Heliyon (Apr 2024)

Updating mRNA variants of the human RSK4 gene and their expression in different stressed situations

  • Zhenwei Qin,
  • Jianglin Yang,
  • Keyin Zhang,
  • Xia Gao,
  • Qianchuan Ran,
  • Yuanhong Xu,
  • Zhi Wang,
  • Didong Lou,
  • Chunhua Huang,
  • Lucas Zellmer,
  • Guangxue Meng,
  • Na Chen,
  • Hong Ma,
  • Zhe Wang,
  • Dezhong Joshua Liao

Journal volume & issue
Vol. 10, no. 7
p. e27475

Abstract

Read online

We determined RNA spectrum of the human RSK4 (hRSK4) gene (also called RPS6KA6) and identified 29 novel mRNA variants derived from alternative splicing, which, plus the NCBI-documented ones and the five we reported previously, totaled 50 hRSK4 RNAs that, by our bioinformatics analyses, encode 35 hRSK4 protein isoforms of 35–762 amino acids. Many of the mRNAs are bicistronic or tricistronic for hRSK4. The NCBI-normalized NM_014496.5 and the protein it encodes are designated herein as the Wt-1 mRNA and protein, respectively, whereas the NM_001330512.1 and the long protein it encodes are designated as the Wt-2 mRNA and protein, respectively. Many of the mRNA variants responded differently to different situations of stress, including serum starvation, a febrile temperature, treatment with ethanol or ethanol-extracted clove buds (an herbal medicine), whereas the same stressed situation often caused quite different alterations among different mRNA variants in different cell lines. Mosifloxacin, an antibiotics and also a functional inhibitor of hRSK4, could inhibit the expression of certain hRSK4 mRNA variants. The hRSK4 gene likely uses alternative splicing as a handy tool to adapt to different stressed situations, and the mRNA and protein multiplicities may partly explain the incongruous literature on its expression and comports.

Keywords