Image_3_Regulatory Network and Prognostic Effect Investigation of PIP4K2A in Leukemia and Solid Cancers.TIF (3.55 MB)

Image_3_Regulatory Network and Prognostic Effect Investigation of PIP4K2A in Leukemia and Solid Cancers.TIF

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posted on 2019-01-15, 04:38 authored by Shouyue Zhang, Zhaozhi Li, Xinyu Yan, Li Bao, Yun Deng, Feier Zeng, Peiqi Wang, Jianhui Zhu, Dandan Yin, Fei Liao, Xueyan Zhou, Duyu Zhang, Xuyang Xia, Hong Wang, Xue Yang, Wanhua Zhang, Hu Gao, Wei Zhang, Li Yang, Qianqian Hou, Heng Xu, Yan Zhang, Yang Shu, Yuelan Wang

Germline variants of PIP4K2A impact susceptibility of acute lymphoblastic leukemia (ALL) through inducing its overexpression. Although limited reports suggested the oncogenic role of PIP4K2A in cancers, regulatory network and prognostic effect of this gene remains poorly understood in tumorigenesis and leukemogenesis. In this study, we conducted genome-wide gene expression association analyses in pediatric B-ALL cohorts to discover expression associated genes and pathways, which is followed by the bioinformatics analyses to investigate the prognostic role of PIP4K2A and its related genes in multiple cancer types. 214 candidates were identified to be significantly associated with PIP4K2A expression in ALL patients, with known cancer-related genes rankings the top (e.g., RAC2, RBL2, and TFDP1). These candidates do not only tend to be clustered in the same types of leukemia, but can also separate the patients into novel molecular subtypes. PIP4K2A is noticed to be frequently overexpressed in multiple other types of leukemia and solid cancers from cancer cohorts including TCGA, and associated with its candidates in subtype-specific and cancer-specific manners. Interestingly, the association status varied in tumors compared to their matched normal tissues. Moreover, PIP4K2A and its related candidates exhibit stage-independent prognostic effects in multiple cancers, mostly with its lower expression significantly associated with longer overall survival (p < 0.05). Our findings reveal the transcriptional regulatory network of PIP4K2A in leukemia, and suggest its potentially important role on molecular subtypes of multiple cancers and subsequent treatment outcomes.