Biology:Glucokinase regulatory protein
glucokinase (hexokinase 4) regulator | |
---|---|
Identifiers | |
Symbol | GCKR |
NCBI gene | 2646 |
HGNC | 4196 |
OMIM | 600842 |
RefSeq | NM_001486 |
UniProt | Q14397 |
Other data | |
Locus | Chr. 2 p23 |
The glucokinase regulatory protein (GKRP) also known as glucokinase (hexokinase 4) regulator (GCKR) is a protein produced in hepatocytes (liver cells). GKRP binds and moves glucokinase (GK), thereby controlling both activity and intracellular location[1][2] of this key enzyme of glucose metabolism.[3]
GKRP is a 68 kD protein of 626 amino acids. It is coded for by a 19 exon gene, GCKR, on the short arm of chromosome 2 (2p23). GKRP was discovered by Emile van Schaftingen and reported in 1989[4]
Physiological function
Glucokinase (GK) in liver cells phosphorylates glucose, preparing it for incorporation into glycogen or for glycolysis. During periods of ample glucose supply, most GK activity can be found in the peripheral cytoplasm where glycogen synthesis is occurring.[5] As the glucose supply declines during periods of fasting, GK activity in the cytoplasm diminishes. GKRP participates in this modulation of GK activity and location by binding free cytoplasmic GK as glucose levels decline, and moving it into the nucleus, where it is held in reserve in an inactive form.[6] As glucose and insulin levels rise, as during digestion of a meal, GK is released from GKRP and moves back to the cytoplasm, where much of it associates with the bifunctional enzyme.[7]
In hepatocytes of various mammals, GKRP has always been found in molar excess of the amount of GK, but the GKRP:GK ratio varies according to diet, insulin sufficiency, and other factors. Free GKRP shuttles between the nucleus and the cytoplasm. It may be attached to the microfilament cytoskeleton.[8]
GKRP competes with glucose to bind with GK, but inactivates it when bound. In conditions of low glucose, GKRP then pulls the GK into the nucleus. Rising amounts of glucose coming into the hepatocyte prompt the GKRP to rapidly release GK to return to the cytoplasm.
GKRP itself is subject to modulation. Fructose and sorbitol can both be converted to fructose-1-phosphate, which inhibits GKRP and frees GK.[1] Fructose 6-phosphate binds to the same site of GKRP, but enhances the ability of GKRP to bind and inactivate GK. In contrast, phosphorylation of GKRP by AMP-activated protein kinase, induced by elevated levels of AMP, reduces its capacity to inactivate GK.[9]
Presence of GKRP in other organs
A presence and role of GKRP in other organs and tissues beyond the liver remains uncertain. Some researchers have finding small amounts of GKRP, or at least RNA coding for it, in small amounts in certain rat lung cells, in pancreatic islet cells, and in periventricular neurons of the hypothalamus in rats,[10] but physiological function and significance in these organs are unknown.
Species differences
GKRP was originally discovered in rat liver. GKRP was found to serve a similar function in livers of mice and humans as well as other animals.[11] Cats are unusual in lacking GK activity, and have also been found to lack GKRP, though the genes for both GK and GKRP can be identified in the feline genome.[12]
Clinical significance
Many mutant forms of human GK are associated with impaired or amplified insulin secretion or action, resulting in higher or lower blood glucose levels, and either diabetes (MODY2) or hyperinsulinemic hypoglycemia, respectively. Some of these variants have altered interaction with GKRP, which may contribute to the hyperglycemia.[13][14][15][16]
The glucokinase of "knockout mice" who lack GKRP has a reduced expression and is entirely found in the cytoplasm. The knockout mice do not respond rapidly to glucose, exhibiting impaired glucose tolerance.[17] Mutations of the GKRP gene (GCKR) in humans have been sought as possible causes of monogenic diabetes (MODY), but no examples have yet been discovered. However, variant forms of GCKR have been found to be associated with small differences in levels of glucose, insulin, triglycerides, C-reactive protein, and higher or lower risks for type 2 diabetes mellitus.[18][19][20][21]
Activators of GK are being investigated as possible medicines for type 2 diabetes. One of the mechanisms of activation may be protection from binding by GKRP.[22]
References
- ↑ 1.0 1.1 "Short-term regulation of glucokinase". Diabetologia 37 (Suppl 2): S43-7. September 1994. doi:10.1007/bf00400825. PMID 7821739.
- ↑ "Glucokinase regulatory protein is essential for the proper subcellular localisation of liver glucokinase". FEBS Letters 456 (2): 332–8. August 1999. doi:10.1016/S0014-5793(99)00971-0. PMID 10456334.
- ↑ "Molecular physiology of mammalian glucokinase". Cellular and Molecular Life Sciences 66 (1): 27–42. January 2009. doi:10.1007/s00018-008-8322-9. PMID 18726182.
- ↑ "A protein from rat liver confers to glucokinase the property of being antagonistically regulated by fructose 6-phosphate and fructose 1-phosphate". European Journal of Biochemistry 179 (1): 179–84. January 1989. doi:10.1111/j.1432-1033.1989.tb14538.x. PMID 2917560.
