Department of Bioengineering, Universidad Carlos III de Madrid, Madrid, Spain.
Regenerative Medicine and Tissue Engineering Group, Fundación Jiménez Díaz (IIS-FJD), Madrid, Spain.
Br J Dermatol. 2019 Sep;181(3):512-522. doi: 10.1111/bjd.17698. Epub 2019 Apr 15.
Recessive dystrophic epidermolysis bullosa (RDEB), Kindler syndrome (KS) and xeroderma pigmentosum complementation group C (XPC) are three cancer-prone genodermatoses whose causal genetic mutations cannot fully explain, on their own, the array of associated phenotypic manifestations. Recent evidence highlights the role of the stromal microenvironment in the pathology of these disorders.
To investigate, by means of comparative gene expression analysis, the role played by dermal fibroblasts in the pathogenesis of RDEB, KS and XPC.
We conducted RNA-Seq analysis, which included a thorough examination of the differentially expressed genes, a functional enrichment analysis and a description of affected signalling circuits. Transcriptomic data were validated at the protein level in cell cultures, serum samples and skin biopsies.
Interdisease comparisons against control fibroblasts revealed a unifying signature of 186 differentially expressed genes and four signalling pathways in the three genodermatoses. Remarkably, some of the uncovered expression changes suggest a synthetic fibroblast phenotype characterized by the aberrant expression of extracellular matrix (ECM) proteins. Western blot and immunofluorescence in situ analyses validated the RNA-Seq data. In addition, enzyme-linked immunosorbent assay revealed increased circulating levels of periostin in patients with RDEB.
Our results suggest that the different causal genetic defects converge into common changes in gene expression, possibly due to injury-sensitive events. These, in turn, trigger a cascade of reactions involving abnormal ECM deposition and underexpression of antioxidant enzymes. The elucidated expression signature provides new potential biomarkers and common therapeutic targets in RDEB, XPC and KS. What's already known about this topic? Recessive dystrophic epidermolysis bullosa (RDEB), Kindler syndrome (KS) and xeroderma pigmentosum complementation group C (XPC) are three genodermatoses with high predisposition to cancer development. Although their causal genetic mutations mainly affect epithelia, the dermal microenvironment likely contributes to the physiopathology of these disorders. What does this study add? We disclose a large overlapping transcription profile between XPC, KS and RDEB fibroblasts that points towards an activated phenotype with high matrix-synthetic capacity. This common signature seems to be independent of the primary causal deficiency, but reflects an underlying derangement of the extracellular matrix via transforming growth factor-β signalling activation and oxidative state imbalance. What is the translational message? This study broadens the current knowledge about the pathology of these diseases and highlights new targets and biomarkers for effective therapeutic intervention. It is suggested that high levels of circulating periostin could represent a potential biomarker in RDEB.
隐性营养不良型大疱性表皮松解症(RDEB)、Kindler 综合征(KS)和 Xeroderma pigmentosum 补体组 C(XPC)是三种易患癌症的遗传性皮肤病,其致病基因突变本身并不能完全解释相关表型表现的多样性。最近的证据强调了间质微环境在这些疾病发病机制中的作用。
通过比较基因表达分析,研究真皮成纤维细胞在 RDEB、KS 和 XPC 发病机制中的作用。
我们进行了 RNA-Seq 分析,包括对差异表达基因的全面检查、功能富集分析和受影响信号通路的描述。在细胞培养物、血清样本和皮肤活检中,对转录组数据进行了蛋白质水平的验证。
与对照成纤维细胞的疾病间比较显示,三种遗传性皮肤病中有 186 个差异表达基因和四个信号通路具有统一的特征。值得注意的是,一些发现的表达变化表明存在一种合成成纤维细胞表型,其特征是细胞外基质(ECM)蛋白的异常表达。Western blot 和免疫荧光原位分析验证了 RNA-Seq 数据。此外,酶联免疫吸附试验显示 RDEB 患者循环中periostin 水平升高。
我们的研究结果表明,不同的致病遗传缺陷可能由于损伤敏感事件而集中在共同的基因表达变化上。这些变化继而触发一连串反应,涉及异常细胞外基质沉积和抗氧化酶表达下调。所阐明的表达特征为 RDEB、XPC 和 KS 提供了新的潜在生物标志物和共同的治疗靶点。
关于这个主题已经知道些什么?隐性营养不良型大疱性表皮松解症(RDEB)、Kindler 综合征(KS)和 Xeroderma pigmentosum 补体组 C(XPC)是三种具有高癌症易感性的遗传性皮肤病。尽管它们的致病基因突变主要影响上皮细胞,但真皮微环境可能有助于这些疾病的病理生理学发展。
这项研究增加了什么新内容?我们揭示了 XPC、KS 和 RDEB 成纤维细胞之间大量重叠的转录谱,表明存在高基质合成能力的激活表型。这种共同的特征似乎独立于主要的致病缺陷,但反映了细胞外基质的潜在紊乱,通过转化生长因子-β信号激活和氧化状态失衡。
这一研究结果有什么转化意义?这项研究拓宽了我们对这些疾病病理学的现有认识,并强调了新的治疗靶点和生物标志物。提示循环中高浓度的 periostin 可能是 RDEB 的一个潜在生物标志物。
