Resistance of tropoelastin and elastin peptides to degradation by alpha 2-macroglobulin-protease complexes

When α-ketoglutarate is the substrate, malate is a considerably more effective inhibitor of glutamate dehydrogenase than glutamate, oxalacetate, aspartate, or glutarate. Malate is a considerably poorer inhibitor when glutamate is the substrate. Malate is competitive with α-ketoglutarate, uncompetitive with TPNH, and noncompetitive with glutamate. The above, plus the fact that malate is a considerably more potent inhibitor when TPNH rather than TPN is the coenzyme, indicates that malate is predominantly bound to the α-ketoglutarate site of the enzyme-TPNH complex and has a considerably lower affinity for the enzyme-TPN complex. Ligands which decrease binding of TPNH to the enzyme such as ADP and leucine markedly decrease inhibition by malate. Conversely, GTP, which increases binding of TPNH to the enzyme also enhances inhibition by malate. Malate also decreases interaction between mitochondrial aspartate aminotransferase and glutamate dehydrogenase. This effect of malate on enzyme-enzyme interaction is enhanced by DPNH and GTP which also increase inhibition of glutamate dehydrogenase by malate and is decreased by TPN, ADP, ATP, α-ketoglutarate, and leucine which decrease inhibition of glutamate dehydrogenase by malate. These results indicate that malate could decrease α-ketoglutarate utilization by inhibiting glutamate dehydrogenase and retarding transfer of α-ketoglutarate from the aminotransferase to glutamate dehydrogenase. These effects of malate would be most pronounced when the mitochondrial level of α-ketoglutarate is low and the level of malate and reduced pyridine nucleotide is high.