INMAP, a novel truncated version of POLR3B, represses AP-1 and p53 transcriptional activity.

Abstract	INMAP was first identified as an interphase nucleus and mitotic apparatus-associated protein that plays essential roles in the formation of the spindle and cell-cycle progression. Here, we report that INMAP might be conserved from prokaryotes to humans, is a truncated version of the RNA polymerase III subunit B POLR3B, and is up-regulated in several human cancer cell lines including HeLa, Bel-7402, HepG2 and BGC-823. Deletion analysis revealed that the 209-290 amino-acid region is necessary for the punctate distribution of INMAP in the nucleus. Furthermore, over-expression of INMAP inhibited the transcriptional activities of p53 and AP-1 in a dose-dependent manner. These results suggest that INMAP may function through the p53 and AP-1 pathways, thus providing a possible link of its activity with tumourigenesis. Integrating our data and those in previous studies, it can be concluded that INMAP plays dual functional roles in the coordination of mitotic kinetics with gene expression as well as in cell-fate determination and proliferation.
Authors	Zhou Yunlei, Chen Zhe, Lei Yan, Wang Pengcheng, Zheng Yanbo, Sun Le, Liang Qianjin
Journal	Molecular and cellular biochemistry (Mol Cell Biochem) Vol. 374 Issue 1-2 Pg. 81-9 (Feb 2013) ISSN: 1573-4919 [Electronic] Netherlands
PMID	23124897 (Publication Type: Journal Article, Research Support, Non-U.S. Gov't)
Chemical References	Cell Cycle Proteins INMAP protein, human Nuclear Proteins Transcription Factor AP-1 Tumor Suppressor Protein p53 POLR3B protein, human RNA Polymerase III
Topics	Cell Cycle Proteins (chemistry, genetics, metabolism) Cell Line, Tumor Cell Nucleus (metabolism) Cell Proliferation Gene Expression HEK293 Cells HeLa Cells Hep G2 Cells Humans MCF-7 Cells Nuclear Proteins (chemistry, genetics, metabolism) RNA Polymerase III (chemistry, genetics, metabolism) Sequence Deletion Transcription Factor AP-1 (biosynthesis, genetics, metabolism) Transcription, Genetic Transcriptional Activation Tumor Suppressor Protein p53 (biosynthesis, genetics, metabolism)

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