Sana Nasim, Colette Bichsel, Anna Pinto, Sanda Alexandrescu, Harry Kozakewich, Joyce Bischoff
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Given the distinct features and functions of blood vessels in the brain versus the skin, we examined the features of CM vessels in both tissues to gain insights into the pathogenesis of CM. Herein, we present morphologic characteristics of CM observed in specimens from brain and skin. The <i>GNAQ</i> p.R183Q variant allelic frequency in each specimen was determined by droplet digital PCR. Sections were stained for endothelial cells, tight junctions, mural cells, and macrophages to assess the endothelium as well as perivascular constituents. CM blood vessels in brain and skin were enlarged, exhibited fibrin leakage and reduced zona occludin-1 and claudin-5, and were surrounded by MRC1<sup>pos</sup>/LYVE1<sup>pos</sup> macrophages. In contrast, the CMs from brain and skin differ in endothelial sprouting activity and localization of mural cells. These characteristics might be helpful in the development of targeted and/or tissue specific therapies to prevent or reverse non-syndromic and syndromic CM.</p></div>","PeriodicalId":7886,"journal":{"name":"Angiogenesis","volume":"27 4","pages":"931 - 941"},"PeriodicalIF":9.2000,"publicationDate":"2024-09-29","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Similarities and differences between brain and skin GNAQ p.R183Q driven capillary malformations\",\"authors\":\"Sana Nasim, Colette Bichsel, Anna Pinto, Sanda Alexandrescu, Harry Kozakewich, Joyce Bischoff\",\"doi\":\"10.1007/s10456-024-09950-8\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>Capillary malformations (CM) are congenital vascular irregularities of capillary and venous blood vessels that appear in the skin, leptomeninges of the brain, and the choroid of the eye in the disorder known as Sturge Weber Syndrome (SWS). More common are non-syndromic CM found only in the skin, without brain or ocular involvement. A somatic activating mutation in <i>GNAQ</i> (p.R183Q) is found in ~ 90% of syndromic and non-syndromic CM specimens and is present in CD31<sup>pos</sup> endothelial cells isolated from brain and skin CM specimens. Endothelial expression of the <i>GNAQ</i> p.R183Q variant is sufficient to form CM-like vessels in mice. Given the distinct features and functions of blood vessels in the brain versus the skin, we examined the features of CM vessels in both tissues to gain insights into the pathogenesis of CM. Herein, we present morphologic characteristics of CM observed in specimens from brain and skin. The <i>GNAQ</i> p.R183Q variant allelic frequency in each specimen was determined by droplet digital PCR. Sections were stained for endothelial cells, tight junctions, mural cells, and macrophages to assess the endothelium as well as perivascular constituents. CM blood vessels in brain and skin were enlarged, exhibited fibrin leakage and reduced zona occludin-1 and claudin-5, and were surrounded by MRC1<sup>pos</sup>/LYVE1<sup>pos</sup> macrophages. In contrast, the CMs from brain and skin differ in endothelial sprouting activity and localization of mural cells. 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引用次数: 0
摘要
毛细血管畸形(CM)是毛细血管和静脉血管的先天性血管不规则,出现在皮肤、大脑的脑膜和眼球的脉络膜上,这种疾病被称为斯特格-韦伯综合征(SWS)。更常见的是只出现在皮肤上、不累及大脑或眼球的非综合征 CM。在约 90% 的综合征和非综合征 CM 标本中发现了 GNAQ 的体细胞活化突变(p.R183Q),并且存在于从大脑和皮肤 CM 标本中分离出的 CD31pos 内皮细胞中。GNAQ p.R183Q 变体的内皮表达足以在小鼠体内形成 CM 样血管。鉴于脑血管与皮肤血管的不同特征和功能,我们研究了这两种组织中 CM 血管的特征,以深入了解 CM 的发病机制。在此,我们介绍了在大脑和皮肤标本中观察到的 CM 形态特征。通过液滴数字 PCR 测定了每个标本中 GNAQ p.R183Q 变体等位基因的频率。对切片进行内皮细胞、紧密连接、壁细胞和巨噬细胞染色,以评估内皮和血管周围成分。大脑和皮肤中的CM血管增大,表现出纤维蛋白渗漏,透明带闭塞素-1和透明带闭塞素-5减少,并被巨噬细胞MRC巯基乙醇/LYVE巯基乙醇包围。相比之下,大脑和皮肤的 CMs 在内皮发芽活性和壁细胞定位方面有所不同。这些特征可能有助于开发靶向和/或组织特异性疗法,以预防或逆转非综合征和综合征 CM。
Similarities and differences between brain and skin GNAQ p.R183Q driven capillary malformations
Capillary malformations (CM) are congenital vascular irregularities of capillary and venous blood vessels that appear in the skin, leptomeninges of the brain, and the choroid of the eye in the disorder known as Sturge Weber Syndrome (SWS). More common are non-syndromic CM found only in the skin, without brain or ocular involvement. A somatic activating mutation in GNAQ (p.R183Q) is found in ~ 90% of syndromic and non-syndromic CM specimens and is present in CD31pos endothelial cells isolated from brain and skin CM specimens. Endothelial expression of the GNAQ p.R183Q variant is sufficient to form CM-like vessels in mice. Given the distinct features and functions of blood vessels in the brain versus the skin, we examined the features of CM vessels in both tissues to gain insights into the pathogenesis of CM. Herein, we present morphologic characteristics of CM observed in specimens from brain and skin. The GNAQ p.R183Q variant allelic frequency in each specimen was determined by droplet digital PCR. Sections were stained for endothelial cells, tight junctions, mural cells, and macrophages to assess the endothelium as well as perivascular constituents. CM blood vessels in brain and skin were enlarged, exhibited fibrin leakage and reduced zona occludin-1 and claudin-5, and were surrounded by MRC1pos/LYVE1pos macrophages. In contrast, the CMs from brain and skin differ in endothelial sprouting activity and localization of mural cells. These characteristics might be helpful in the development of targeted and/or tissue specific therapies to prevent or reverse non-syndromic and syndromic CM.
期刊介绍:
Angiogenesis, a renowned international journal, seeks to publish high-quality original articles and reviews on the cellular and molecular mechanisms governing angiogenesis in both normal and pathological conditions. By serving as a primary platform for swift communication within the field of angiogenesis research, this multidisciplinary journal showcases pioneering experimental studies utilizing molecular techniques, in vitro methods, animal models, and clinical investigations into angiogenic diseases. Furthermore, Angiogenesis sheds light on cutting-edge therapeutic strategies for promoting or inhibiting angiogenesis, while also highlighting fresh markers and techniques for disease diagnosis and prognosis.