Mitochondrial NADP-dependent malic enzyme of cod heart. Rate of forward and reverse reaction

Bioenergetics of fish spermatozoa with focus on some herring (Clupea harengus) enzymes

Herring (Clupea harengus) shows the unique behavior of reproductive biology in which spermatozoa remains in the surrounding media for extended periods. It is an excellent model for studying the malic enzyme (ME) and creatine kinase (CK) biochemical properties because of their high activity and variability of molecular isoforms. The specific activity of NAD-preferring ME in herring spermatozoa is the highest among other fish spermatozoa and is localized in its large mitochondrion. Two different CK isoforms, dimer and octamer, were detected in herring spermatozoa. It has already been shown that CK isoforms play an important role in energy homeostasis by catalyzing a reversible transfer of the phosphate of ATP to creatine to yield ADP and creatine phosphate (CP) (creatine/CP circuit). Two lactate dehydrogenase (LDH) isoenzymes were also shown in herring spermatozoa, LDH-B4 and LDH-A2B2. In this mini-review, the role of ME and energy transport system with easily diffusible creatine and CP in herring spermatozoa is discussed.

Influential factor contributing to the isoform-specific inhibition by ATP of human mitochondrial NAD(P)+-dependent malic enzyme: functional roles of the nucleotide binding site Lys346

Human mitochondrial NAD(P)(+)-dependent malic enzyme (m-NAD-ME) is a malic enzyme isoform with dual cofactor specificity, ATP inhibition and substrate cooperativity. The determinant of ATP inhibition in malic enzyme isoforms has not yet been identified. Sequence alignment of nucleotide-binding sites of ME isoforms revealed that Lys346 is conserved uniquely in m-NAD-ME. In other ME isoforms, this residue is serine. As the inhibitory effect of ATP is more pronounced on m-NAD-ME than on other ME isoforms, we have examined the possible role of Lys346 by replacing it to alanine, serine or arginine. Our kinetic data indicate that the K346S mutant enzyme displays a shift in its cofactor preference from NAD(+) to NADP(+) upon increasing k(cat,NADP) and decreasing K(m,NADP). Furthermore, the cooperative binding of malate becomes less significant in human m-NAD-ME after mutation of Lys346. The h value for the wild-type is close to 2, but those of the K346 mutants are approximately 1.5. The K346 mutants can also be activated by fumarate and the cooperative effect can be abolished by fumarate, suggesting that the allosteric property is retained in these mutants. Our data strongly suggest that Lys346 in human m-NAD-ME is required for ATP inhibition. Mutation of Lys346 to Ser or Ala causes the enzyme to be much less sensitive to ATP, similar to cytosolic NADP-dependent malic enzyme. Substitution of Lys to Arg did not change the isoform-specific inhibition of the enzyme by ATP. The inhibition constants of ATP are increased for K346S and K346A, but are similar to those of the wild-type for K346R, suggesting that the positive charge rather than group specificity is required for binding affinity of ATP. Thus, ATP inhibition is proposed to be determined by the electrostatic potential involving the positive charge on the side chain of Lys346.

Differential regulation of intestinal lipid metabolism-related genes in obesity-resistant A/J vs. obesity-prone C57BL/6J mice

The effects of high-fat (HF) feeding on gene expression in the small intestine were examined using obesity-resistant A/J mice and obesity-prone C57BL/6J (B6) mice. Both strains of mice were maintained on low-fat (LF; 5% fat) or HF (30% fat) diets for 2 wk. Quantitative reverse transcription-PCR analysis revealed that lipid metabolism-related genes, including carnitine palmitoyltransferase (CPT) I, liver fatty acid binding protein, pyruvate dehydrogenase kinase-4, and NADP(+)-dependent cytosolic malic enzyme, were upregulated by HF feeding in both strains of mice. The upregulated gene expression levels were higher in A/J mice than in B6 mice, suggesting more active lipid metabolism in the small intestine of A/J mice. The prominent upregulation of the lipid metabolism-related genes were specific to the small intestine; the expression levels were little or unchanged in the liver, muscle, and white adipose tissue. The increase by HF feeding and predominant expression of the intestinal lipid metabolism-related genes in A/J mice were reflected in the enzyme activities; malic enzyme, CPT, and beta-oxidation activities were increased by HF feeding, and the upregulated malic enzyme and CPT activities were significantly higher in obesity-resistant A/J mice compared with those in obesity-prone B6 mice. These findings suggest that intestinal lipid metabolism is associated with susceptibility to obesity.

Purification, cDNA cloning and heterologous expression of the human mitochondrial NADP(+)-dependent malic enzyme

Mitochondrial NADP(+)-dependent malic enzyme (ME; EC 1.1.1.39) has been purified to homogeneity and characterized kinetically from bovine heart. Partial amino acid sequence information allowed amplification of a specific bovine cDNA, which was used to isolate a full-length human cDNA of this isoform of ME. The cDNA is 1930 bp long and codes for a protein of 604 amino acids. Comparison of the amino acid sequence of this isoform with published sequences of other human ME isoforms shows stretches of homology interrupted by larger regions with significant differences. The human protein has been expressed in Escherichia coli, and the recombinant human protein has the same kinetic properties as the corresponding protein purified from bovine heart. Northern blot analysis showed a strong tissue-specific transcription with a predominantly high expression-rate in organs with a low division-rate.