Alternative Splicing of Heat Shock Transcription Factor 2 Regulates the Expression of Laccase Gene Family in Response to Copper in Trametes trogii

Yu Zhang; Yuanyuan Wu; Xulei Yang; En Yang; Huini Xu; Yuhui Chen; Irbis Chagan; Jinping Yan

doi:10.1128/AEM.00055-21

Alternative Splicing of Heat Shock Transcription Factor 2 Regulates the Expression of Laccase Gene Family in Response to Copper in Trametes trogii

Appl Environ Microbiol. 2021 Apr 15;87(8):e00055-21. doi: 10.1128/AEM.00055-21. Epub 2021 Feb 12.

Authors

Yu Zhang¹, Yuanyuan Wu¹, Xulei Yang¹, En Yang¹, Huini Xu¹, Yuhui Chen², Irbis Chagan¹, Jinping Yan³

Affiliations

¹ Laboratory of Bioconversion, Life Science and Technology College, Kunming University of Science and Technology, Kunming, 650500, PR China.
² College of Life Science, the Southwest Forest University, Kunming, 650224, PR China.
³ Laboratory of Bioconversion, Life Science and Technology College, Kunming University of Science and Technology, Kunming, 650500, PR China jpyan2019@163.com.

Abstract

White-rot fungi, especially Trametes strains, are the primary source of industrial laccases in bioenergy and bioremediation. Trametes strains express members of the laccase gene family with different physicochemical properties and expression patterns. However, the literature on the expression pattern of the laccase gene family in T. trogii S0301 and the response mechanism to Cu²⁺, a key laccase inducer, in white-rot fungal strains is scarce. In the present study, we found that Cu²⁺ could induce the mRNAs and proteins of the two alternative splicing variants of heat shock transcription factor 2 (TtHSF2). Furthermore, the overexpression of alternative splicing variants TtHSF2α and TtHSF2β-I in the homokaryotic T. trogii S0301 strain showed opposite effects on the extracellular total laccase activity, with the maximum laccase activity of approximately 0.6 U mL^-1 and 3.0 U mL^-1, respectively, on the eighth day, which is 0.4 and 2.3 times that of the wild type strain. Similarly, TtHSF2α and TtHSF2β-I play opposite roles in the oxidation tolerance to H₂O₂ In addition, the direct binding of TtHSF2α to the promoter regions of the representative laccase isoenzymes (TtLac1 and TtLac13) and protein-protein interactions between TtHSF2α and TtHSF2β-I were detected. Our results demonstrate the crucial roles of TtHSF2 and its alternative splicing variants in response to Cu²⁺ We believe that these findings will deepen our understanding of alternative splicing of HSFs and their regulatory mechanism of the laccase gene family in white-rot fungi.Importance The members of laccase gene family in Trametes strains are the primary source of industrial laccase and have gained widespread attention. Increasing the yield and enzymatic properties of laccase through various methods has always been a topic worthy of attention, and there is no report on the regulation of laccase expression through HSF transcription factor engineering. Here, we found that two alternative splicing variants of TtHSF2 functioned oppositely in regulating the expression of laccase genes, and copper can induce the expression of almost all members of the laccase gene family. Most importantly, our study suggested that TtHSF2 and its alternative splicing variants are vital for copper-induced production of laccases in T. trogii S0301.