- ↑ "Substrate-induced nuclear export and peripheral compartmentalization of hepatic glucokinase correlates with glycogen deposition". International Journal of Experimental Diabetes Research 2 (3): 173–86. 2001. doi:10.1155/EDR.2001.173. PMID 12369705.
- ↑ "Nuclear import of hepatic glucokinase depends upon glucokinase regulatory protein, whereas export is due to a nuclear export signal sequence in glucokinase". The Journal of Biological Chemistry 274 (52): 37125–30. December 1999. doi:10.1074/jbc.274.52.37125. PMID 10601273.
- ↑ "Dual role of phosphofructokinase-2/fructose bisphosphatase-2 in regulating the compartmentation and expression of glucokinase in hepatocytes". Diabetes 54 (7): 1949–57. July 2005. doi:10.2337/diabetes.54.7.1949. PMID 15983194. http://diabetes.diabetesjournals.org/cgi/pmidlookup?view=long&pmid=15983194.
- ↑ "Discovery and role of glucokinase regulatory protein". in Glucokinase And Glycemic Disease: From Basics to Novel Therapeutics (Frontiers in Diabetes). S. Karger AG (Switzerland). 2004. pp. 197–307. ISBN 978-3-8055-7744-1.
- ↑ "Inhibition of glucokinase translocation by AMP-activated protein kinase is associated with phosphorylation of both GKRP and 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase". American Journal of Physiology. Regulatory, Integrative and Comparative Physiology 294 (3): R766-74. March 2008. doi:10.1152/ajpregu.00593.2007. PMID 18199594.
- ↑ "Evidence that glucokinase regulatory protein is expressed and interacts with glucokinase in rat brain". Journal of Neurochemistry 80 (1): 45–53. January 2002. doi:10.1046/j.0022-3042.2001.00677.x. PMID 11796742.
- ↑ "A hepatic protein modulates glucokinase activity in fish and avian liver: a comparative study". Journal of Comparative Physiology B: Biochemical, Systemic, and Environmental Physiology 179 (5): 643–52. July 2009. doi:10.1007/s00360-009-0346-4. PMID 19247671.
- ↑ "Lack of glucokinase regulatory protein expression may contribute to low glucokinase activity in feline liver". Veterinary Research Communications 33 (3): 227–40. March 2009. doi:10.1007/s11259-008-9171-6. PMID 18780155.
- ↑ "Cell biology assessment of glucokinase mutations V62M and G72R in pancreatic beta-cells: evidence for cellular instability of catalytic activity". Diabetes 56 (7): 1773–82. July 2007. doi:10.2337/db06-1151. PMID 17389332.
- ↑ "Functional analysis of human glucokinase gene mutations causing MODY2: exploring the regulatory mechanisms of glucokinase activity". Diabetologia 50 (2): 325–33. February 2007. doi:10.1007/s00125-006-0542-7. PMID 17186219.
- ↑ "Biochemical basis of glucokinase activation and the regulation by glucokinase regulatory protein in naturally occurring mutations". The Journal of Biological Chemistry 281 (52): 40201–7. December 2006. doi:10.1074/jbc.M607987200. PMID 17082186.
- ↑ "Glucokinase thermolability and hepatic regulatory protein binding are essential factors for predicting the blood glucose phenotype of missense mutations". The Journal of Biological Chemistry 282 (18): 13906–16. May 2007. doi:10.1074/jbc.M610094200. PMID 17353190.
- ↑ "Characterization of glucokinase regulatory protein-deficient mice". The Journal of Biological Chemistry 275 (11): 7826–31. March 2000. doi:10.1074/jbc.275.11.7826. PMID 10713097.
- ↑ "Novel polymorphisms in the GCKR gene and their influence on glucose and insulin levels in a Danish twin population". Diabetic Medicine 22 (12): 1677–82. December 2005. doi:10.1111/j.1464-5491.2005.01700.x. PMID 16401311.
- ↑ "Common missense variant in the glucokinase regulatory protein gene is associated with increased plasma triglyceride and C-reactive protein but lower fasting glucose concentrations". Diabetes 57 (11): 3112–21. November 2008. doi:10.2337/db08-0516. PMID 18678614.
- ↑ "Interaction effect of genetic polymorphisms in glucokinase (GCK) and glucokinase regulatory protein (GCKR) on metabolic traits in healthy Chinese adults and adolescents". Diabetes 58 (3): 765–9. March 2009. doi:10.2337/db08-1277. PMID 19073768.
- ↑ "Association of rs780094 in GCKR with metabolic traits and incident diabetes and cardiovascular disease: the ARIC Study". PLOS ONE 5 (7): e11690. July 2010. doi:10.1371/journal.pone.0011690. PMID 20661421. Bibcode: 2010PLoSO...511690B.
- ↑ "An allosteric activator of glucokinase impairs the interaction of glucokinase and glucokinase regulatory protein and regulates glucose metabolism". The Journal of Biological Chemistry 281 (49): 37668–74. December 2006. doi:10.1074/jbc.M605186200. PMID 17028192.
Original source: https://en.wikipedia.org/wiki/Glucokinase regulatory protein.
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