Alternative promoter and alternative splicing are two important mechanisms of gene regulation and protein diversity in different physiological contexts of eukaryotes, especially in stem cells and developmental stages. Pou5f1 gene which codes the stemness marker OCT4, utilizes alternative splicing and promoter mechanisms, which result in generation of multiple spliced variants and subsequently multiple protein isoforms. By far, nine variants of OCT4 (OCT4A, OCT4B, OCT4B1, OCT4B2, OCT4B3, OCT4B4, OCT4C, OCT4C1, and OCT4D) have been introduced. It has been well established that OCT4A plays essential roles in early developmental stages as well as maintenance of stemness in embryonic stem cells (ESCs). However, the roles and functions of other variants and isoforms of OCT4 in biological systems are less appreciated. In this study, we report a new OCT4 variant, designated as OCT4B5. RT-PCR assay on different human cell lines including pluripotent, normal and cancer cells showed that OCT4B5 is expressed at variable level in different cell lines. By semi-quantifying of OCT4B5 expression in pluripotent and differentiated states of NT2 cell lines, we reveal that this variant of OCT4 is highly expressed in undifferentiated state and its expression is down-regulated upon differentiation. Compared to OCT4A which is sharply down-regulated in retinoic acid induced differentiation of NT2 cell line, the expression of OCT4B5 remains at low level in differentiated state. Overall, this study emphasizes the complexity of OCT4 gene expression and regulation in different states of stem cells and physiological contexts. Graphical Abstract.
Keywords: Alternative promoter; Alternative splicing; Cancer cell lines; OCT4A; OCT4B5; Pluripotent cells; Pou5f1, OCT4; Stem cells.