Two amino acid residues, His274 and Asp375, were replaced singly in the active site of pig citrate synthase (PCS) with Gly274, Arg274, Gly375, Asn375, Glu375, and Gln375. The nonmutant protein and the mutant proteins were expressed in and purified from Escherichia coli, and the effects of these amino acid substitutions on the overall reaction rate and conformation of the PCS protein were studied by initial velocity and full time course kinetic analysis, behavior during affinity column chromatography, and monoclonal antibody reactivity. Native and mutant proteins purified similarly had a subunit molecular weight of 50,000 and were homologous when examined with 10 independent a-PCS monoclonal IgGs or with a polyclonal anti-PHCS serum. No activity was detected for Asn375 or Gln375. The kcats of the other purified mutant proteins, however, were decreased by about 10(3) compared to the nonmutant enzyme activity. The Km for oxalacetate was decreased 10-fold in the Glu375 protein and was reduced by half in Gly274 and Arg274 PCSs, while the Km for acetyl-CoA was decreased 2-3-fold in Gly274, Arg274, and Gln375 PCSs. A mechanism is proposed that electrostatically links His274 and Asp375.
We have expressed the DNA of the fusion of CS1 to MDH1 in Escherichia coli gltA-. The fusion protein (CS1/MDH1) is the C-terminus of CS1 linked in-frame to the N-terminus of MDH1 with a short linker of glycyl-seryl-glycyl. The fusion protein produced was isolated and purified. Gel filtration studies indicated that CS1/MDH1 had a M(r) of approximately 170,000. Western blotting analysis with SDS gel indicated a M(r) of approximately 90,000-95,000 (theoretical M(r) = 87,000). This is the expected M(r) for the fusion protein subunit. The kinetics of CS1 and MDH1 activities of the fusion protein were compared to those of the free enzymes. In addition, the effect of AAT reaction, as a competitor for the intermediate OAA of the coupled MDH-CS reaction, was examined. It was observed that AAT was a less effective competitor for OAA when the CS1/MDH1 fusion protein is used than when the separate enzymes are employed. In addition, the transient time for the coupled reaction sequence was less for the fusion protein than for the free enzymes.
The conformational stabilities of native pig citrate synthase (PCS), a recombinant wild-type PCS, and six active-site mutant pig citrate synthases were studied in thermal denaturation experiments by circular dichroism and in urea denaturation experiments by using DTNB to measure the appearance of latent SH groups. His274 and Asp375 are conserved active-site residues in pig citrate synthase that bind to substrates and are implicated in the catalytic mechanism of the enzyme. By site-directed mutagenesis, His274 was replaced with Gly and Arg, while Asp375 was replaced with Gly, Asn, Glu, or Gln. These modifications were previously shown to result in 10(3)-10(4)-fold reductions in enzyme specific activities. The thermal unfolding of pig citrate synthase and the six mutants in the presence and absence of substrates showed large differences in the thermal stabilities of mutant proteins compared to the wild-type pig citrate synthase. The functions of His274 and Asp375 in ligand binding were measured by oxalacetate protection against urea denaturation. These data indicate that active-site mutations that decrease the specific activity of pig citrate synthase also cause an increase in the conformational stability of the protein. These results suggest that specific electrostatic interactions in the active site of citrate synthase are important in the catalytic mechanism in the chemical transformations as well as the conformational flexibility of the protein, both of which are important for the overall catalytic efficiency of the enzyme.
A cloned complementary DNA sequence has been isolated from a human placental cDNA library in the bacteriophage expression vector Agtll after screening with polyclonal antibodies against human placental aromatasesystem cytochrome P-450 (P-45Or.^). A single recombinant clone, XhAROM1, was characterized by its ability to generate a 3-galactosidase fusion protein that reacted independently with polyclonal antibodies raised against .-galactosidase and cytochrome P-450Arm and with monoclonal antibodies specific for cytochrome P-45OAro. The cDNA insert, which was found to be 1.8 kilobases in length, was radiolabeled and used to analyze poly(A)+ RNA isolated from human placenta and total RNA isolated from human adipose stromal cells cultured in the absence or presence of regulatory factors. The radiolabeled cDNA hybridized to several size species of mRNA in both placental and adipose stromal cell RNA fractions. Changes in the levels of adipose stromal cell RNA that hybridized to the cDNA insert were associated with comparable changes in the levels of translatable cytochrome P-450,om mRNA and aromatase system activity. These rmdings are indicative that XhAROM1 contains DNA sequences complementary to human cytochrome P-450Aom mRNA and are suggestive that regulatory factors affect aromatase activity by altering the transcriptional activity of the cytochrome P-450,,.,m gene.
Acetyl-CoA enol has been proposed as an intermediate in the citrate synthase (CS) reaction with Asp375 acting as a base, removing a proton from the methyl carbon of acetyl-CoA, and His274 acting as an acid, donating a proton to the carbonyl [Karpusas, M., Branchaud, B., & Remington, S.J. (1990) Biochemistry 29, 2213]. CS-oxaloacetate (OAA) complexes with the transition-state analog inhibitor, carboxymethyl-CoA (CMCoA), mimic those with acetyl-CoA enol. Asp375 and His274 interact intimately with the carboxyl of the bound inhibitor. While enzymes in which these residues have been changed to other amino acids have very low catalytic activity, we find that they retain their ability to form complexes with substrates and the transition-state analog inhibitor. In comparison with the value of the chemical shift of the protonated CMCoA carboxyl in acidic aqueous solutions or its value in the wild-type ternary complex, the values in the Asp375 mutants are unusually low. Model studies suggest that these low values result from complete absence of one hydrogen bond partner for the Gly mutant and distortions in the active site hydrogen bond systems for the Glu mutant. The high affinity of Asp375Gly-OAA for CMCoA suggests that the unfavorable proton uptake required to stabilize the CMCoA-OAA ternary complex of the wild-type enzyme [Kurz, L.C., Shah, S., Crane, B.R., Donald, L.J., Duckworth, H.W., & Drysdale, G.R. (1992) Biochemistry (preceding paper in this issue)] is not required by this mutant; the needed proton is most likely provided by His274. This supports the proposed role of His274 as a general acid.(ABSTRACT TRUNCATED AT 250 WORDS)
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