Abstract
Regulator of G-protein signaling (RGS) proteins primarily function as GTPase-accelerating proteins (GAPs) to promote GTP hydrolysis of Gα subunits, thereby regulating G-protein mediated signal transduction. RGS proteins could also contain additional domains such as GoLoco to inhibit GDP dissociation. The rice blast fungus Magnaporthe oryzae encodes eight RGS and RGS-like proteins (MoRgs1 to MoRgs8) that have shared and distinct functions in growth, appressorium formation and pathogenicity. Interestingly, MoRgs7 and MoRgs8 contain a C-terminal seven-transmembrane domain (7-TM) motif typical of G-protein coupled receptor (GPCR) proteins, in addition to the conserved RGS domain. We found that MoRgs7, but not MoRgs8, couples with Gα MoMagA to undergo endocytic transport from the plasma membrane to the endosome upon sensing of surface hydrophobicity. We also found that MoRgs7 can interact with hydrophobic surfaces via a hydrophobic interaction, leading to the perception of environmental hydrophobiccues. Moreover, we found that MoRgs7-MoMagA endocytosis is regulated by actin patch-associated protein MoCrn1, linking it to cAMP signaling. Our studies provided evidence suggesting that MoRgs7 could also function in a GPCR-like manner to sense environmental signals and it, together with additional proteins of diverse functions, promotes cAMP signaling required for developmental processes underlying appressorium function and pathogenicity.
Highlights
In the rice blast fungus Magnaporthe oryzae, the appressorium is a special infection structure produced by the fungus to penetrate the host plant
The 7-TM domain is considered the hallmark of G-protein coupled receptor (GPCR) proteins, which activate G proteins upon ligand binding and undergo endocytosis for regeneration or recycling
We found that MoRgs7 can form hydrophobic interactions with the hydrophobic surface
Summary
In the rice blast fungus Magnaporthe oryzae, the appressorium is a special infection structure produced by the fungus to penetrate the host plant. M. oryzae contains three distinct Gα subunits (MoMagA, MoMagB, and MoMagC) [3, 4] and other conserved pathway components, such as adenylate cyclase MoMac, cAMP-dependent protein kinase A catalytic subunits MoCpkA, and MoCpk2 [1, 5,6,7] Together, they regulate growth and appressorium formation and pathogenesis. Previous studies found that all these RGS proteins have certain regulatory functions in various aspects of growth and pathogenicity with MoRgs, MoRgs, MoRgs, MoRgs, MoRgs, and MoRgs being mainly involved in appressorium formation and MoRgs, MoRgs, MoRgs, and MoRgs in full virulence [3, 8] Despite such understandings, detailed mechanisms associated with specific RGS proteins remain not fully understood. This function enables plant pathogens to coordinate their metabolism with environment and to develop infection structures [10,11,12], how these GPCRs detect environmental cues remains not clear
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