PLoS ONE (Nov 2009)

G protein subunit dissociation and translocation regulate cellular response to receptor stimulation.

  • Mariangela Chisari,
  • Deepak Kumar Saini,
  • Joon-Ho Cho,
  • Vani Kalyanaraman,
  • N Gautam

DOI
https://doi.org/10.1371/journal.pone.0007797
Journal volume & issue
Vol. 4, no. 11
p. e7797

Abstract

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We examined the role of G proteins in modulating the response of living cells to receptor activation. The response of an effector, phospholipase C-beta to M3 muscarinic receptor activation was measured using sensors that detect the generation of inositol triphosphate or diacylglycerol. The recently discovered translocation of G betagamma from plasma membrane to endomembranes on receptor activation attenuated this response. A FRET based G protein sensor suggested that in contrast to translocating G betagamma, non-translocating G betagamma subunits do not dissociate from the alpha q subunit on receptor activation leading to prolonged retention of the heterotrimer state and an accentuated response. M3 receptors with tethered alpha q induced differential responses to receptor activation in cells with or without an endogenous translocation capable gamma subunit. G protein heterotrimer dissociation and betagamma translocation are thus unanticipated modulators of the intensity of a cell's response to an extracellular signal.