The Gαq/phospholipase Cβ1 (PLCβ1) signaling system mediates calcium responses from hormones and neurotransmitters. While PLCβ1 functions on the plasma membrane, there is an atypical cytosolic population that binds Argonaute 2 (Ago2) and other proteins associated with stress granules preventing their aggregation. Activation of Gαq relocalizes cytosolic PLCβ1 to the membrane, releasing bound proteins, promoting the formation of stress granules. Here, we have characterized Ago2 stress granules associated with Gαq activation in differentiated PC12 cells, which have a robust Gαq/PLCβ1 signaling system. Characterization of Ago2-associated stress granules shows shifts in protein composition when cells are stimulated with a Gαq agonist, or subjected to heat shock or osmotic stress, consistent with the idea that different stresses result in unique stress granules. Purified Ago2 stress granules from control cells do not contain RNA, while those from heat shock contain many different mRNAs and miRs. Surprisingly, Ago2 particles from cells where Gαq was stimulated show only two transcripts, chromogranin B, which is involved in secretory function, and ATP synthase 5f1b, which is required for ATP synthesis. RT-PCR, western blotting and other studies support the idea that Gαq-activation protects these transcripts. Taken together, these studies show a novel pathway where Gαq/PLCβ regulates the translation of specific proteins.
Hormones and neurotransmitters can activate the Gαq / phospholipase Cβ1 (PLCβ1) signaling system eliciting cellular calcium responses. PLCβ1 also prevents the aggregation of ribosomal and RNA proteins into stress granules, which are halted translation complexes that form in response to cellular stress. Activation of Gαq promotes PLCβ1association releasing bound proteins and promoting the formation of stress granules. However, the cellular impact of stress granules formed from routine Gαq protein signaling is unknown. Here, we have characterized Ago2 stress granules formed in response to Gαq activation in a neuronal-like cell line. We find these stress granule have a distinct protein composition, and unlike stress granules formed under heat stress, contain only two mRNA transcripts, chromogranin B, which is involved in secretory function, and ATP synthase 5f1b, which is required for ATP synthesis. Our studies show an unexpected pathway where Gαq/PLCβ regulates the translation of specific proteins.
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