Abstract
RGS9-1 is a GTPase-accelerating protein (GAP) required for rapid recovery of the light response in vertebrate rod and cone photoreceptors. Similar to its phototransduction partners transducin (G(t)) and cGMP phosphodiesterase, it is a peripheral protein of the disc membranes, but it binds membranes much more tightly. It lacks the lipid modifications found on G(t) and cGMP phosphodiesterase, and the mechanism for membrane attachment is unknown. We have used limited proteolysis to generate a fragment of RGS9-1 that is readily removed from membranes under moderate salt conditions. Immunoblots reveal that this soluble fragment lacks a 3-kDa fragment from the C-terminal domain, the only domain within RGS9-1 that differs in sequence from the brain-specific isoform RGS9-2. Recombinant fragments of RGS9-1 with or without the partner subunit G beta(5L) were constructed with or without the C-terminal domain. Those lacking the C-terminal domain bound to photoreceptor membranes much less tightly than those containing it. Removal by urea of G beta(5L) from endogenous or recombinant RGS9-1 bound to rod outer segment membranes left RGS9-1 tightly membrane-bound, and recombinant RGS9-1 was urea-soluble in the absence of membranes. Thus the C-terminal domain of RGS9-1 is critical for membrane binding, whereas G beta(5L) does not play an important role in membrane attachment.
Highlights
Phototransduction in the vertebrate retina occurs on the surfaces of disc membranes in rod and cone outer segments
Limited Proteolysis of Endogenous RGS9 –1—We used limited proteolysis to look for small fragments of RGS9 –1 whose removal would release it from the membranes
When rod outer segment (ROS) membranes were treated for various times with trypsin, papain, and endoproteinase Glu-C and the results were analyzed by SDS-PAGE and RGS9 immunoblots, we found that trypsin rapidly cleaved this highly basic protein into small fragments and that papain rapidly generated a 32-kDa fragment, representing only about one-half of the full-length protein
Summary
R*, photoexcited rhodopsin; PDE, cGMP phosphodiesterase (PDE6); ROS, rod outer segment; lwROS, low salt-washed ROS; hwROS, high salt-washed ROS; uwROS, ureawashed ROS; OG, n-octyl--D-glucopyranoside; DOPC, 1,2-dioleoyl-snglycero-3-phosphocholine; DTT, dithiothreitol; MOPS, 4-morpholinepropanesulfonic acid; GST, glutathione S-transferase. Our results rule out an important role for the entire G5L polypeptide in membrane tethering but indicate clearly that the Cterminal tail of RGS9 –1 plays an essential role in tethering RGS9 –1 and G5L to the membrane. This role of the C-terminal domain may help to explain the need for photoreceptorspecific RNA processing, which leads to one isoform, RGS9 –1, in the retina, and a distinct isoform, RGS9 –2, to be expressed in the brain [13,14,15].
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