Olex Amy L, Turkett William H, Brzoza-Lewis Kristina L, Fetrow Jacquelyn S, Hiltbold Elizabeth M
1 Department of Computer Science, Wake Forest University , Winston-Salem, North Carolina.
2 Department of Microbiology and Immunology, Wake Forest School of Medicine , Winston-Salem, North Carolina.
J Interferon Cytokine Res. 2016 Jun;36(6):382-400. doi: 10.1089/jir.2014.0150. Epub 2016 Apr 1.
Dendritic cell (DC) maturation involves widespread changes in cellular function and gene expression. The regulatory role of IFNAR in the program of DC maturation remains incompletely defined. Thus, the time evolution impact of IFNAR on this process was evaluated. Changes in DC phenotype, function, and gene expression induced by poly I:C were measured in wild-type and IFNAR(-/-) DC at 9 time points over 24 h. Temporal gene expression profiles were filtered on consistency and response magnitude across replicates. The number of genes whose expression was altered by poly I:C treatment was greatly reduced in IFNAR(-/-) DC, including the majority of the downregulated gene expression program previously observed in wild-type (WT) DC. Furthermore, the number of genes upregulated was almost equal between WT and IFNAR(-/-) DC, yet the identities of those genes were distinct. Integrating these data with protein-protein interaction data revealed several novel subnetworks active during maturation, including nucleotide synthesis, metabolism, and repair. A subnetwork associated with redox activity was uniquely identified in IFNAR(-/-) DC. Overall, temporal gene expression and network analyses identified many genes regulated by the type I interferon response and revealed previously unidentified aspects of the DC maturation process.
树突状细胞(DC)成熟涉及细胞功能和基因表达的广泛变化。IFNAR在DC成熟程序中的调节作用仍未完全明确。因此,评估了IFNAR对这一过程的时间演变影响。在24小时内的9个时间点,测量了野生型和IFNAR(-/-)DC中由聚肌胞苷酸(poly I:C)诱导的DC表型、功能和基因表达的变化。对重复样本间的一致性和反应幅度进行过滤,得到时间基因表达谱。在IFNAR(-/-)DC中,由poly I:C处理引起的基因表达改变的数量大幅减少,包括先前在野生型(WT)DC中观察到的大多数下调基因表达程序。此外,WT和IFNAR(-/-)DC中上调基因的数量几乎相等,但这些基因的身份不同。将这些数据与蛋白质-蛋白质相互作用数据整合,揭示了成熟过程中活跃的几个新的子网,包括核苷酸合成、代谢和修复。在IFNAR(-/-)DC中独特地鉴定出一个与氧化还原活性相关的子网。总体而言,时间基因表达和网络分析确定了许多受I型干扰素反应调节的基因,并揭示了DC成熟过程中以前未被识别的方面。