在辛二酰苯胺异羟肟酸处理的静息CD4 + T细胞中的剂量反应性基因表达。
Dose-responsive gene expression in suberoylanilide hydroxamic acid-treated resting CD4+ T cells.
作者信息
Reardon Brian, Beliakova-Bethell Nadejda, Spina Celsa A, Singhania Akul, Margolis David M, Richman Douglas R, Woelk Christopher H
机构信息
aDepartment of Medicine bDepartment of Pathology, University of California San Diego, La Jolla cVeterans Affairs San Diego Healthcare System, San Diego, California, USA dFaculty of Medicine, University of Southampton, Southampton, Hants, UK eDepartments of Medicine, of Epidemiology, and of Microbiology and Immunology, University of North Carolina at Chapel Hill, Chapel Hill, North Carolina, USA.
出版信息
AIDS. 2015 Nov;29(17):2235-44. doi: 10.1097/QAD.0000000000000839.
DESIGN
Persistent latently infected CD4 T cells represent a major obstacle to HIV eradication. Histone deacetylase inhibitors (HDACis) are a proposed activation therapy. However, off-target effects on gene expression in host immune cells are poorly understood. We hypothesized that HDACi-modulated genes would be best identified with a dose-response analysis.
METHODS
Resting primary CD4 T cells were treated with 0.34, 1, 3, or 10 μmol/l of the HDACi, suberoylanilide hydroxamic acid (SAHA), for 24 h and subjected to microarray gene expression analysis. Genes with dose-correlated expression were filtered to identify a subset with consistent up or downregulation at each SAHA dose. Histone modifications were characterized in six SAHA dose-responsive genes by chromatin immunoprecipitation (ChIP-RT-qPCR).
RESULTS
A large number of genes were shown to be upregulated (N = 657) or downregulated (N = 725) by SAHA in a dose-responsive manner (FDR-corrected P-value ≤ 0.5, fold change ≥|2|). Several genes (e.g. CINNAL1, DPEP2, H1F0, IRGM, PHF15, and SELL) are potential in-vivo biomarkers of SAHA activity. SAHA dose-responsive genes included transcription factors, HIV restriction factors, histone methyltransferases, and host proteins that interact with HIV. Pathway analysis suggested net downregulation of T-cell activation with increasing SAHA dose. Histone acetylation was not correlated with host gene expression, but plausible alternative mechanisms for SAHA-modulated gene expression were identified.
CONCLUSION
Numerous genes in CD4 T cells are modulated by SAHA in a dose-responsive manner, including genes that may negatively influence HIV activation from latency. Our study suggests that SAHA influences gene expression through a confluence of several mechanisms, including histone modification, and altered expression and activity of transcription factors.
设计
持续潜伏感染的CD4 T细胞是根除HIV的主要障碍。组蛋白去乙酰化酶抑制剂(HDACi)是一种提出的激活疗法。然而,其对宿主免疫细胞基因表达的脱靶效应尚不清楚。我们假设HDACi调节的基因最好通过剂量反应分析来鉴定。
方法
将静息的原代CD4 T细胞用0.34、1、3或10μmol/L的HDACi,即辛二酰苯胺异羟肟酸(SAHA)处理24小时,然后进行微阵列基因表达分析。对具有剂量相关表达的基因进行筛选,以鉴定在每个SAHA剂量下一致上调或下调的子集。通过染色质免疫沉淀(ChIP-RT-qPCR)对六个SAHA剂量反应性基因中的组蛋白修饰进行表征。
结果
大量基因被SAHA以剂量反应方式上调(N = 657)或下调(N = 725)(经FDR校正的P值≤0.5,倍数变化≥|2|)。几个基因(如CINNAL1、DPEP2、H1F0、IRGM、PHF15和SELL)是SAHA活性的潜在体内生物标志物。SAHA剂量反应性基因包括转录因子、HIV限制因子、组蛋白甲基转移酶以及与HIV相互作用的宿主蛋白。通路分析表明,随着SAHA剂量增加,T细胞激活呈净下调。组蛋白乙酰化与宿主基因表达无关,但确定了SAHA调节基因表达的合理替代机制。
结论
CD4 T细胞中的许多基因被SAHA以剂量反应方式调节,包括可能对潜伏状态下的HIV激活产生负面影响的基因。我们的研究表明,SAHA通过多种机制的共同作用影响基因表达,包括组蛋白修饰以及转录因子表达和活性的改变。
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