Identification of novel Taz isoforms and functional comparison in pluripotency maintenance of mouse embryonic stem cells.

Alternative splicing (AS) is a key process to expand the diversity of mRNA and protein from the genome and it is crucial for fate determination of embryonic stem cells (ESCs) by encoding isoforms with different functions to regulate the balance between pluripotency maintenance and differentiation. Since the role of the Hippo pathway in ESCs is controversial, there may be novel isoforms of Taz, a key effector of the Hippo pathway, previously unknown to us. Here, we identified three variants of Taz in mESCs. Apart from the canonical Taz1185, there were also two novel variants, Taz402 and Taz1086. We found their structure and subcellular localization to be different, while they could all interact with TEAD2 with similar binding affinities and activate transcription. Under the LIF condition, overexpression of them all induced apoptosis and differentiation of mESCs, among which the phenotype of Taz1086 was the most dramatic. Taken together, we discovered novel variants of Taz and compared their structure and functional differences in mESC pluripotency maintenance. These findings will help us to understand the Taz gene and clarify its role in mESC.