Ly Jimmy, Cady Sarah L, Khalizeva Ekaterina, Haug Sofia, Cheeseman Iain M
Whitehead Institute for Biomedical Research, Cambridge, United States.
Department of Biology, Massachusetts Institute of Technology, Cambridge, United States.
bioRxiv. 2025 Jul 27:2025.07.25.666902. doi: 10.1101/2025.07.25.666902.
Alternative splicing expands proteomic diversity and is tightly regulated by splicing factors, including the serine/arginine-rich (SR) protein family. Here, we analyze the poorly characterized protein SRSF12. Although SRSF12 is conserved across vertebrates, it is poorly expressed in most mammals, and we find that SRSF12 knockout mice do not display overt physiological or transcriptomic alterations. In contrast, SRSF12 is more highly expressed in primates where it is predominantly transcribed in the testes, oocytes, and brain. SRSF12 co-localizes with other splicing components to nuclear speckles and interacts with core splicing factors in cultured human cells. Strikingly, ectopic expression of SRSF12 in human cells induces widespread transcriptional changes, activating meiosis-, testis- and brain-specific genes. SRSF12 overexpression also leads to mitotic arrest and cell death, phenotypes that require both its structured RNA recognition motif and intrinsically disordered arginine/serine-rich C-terminal domain. Together, our results suggest that SRSF12 has evolved primate-specific expression to regulate testis- and brain-specific genes.
可变剪接扩展了蛋白质组的多样性,并受到剪接因子的严格调控,其中包括富含丝氨酸/精氨酸的(SR)蛋白家族。在此,我们分析了特征描述较少的蛋白质SRSF12。尽管SRSF12在脊椎动物中保守,但在大多数哺乳动物中表达水平较低,并且我们发现SRSF12基因敲除小鼠并未表现出明显的生理或转录组改变。相反,SRSF12在灵长类动物中表达更高,在灵长类动物中它主要在睾丸、卵母细胞和大脑中转录。SRSF12与其他剪接成分共定位于核斑点,并在培养的人类细胞中与核心剪接因子相互作用。引人注目的是,SRSF12在人类细胞中的异位表达会诱导广泛转录变化,激活减数分裂、睾丸和大脑特异性基因。SRSF12的过表达还会导致有丝分裂停滞和细胞死亡,这些表型需要其结构化的RNA识别基序和富含精氨酸/丝氨酸的内在无序C末端结构域。总之,我们的结果表明SRSF12已进化出灵长类特异性表达,以调控睾丸和大脑特异性基因。
