20 candidate genes using the Integrative Genomics Viewer (Robinson et al., 2011). This led to the discovery of a heterozygous deletion spanning 33 740 base pairs including the last two exons of COL5A1 (Figure 2). The variant can be designated as NC_058380.1:g.93561989_93595728del. It was not present in any of the 87 control genomes.

COL5A1 is a well-established candidate gene for autosomal dominant cEDS (Symoens et al., 2012). The loss of the last two exons removes 127 codons from the wildtype open reading frame. It is therefore unlikely that the mutant allele with the genomic deletion results in a functional collagen type V α-1 subunit. In accordance with the clinical and histopathological examination, these findings substantiate and refine the diagnosis of cEDS in the investigated cat. This highlights the potential of whole genome sequencing as a tool for precision medicine and diagnostics in veterinary medicine.

Stefan J. Rietmann: Investigation; visualization; writing – original draft; writing – review and editing. Sarah Nowell: Conceptualization; investigation; visualization; writing – original draft; writing – review and editing. M. Kelly Keating: Conceptualization; investigation; visualization; writing – original draft; writing – review and editing. Cynthia Bauer: Conceptualization; investigation; writing – original draft; writing – review and editing. Vidhya Jagannathan: Data curation; writing – review and editing. Tosso Leeb: Conceptualization; funding acquisition; visualization; writing – original draft; writing – review and editing.

This study was funded by grant 310030_200354 from the Swiss National Science Foundation.

The authors declare no conflicts of interests.

The cats in this study were privately owned and samples were collected with the consent of their owners. The collection of blood samples from control cats was approved by the ‘Cantonal Committee For Animal Experiments’ (Canton of Bern; permit 94/2022; Approval date: 30-11-2022). The collection of samples from the affected cat was performed for diagnostic or therapeutic reasons and did not constitute an animal experiment in the legal sense.

Abstract Image

一只患有典型埃勒斯-丹洛斯综合征的猫体内存在杂合子 COL5A1 缺失。
经典埃勒斯-丹洛斯综合征(cEDS)是遗传性结缔组织疾病 EDS 的 14 个亚型之一,其特征是皮肤过度伸展、伤口愈合不良,尤其是在人类患者中,关节活动过度(Bowen 等,2017 年;Malfait 等,2020 年)、cEDS 常为常染色体显性遗传,由编码 V 型胶原蛋白 α-1 亚基的 COL5A1 基因中的致病变体引起(Mak 等人,2016 年;Symoens 等人,2012 年)。V 型胶原只占大多数组织中胶原总含量的一小部分,但却在调节胶原纤维生成方面发挥着关键作用(Malfait 等人,2020 年)。在猫的 COL5A1 基因中,迄今已报道了五种不同的 cEDS 致病变异(Kiener 等人,2022 年;McElroy 等人,2023 年;Spycher 等人,2018 年;OMIA:002165-9685)。在本研究中,我们对一只因伤口愈合并发症而疑似患有 EDS 的雌性缅因库恩猫进行了调查。这只 10 个月大的雌性缅因库恩猫因绝育手术切口不愈合而到皮肤病专科就诊。伤口出血量极少,但多次尝试手术后仍未愈合。经初步体格检查,该猫双侧凹部脱发,耳廓基部有多处自我外伤造成的小伤口。颈部底部和耳前区域有疤痕。与绝育手术切口相关的伤口在发病时已经愈合,但白色疤痕依然存在。皮肤弹性指数为 23%(图 1a)。对猫的皮肤活检进行组织病理学检查后发现,真皮厚度轻度减少。胶原纤维的大小和宽度不一,某些区域的成纤维细胞数量增加(图 1b)。表皮厚度正常,毛囊和附件数量充足。从 EDTA 血液样本中分离出猫的基因组 DNA,制备了不含 PCR 的文库,并以 22 倍的覆盖率对 2 × 150-bp 的读数进行了测序。测序读数与F.catus_Fcat126_mat1.0参考组装进行了比对,并按照描述(Jagannathan et al.)与 87 个对照基因组比较(表 S1),发现了 3 个同源变异和 182 个异源变异的私有蛋白变化变体(表 S2)。因此,使用整合基因组学查看器(Integrative Genomics Viewer)(罗宾逊等人,2011 年)对患病猫的短读数比对进行了直观检查,以发现这 20 个候选基因中的结构变异。结果发现了一个横跨 33 740 碱基对的杂合缺失,包括 COL5A1 的最后两个外显子(图 2)。该变异被命名为 NC_058380.1:g.93561989_93595728del。COL5A1是常染色体显性cEDS的候选基因(Symoens等人,2012)。最后两个外显子的缺失从野生型开放阅读框中删除了 127 个密码子。因此,基因组缺失的突变等位基因不太可能产生功能性 V 型胶原蛋白 α-1 亚基。与临床和组织病理学检查结果一致,这些发现证实并完善了被调查猫的 cEDS 诊断。这凸显了全基因组测序作为兽医精准医疗和诊断工具的潜力。Sarah Nowell:概念化;调查;可视化;写作--原稿;写作--审阅和编辑。M. Kelly Keating:概念化;调查;可视化;写作--原稿;写作--审阅和编辑。辛西娅-鲍尔概念化;调查;写作--原稿;写作--审阅和编辑。Vidhya Jagannathan:数据整理;写作--审阅和编辑。本研究得到了瑞士国家科学基金会 310030_200354 号基金的资助。对照组猫咪血液样本的采集获得了 "州动物实验委员会"(伯尔尼州;许可证号:94/2022;批准日期:30-11-2022)的批准。从患病猫身上采集样本是出于诊断或治疗目的,并不构成法律意义上的动物实验。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Accounts of Chemical Research
Accounts of Chemical Research 化学-化学综合
CiteScore
31.40
自引率
1.10%
发文量
312
审稿时长
2 months
期刊介绍: Accounts of Chemical Research presents short, concise and critical articles offering easy-to-read overviews of basic research and applications in all areas of chemistry and biochemistry. These short reviews focus on research from the author’s own laboratory and are designed to teach the reader about a research project. In addition, Accounts of Chemical Research publishes commentaries that give an informed opinion on a current research problem. Special Issues online are devoted to a single topic of unusual activity and significance. Accounts of Chemical Research replaces the traditional article abstract with an article "Conspectus." These entries synopsize the research affording the reader a closer look at the content and significance of an article. Through this provision of a more detailed description of the article contents, the Conspectus enhances the article's discoverability by search engines and the exposure for the research.
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