Regulation of rat AMP deaminase 3 (isoform C) by development and skeletal muscle fibre type.

AMP deaminase (AMPD) is characterized by a multigene family in rodents and man. Highly conserved rat and human AMPD1 and AMPD2 genes produce protein products that exhibit cross-species immunoreactivities (AMPD1, rat isoform A and human isoform M; AMPD2, rat isoform B and human isoform L). A third gene, AMPD3, has been described in humans, but antisera raised against its purified protein product (isoform E) reportedly does not cross-react with a third activity purified from rat tissues (isoform C). This study was designed to address this latter issue by cloning, sequencing and expressing rat AMPD3 cDNA species. Similarly to the human AMPD3 gene, the rat AMPD3 gene produces multiple transcripts that differ at or near their 5' ends. The boundary at which these alternative sequences diverge is precisely conserved in both species. Across the region that is common to all rat and human AMPD3 cDNA species, nucleotide and predicted amino acid sequences are 89% and 93% identical respectively, although the rat open reading frame is lacking two separate in-frame codons in the 5' end. Extreme 5' regions between the two species are entirely divergent, and one alternative rat sequence is predicted to confer at least 36 additional N-terminal residues to its encoded AMPD3 polypeptide. A comparison of 3' untranslated regions indicates that the rat sequence is 250 bp longer and contains multiple consensus polyadenylation signals. Examination of relative rat AMPD3 gene expression shows (1) variable patterns of alternative mRNA abundance across adult tissues, (2) developmental regulation in skeletal muscle and liver, and (3) greater mRNA abundance in adult red (soleus) than in mixed (plantaris) and white (outer gastrocnemius) skeletal muscle. Finally, baculoviral expression of rat and human AMPD3 proteins produces enzymes that are chromatographically and kinetically similar. Moreover, both recombinant activities immunoreact with anti-C and anti-E serum. These combined results demonstrate that rat isoform C and human isoform E are homologous cross-species AMPD3 proteins.

Identification and functional characterization of an active-site lysine in mevalonate kinase.

We report the construction of an expression plasmid for rat mevalonate kinase and the overexpression of recombinant enzyme in Escherichia coli. The homogeneous enzyme had a specific activity of 30 units/mg and an observed subunit molecular mass of 42 kDa. The Michaelis constants (Km) for DL-potassium mevalonate (288 microM) and for ATP (1.24 mM) were in agreement with values reported for enzymes isolated from rat liver (Tanaka, R. D., Schafer, B. L., Lee, L. Y., Freudenberger, J. S., and Mosley, S. T. (1990) J. Biol. Chem. 265, 2391-2398). Recombinant rat mevalonate kinase was inactivated by the lysine-specific reagent, pyridoxal phosphate (PLP). ATP (5 mM) afforded protection against inactivation, suggesting reaction of PLP with an active-site lysine. Mapping, isolation, and Edman degradation of the ATP-protectable peptide from [3H]PLP-inactivated borohydride-reduced mevalonate kinase allow assignment of lysine 13, a residue invariant in known mevalonate kinase sequences, as the modification site. These results represent the first identification of an active-site residue in mevalonate kinase. The function of lysine 13 was evaluated by replacing this residue with methionine. Vm of the mutant protein is diminished by 56-fold, suggesting that lysine 13 facilitates catalysis. Kd values of wild-type and mutant proteins for ATP were determined in electron spin resonance competition experiments. The observed 56-fold diminution in affinity for the mutant enzyme supports an additional role for lysine 13 in stabilization of ATP binding.