摘要：

1. 1. The lipid composition of rat liver plasma membranes was substantially altered by introducing synthetic phosphatidylcholines into the membrane by the techniques of lipid substitution or lipid fusion, 40–60% of the total lipid pool in the modified membranes consisted of a synthetic phosphatidylcholine. 2. 2. Lipid substitution, using cholate to equilibrate the lipid pools, resulted in the irreversible loss of a major part of the adenylate cyclase activity stimulated by F −, GMP-P(NH)P or glucagon. However, fusion with presonicated vesicles of the synthetic phosphatidylcholines causes only small losses in adenylate cyclase activity stimulated by the same ligands. 3. 3. The linear form of the Arrhenius plots of adenylate cyclase activity stimulated by F − or GMP-P(NH)P was unaltered in all of the membrane preparations modified by substitution or fusion, with very similar activation energies to those observed with the native membrane. The activity of the enzyme therefore appears to be very insensitive to its lipid environment when stimulated by F − or GMP-P(NH)P. 4. 4. In contrast, the break at 28.5°C in the Arrhenius plot of adenylate cyclase activity stimulated by glucagon in the native membrane, was shifted upwards by dipalmitoyl phosphatidylcholine, downwards by dimyristoyl phosphatidylcholine, and was abolished by dioleoyl phosphatidylcholine. Very similar shifts in the break point were observed for stimulation by glucagon or des-His-glucagon in combination with F − or GMP-P(NH)P. The break temperatures and activation energies for adenylate cyclase activity were the same in complexes prepares with a phosphatidylcholine by fusion or substitution. 5. 5. The breaks in the Arrhenius plots of adenylate cyclase activity are attributed to lipid phase separations which are shifted in the modified membranes according to the transition temperature of the synthetic phosphatidylcholine. Coupling the receptor to the enzyme by glucagon or des-His-glucagon renders the enzyme sensitive to the lipid environment of the receptor. Spin-label experiments support this interpretation and suggest that the lipid phase separation at 28.5°C in the native membrane may only occur in one half of the bilayer.

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