Renal cortical mitochondrial aconitase is regulated in hypo- and hypercitraturia.
BACKGROUND: Chronic metabolic acidosis and K+ deficiency increase, while alkali feeding decreases proximal tubule citrate absorption and metabolism. The present studies examined the regulation of mitochondrial aconitase (m-aconitase), the first step in mitochondrial citrate metabolism, in these conditions. METHODS: Rats were fed appropriate diets, and m-aconitase activity and protein abundance measured. RESULTS: In chronic metabolic acidosis and chronic K+ deficiency, renal cortical m-aconitase activity was increased 17% and 43%, respectively. This was associated with respective 90% and 221% increases in renal cortical m-aconitase protein abundance. With chronic alkali feeding, there was a 12% decrease in renal cortical m-aconitase activity, associated with a 35% decrease in m-aconitase protein abundance. Hepatic m-aconitase activity was not regulated in a similar manner. There was no regulation of citrate synthase, the enzyme responsible for mitochondrial citrate synthesis. CONCLUSIONS: These studies demonstrate tissue specific chronic regulation of renal cortical m-aconitase activity and protein abundance, which likely contributes to the hypocitraturia and hypercitraturia seen in these conditions. As m-aconitase is the only step in citrate transport and metabolism found to be regulated in alkali feeding, its regulation likely plays a significant role in mediating the hypercitraturia seen in this condition.[1]References
- Renal cortical mitochondrial aconitase is regulated in hypo- and hypercitraturia. Melnick, J.Z., Preisig, P.A., Moe, O.W., Srere, P., Alpern, R.J. Kidney Int. (1998) [Pubmed]
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