David Smith, Anna Eichinger, Andrew Rech, Julia Wang, Eduardo Esteva, Arta Seyedian, Xiaoxu Yang, Mei Zhang, Dan Martinez, Kai Tan, Minjie Luo, Christopher Park, Boris Reizis, Vinodh Pillai
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Interaction of activated follicular dendritic cell (FDC) cytoplasmic meshworks with mantle zone B cells was associated with B cell activation and differentiation. VEGF, IL-6, MAPK, and extracellular matrix pathways were elevated in stromal cells of CD. CXCL13+ FDCs, PDGFRA+ T-zone reticular cells (TRC), and ACTA2-positive perivascular reticular cells (PRC) were identified as the predominant source of increased VEGF expression and IL-6 signaling in CD. VEGF expression by FDCs was associated with peri-follicular neovascularization. FDC, TRC and PRC of CD activated JAK-STAT, TGF-bet;, and MAPK pathways via ligand-receptor interactions involving collagen, integrins, complement components, and VEGF receptors. T, B and plasma cells were polyclonal but showed class-switched and somatically hypermutated IgG1+ plasma cells consistent with stromal cell-driven germinal center activation. In conclusion, our findings show that stromal cell activation and associated B-cell activation and differentiation, neovascularization and stromal remodeling underlie CD and suggest new targets for treatment.","PeriodicalId":501471,"journal":{"name":"bioRxiv - Pathology","volume":"30 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-09-11","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Spatial and Single Cell Mapping of Castleman Disease Reveals Key Stromal Cell Types and Cytokine Pathways\",\"authors\":\"David Smith, Anna Eichinger, Andrew Rech, Julia Wang, Eduardo Esteva, Arta Seyedian, Xiaoxu Yang, Mei Zhang, Dan Martinez, Kai Tan, Minjie Luo, Christopher Park, Boris Reizis, Vinodh Pillai\",\"doi\":\"10.1101/2024.09.09.609717\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Castleman disease (CD) is inflammatory lymphoproliferative disorder of unclear etiology. 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引用次数: 0
摘要
卡斯特曼病(CD)是一种病因不明的炎症性淋巴组织增生性疾病。为了确定 CD 的细胞和分子基础,我们分析了 4,485,009 个单细胞的空间蛋白质组、50,117 个单个细胞核的转录组、8187 个单个细胞核的免疫复合物以及单中心 CD、特发性多中心 CD、HHV8 相关 MCD 和反应性淋巴结的致病突变。CD 的特点是非淋巴细胞和基质细胞增多,形成了与淋巴细胞相互作用的独特微环境。活化的滤泡树突状细胞(FDC)胞浆网状结构与套管区 B 细胞的相互作用与 B 细胞的活化和分化有关。CD基质细胞中的血管内皮生长因子、IL-6、MAPK和细胞外基质通路升高。CXCL13+的FDCs、PDGFRA+的T区网状细胞(TRC)和ACTA2阳性的血管周围网状细胞(PRC)被确定为CD中VEGF表达和IL-6信号传导增加的主要来源。FDC的VEGF表达与滤泡周围新生血管有关。CD的FDC、TRC和PRC通过涉及胶原蛋白、整合素、补体成分和血管内皮生长因子受体的配体-受体相互作用激活JAK-STAT、TGF-bet;和MAPK通路。T细胞、B细胞和浆细胞是多克隆的,但显示出类群转换和体细胞高突变的IgG1+浆细胞,这与基质细胞驱动的生殖中心活化一致。总之,我们的研究结果表明,基质细胞活化及相关的 B 细胞活化和分化、新生血管形成和基质重塑是 CD 的基础,并提出了新的治疗靶点。
Spatial and Single Cell Mapping of Castleman Disease Reveals Key Stromal Cell Types and Cytokine Pathways
Castleman disease (CD) is inflammatory lymphoproliferative disorder of unclear etiology. To determine the cellular and molecular basis of CD, we analyzed the spatial proteome of 4,485,009 single cells, transcriptome of 50,117 single nuclei, immune repertoire of 8187 single nuclei, and pathogenic mutations in Unicentric CD, idiopathic Multicentric CD, HHV8-associated MCD, and reactive lymph nodes. CD was characterized by increased non-lymphoid and stromal cells that formed unique microenvironments where they interacted with lymphoid cells. Interaction of activated follicular dendritic cell (FDC) cytoplasmic meshworks with mantle zone B cells was associated with B cell activation and differentiation. VEGF, IL-6, MAPK, and extracellular matrix pathways were elevated in stromal cells of CD. CXCL13+ FDCs, PDGFRA+ T-zone reticular cells (TRC), and ACTA2-positive perivascular reticular cells (PRC) were identified as the predominant source of increased VEGF expression and IL-6 signaling in CD. VEGF expression by FDCs was associated with peri-follicular neovascularization. FDC, TRC and PRC of CD activated JAK-STAT, TGF-bet;, and MAPK pathways via ligand-receptor interactions involving collagen, integrins, complement components, and VEGF receptors. T, B and plasma cells were polyclonal but showed class-switched and somatically hypermutated IgG1+ plasma cells consistent with stromal cell-driven germinal center activation. In conclusion, our findings show that stromal cell activation and associated B-cell activation and differentiation, neovascularization and stromal remodeling underlie CD and suggest new targets for treatment.