TY - JOUR
T1 - Interactions of forskolin and ATP with the cytosolic domains of mammalian adenylyl cyclase
AU - Dessauer, Carmen W.
AU - Scully, Tracy T.
AU - Gilman, Alfred G.
PY - 1997/8/29
Y1 - 1997/8/29
N2 - Fragments of the two cytoplasmic domains of mammalian adenylyl cyclases can be Synthesized independently (and abundantly) as soluble proteins; G(sα)- and forskolin-stimulated enzymatic activity is restored upon their mixture. We have utilized this system to characterize the interactions of adenylyl cyclase with forskolin and its substrate, ATP. In the presence of G(sα), adenyly cyclase is activated in response to occupation of only one forskolin-binding site. A single binding site for forskolin was identified by equilibrium dialysis; its K(d) (0.1 μM) corresponds to the EC50 for enzyme activation. The affinity of forskolin for adenylyl cyclase is greatly reduced in the absence of G(sα) (~40 μM). Binding of forskolin to the individual cytoplasmic domains of the enzyme was not detected. A single binding site for the ATP analog, α,β-methylene ATP (Ap(CH2)pp), was also detected by equilibrium dialysis. Such binding was not observed with the individual domains. Binding of Ap(CH2)pp was unaffected by P-site inhibitors of adenylyl cyclase. A modified P-loop sequence located near the carboxyl terminus of adenylyl cyclase has been implicated in ATP binding. Mutation of the conserved, non-glycine residues within this region caused no significant changes in the K(m) for ATP or the K(i) for AP(CH2)pp. It thus seems unlikely that this region is part of the active site. However, a mutation in the C1 domain (E518A) causes a 10-fold decrease in the binding affinity for AP(CH2)pp. This residue and the active site of the enzyme may lie at the interface between the two cytosolic domains.
AB - Fragments of the two cytoplasmic domains of mammalian adenylyl cyclases can be Synthesized independently (and abundantly) as soluble proteins; G(sα)- and forskolin-stimulated enzymatic activity is restored upon their mixture. We have utilized this system to characterize the interactions of adenylyl cyclase with forskolin and its substrate, ATP. In the presence of G(sα), adenyly cyclase is activated in response to occupation of only one forskolin-binding site. A single binding site for forskolin was identified by equilibrium dialysis; its K(d) (0.1 μM) corresponds to the EC50 for enzyme activation. The affinity of forskolin for adenylyl cyclase is greatly reduced in the absence of G(sα) (~40 μM). Binding of forskolin to the individual cytoplasmic domains of the enzyme was not detected. A single binding site for the ATP analog, α,β-methylene ATP (Ap(CH2)pp), was also detected by equilibrium dialysis. Such binding was not observed with the individual domains. Binding of Ap(CH2)pp was unaffected by P-site inhibitors of adenylyl cyclase. A modified P-loop sequence located near the carboxyl terminus of adenylyl cyclase has been implicated in ATP binding. Mutation of the conserved, non-glycine residues within this region caused no significant changes in the K(m) for ATP or the K(i) for AP(CH2)pp. It thus seems unlikely that this region is part of the active site. However, a mutation in the C1 domain (E518A) causes a 10-fold decrease in the binding affinity for AP(CH2)pp. This residue and the active site of the enzyme may lie at the interface between the two cytosolic domains.
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U2 - 10.1074/jbc.272.35.22272
DO - 10.1074/jbc.272.35.22272
M3 - Article
C2 - 9268376
AN - SCOPUS:0030832040
SN - 0021-9258
VL - 272
SP - 22272
EP - 22277
JO - Journal of Biological Chemistry
JF - Journal of Biological Chemistry
IS - 35
ER -