The pH-Responsive Transcription Factors YlRim101 and Mhy1 Regulate Alkaline pH-Induced Filamentation in the Dimorphic Yeast Yarrowia lipolytica

• Published in: mSphere Vol. 6; no. 3
• Main Authors: Shu, Tao, He, Xin-Yu, Chen, Jia-Wen, Mao, Yi-Sheng, Gao, Xiang-Dong
• Format: Journal Article
• Language: English
• Published: United States American Society for Microbiology 19.05.2021
• Subjects: Research Article; filamentation; dimorphism; Rim101; hyphal growth; dimorphic transition
• ISSN: 2379-5042; 2379-5042
• DOI: 10.1128/mSphere.00179-21

Environmental pH influences cell growth and differentiation. In the dimorphic yeast , neutral-alkaline pH strongly induces the yeast-to-filament transition. However, the regulatory mechanism that governs alkaline pH-induced filamentation has been unclear. Here, we show that the pH-responsive transcription factor Rim101 (YlRim101) is a major regulator of alkaline-induced filamentation, since the deletion of Yl severely impaired filamentation at alkaline pH, whereas the constitutively active Yl mutant mildly induced filamentation at acidic pH. YlRim101 controls the expression of the majority of alkaline-regulated cell wall protein genes. One of these, the cell surface glycosidase gene Yl , plays a critical role in growth, cell wall function, and filamentation at alkaline pH. This finding suggests that YlRim101 promotes filamentation at alkaline pH via controlling the expression of these genes. We also show that, in addition to YlRim101, the Msn2/Msn4-like transcription factor Mhy1 is highly upregulated at alkaline pH and is essential for filamentation. However, unlike YlRim101, which specifically regulates alkaline-induced filamentation, Mhy1 regulates both alkaline- and glucose-induced filamentation, since the deletion of abolished them both, whereas the overexpression of induced strong filamentation irrespective of the pH or the presence of glucose. Finally, we show that YlRim101 and Mhy1 positively coregulate seven cell wall protein genes at alkaline pH, including Yl and five cell surface adhesin-like genes, three of which appear to promote filamentation. Together, these results reveal a conserved role of YlRim101 and a novel role of Mhy1 in the regulation of alkaline-induced filamentation in The regulatory mechanism that governs pH-regulated filamentation is not clear in dimorphic fungi except in Here, we investigated the regulation of alkaline pH-induced filamentation in , a dimorphic yeast distantly related to Our results show that the transcription factor YlRim101 and the Msn2/Msn4-like transcription factor Mhy1 are the major regulators that promote filamentation at alkaline pH. They control the expression of a number of cell wall protein genes important for cell wall organization and filamentation. Our results suggest that the Rim101/PacC homologs play a conserved role in pH-regulated filamentation in dimorphic fungi.