特发性多中心卡斯特曼病各亚型细胞因子风暴相关基因的转录组分析。

IF 0.9 Q4 HEMATOLOGY
Asami Nishikori, Midori Filiz Nishimura, Shuta Tomida, Ryota Chijimatsu, Himawari Ueta, You Cheng Lai, Yuri Kawahara, Yudai Takeda, Sayaka Ochi, Tomoka Haratake, Daisuke Ennishi, Naoya Nakamura, Shuji Momose, Yasuharu Sato
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引用次数: 0

摘要

特发性多中心性卡斯特曼病(iMCD)是一种与卡波西肉瘤相关疱疹病毒/人类疱疹病毒8型(KSHV/HHV8)感染无关的卡斯特曼病。目前,iMCD 可分为 iMCD-IPL(特发性浆液性淋巴结病)、iMCD-TAFRO(血小板减少、无肛症、发热、网状纤维化和器官肿大)和 iMCD-NOS(未特殊说明)。治疗 iMCD 最常见的方法是使用 IL-6 抑制剂;然而,一些患者对 IL-6 抑制剂有抵触情绪,尤其是 iMCD-TAFRO/NOS。然而,由于血清中 IL-6 的水平在 iMCD-IPL 和 iMCD-TAFRO/NOS 病例之间并无明显差异,IL-6 之外的细胞因子可能是导致发病机制差异的原因。在此,我们对细胞因子风暴相关基因进行了转录组分析,并研究了 iMCD-IPL 和 iMCD-TAFRO/NOS 之间的差异。结果表明,STAT2、IL1R1、IL1RAP、IL33、TAFAIP1 和 VEGFA(P < 0.001);STAT3、JAK2、MAPK8、IL17RA、IL18、TAFAIP2、TAFAIP3、PDGFA、VEGFC、CXCL10、CCL4 和 CXCL13(P < 0.01);01);STAT1、STAT6、JAK1、MAPK1、MAPK3、MAPK6、MAPK7、MAPK9、MAPK10、MAPK11、MAPK12、MAPK14、NFKB1、NFKBIA、NFKBIB、NFKBIZ、MTOR、IL10RB、IL12RB2、IL18BP、TAFAIP6、TNFAIP8L1、TNFAIP8L3、CSF2RBP1、PDGFB、PDGFC 和 CXCL9(P < 0.05)在 iMCD-TAFRO/NOS 中明显增加。特别是,在 iMCD-TAFRO/NOS 中首次发现 IL33 表达上调。因此,在iMCD-TAFRO/NOS中,JAK-STAT和MAPK等炎症信号转导可能会增强,并可能成为细胞因子风暴。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Transcriptome analysis of the cytokine storm-related genes among the subtypes of idiopathic multicentric Castleman disease.

Idiopathic multicentric Castleman disease (iMCD) is a type of Castleman disease unrelated to the Kaposi sarcoma-associated herpesvirus/human herpesvirus type 8 (KSHV/HHV8) infection. Presently, iMCD is classified into iMCD-IPL (idiopathic plasmacytic lymphadenopathy), iMCD-TAFRO (thrombocytopenia, anasarca, fever, reticulin fibrosis, and organomegaly), and iMCD-NOS (not otherwise specified). The most common treatment for iMCD is using IL-6 inhibitors; however, some patients resist IL-6 inhibitors, especially for iMCD-TAFRO/NOS. Nevertheless, since serum IL-6 levels are not significantly different between the iMCD-IPL and iMCD-TAFRO/NOS cases, cytokines other than IL-6 may be responsible for the differences in pathogenesis. Herein, we performed a transcriptome analysis of cytokine storm-related genes and examined the differences between iMCD-IPL and iMCD-TAFRO/NOS. The results demonstrated that counts per million of STAT2, IL1R1, IL1RAP, IL33, TAFAIP1, and VEGFA (P < 0.001); STAT3, JAK2, MAPK8, IL17RA, IL18, TAFAIP2, TAFAIP3, PDGFA, VEGFC, CXCL10, CCL4, and CXCL13 (P < 0.01); and STAT1, STAT6, JAK1, MAPK1, MAPK3, MAPK6, MAPK7, MAPK9, MAPK10, MAPK11, MAPK12, MAPK14, NFKB1, NFKBIA, NFKBIB, NFKBIZ, MTOR, IL10RB, IL12RB2, IL18BP, TAFAIP6, TNFAIP8L1, TNFAIP8L3, CSF2RBP1, PDGFB, PDGFC, and CXCL9 (P < 0.05) were significantly increased in iMCD-TAFRO/NOS. Particularly, upregulated IL33 expression was demonstrated for the first time in iMCD-TAFRO/NOS. Thus, inflammatory signaling, such as JAK-STAT and MAPK, may be enhanced in iMCD-TAFRO/NOS and may be a cytokine storm.

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来源期刊
CiteScore
2.00
自引率
6.70%
发文量
25
审稿时长
11 weeks
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