Biology:Pyruvate cycling

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Pyruvate cycling commonly refers to an intracellular loop of spatial movements and chemical transformations involving pyruvate. Spatial movements occur between mitochondria and cytosol and chemical transformations create various Krebs cycle intermediates. In all variants, pyruvate is imported into the mitochondrion for processing through part of the Krebs cycle. In addition to pyruvate, alpha-ketoglutarate may also be imported. At various points, the intermediate product is exported to the cytosol for additional transformations and then re-imported. Three specific pyruvate cycles are generally considered,[1] each named for the principal molecule exported from the mitochondrion: malate, citrate, and isocitrate. Other variants may exist, such as dissipative or "futile" pyruvate cycles.[2][3] This cycle is usually studied in relation to Glucose Stimulated Insulin Secretion ( or GSIS ) and there is thought to be a relationship between the insulin response and NADPH produced from this cycle[4][5] but the specifics are not clear and particular confusion exists about the role of malic enzymes.[6][7] It has been observed in various cell types including islet cells.

The pyruvate-malate cycle was described in liver and kidney preparations as early as 1971.[8]


References

  1. "A pyruvate cycling pathway involving cytosolic NADP-dependent isocitrate dehydrogenase regulates glucose-stimulated insulin secretion". The Journal of Biological Chemistry 281 (41): 30593–602. October 2006. doi:10.1074/jbc.M511908200. PMID 16912049. 
  2. "Stimulation by thyroid hormone of coupled respiration and of respiration apparently not coupled to the synthesis of ATP in rat hepatocytes". The Journal of Biological Chemistry 267 (13): 8903–8. May 1992. doi:10.1016/S0021-9258(19)50365-9. PMID 1577728. http://www.jbc.org/cgi/pmidlookup?view=long&pmid=1577728. 
  3. "The contribution of pyruvate cycling to loss of 6-3Hglucose during conversion of glucose to glycogen in hepatocytes: effects of insulin, glucose and acinar origin of hepatocytes". The Biochemical Journal 289 (Pt 1): 255–62. January 1993. doi:10.1042/bj2890255. PMID 8380985. 
  4. "Chapter 24 Investigating the Roles of Mitochondrial and Cytosolic Malic Enzyme in Insulin Secretion". Mitochondrial Function, Part B: Mitochondrial Protein Kinases, Protein Phosphatases and Mitochondrial Diseases. Methods in Enzymology. 457. 2009. pp. 425–50. doi:10.1016/S0076-6879(09)05024-1. ISBN 978-0-12-374622-1. 
  5. "A role for ATP-citrate lyase, malic enzyme, and pyruvate/citrate cycling in glucose-induced insulin secretion". The Journal of Biological Chemistry 282 (49): 35657–65. December 2007. doi:10.1074/jbc.M707294200. PMID 17928289. 
  6. "Silencing of Cytosolic or Mitochondrial Isoforms of Malic Enzyme Has No Effect on Glucose-stimulated Insulin Secretion from Rodent Islets". The Journal of Biological Chemistry 283 (43): 28909–17. October 2008. doi:10.1074/jbc.M804665200. PMID 18755687. 
  7. "Role for malic enzyme, pyruvate carboxylation, and mitochondrial malate import in glucose-stimulated insulin secretion". American Journal of Physiology. Endocrinology and Metabolism 296 (6): E1354–62. June 2009. doi:10.1152/ajpendo.90836.2008. PMID 19293334. 
  8. "The involvement of pyruvate cycling in the metabolism of aspartate and glycerate by the perfused rat kidney". The Biochemical Journal 237 (3): 691–8. August 1986. doi:10.1042/bj2370691. PMID 3800911. 

Further reading

External links