Contreras-Ferrat 2014 Abstract MiP2014: Difference between revisions
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{{Abstract | {{Abstract | ||
|title=Insulin increases mitochondrial calcium levels regulating both mitochondrial function and intracellular signaling in muscle; this effect is disrupted in fibers from short-term high fat diet fed mice. Mitochondr Physiol Network 19.13. | |title=Insulin increases mitochondrial calcium levels regulating both mitochondrial function and intracellular signaling in muscle; this effect is disrupted in fibers from short-term high fat diet fed mice. Mitochondr Physiol Network 19.13. | ||
|info= | |info= [http://www.mitophysiology.org/index.php?mip2014 MiP2014], [[Laner 2014 Mitochondr Physiol Network MiP2014|Book of Abstracts Open Access]] | ||
|authors=Contreras-Ferrat A, Llanos P, Meza C, Utreras Y, | |authors=Contreras-Ferrat A, Llanos P, Meza C, Utreras Y, Diaz A, Arias M, Jaimovich E | ||
|year=2014 | |year=2014 | ||
|event=MiP2014 | |event=MiP2014 |
Latest revision as of 16:12, 15 February 2016
Insulin increases mitochondrial calcium levels regulating both mitochondrial function and intracellular signaling in muscle; this effect is disrupted in fibers from short-term high fat diet fed mice. Mitochondr Physiol Network 19.13. |
Link: MiP2014, Book of Abstracts Open Access
Contreras-Ferrat A, Llanos P, Meza C, Utreras Y, Diaz A, Arias M, Jaimovich E (2014)
Event: MiP2014
Mitochondrial function rapidly responds to high energy food supply in order to deal with the supply, but the role of mitochondrial Ca2+ in these processes is not yet understood [1]. High-fat fed mice quickly gain weight while concomitantly developing insulin resistance in skeletal muscle [2,3]. For obesity, inappropriate lipid deposition in human skeletal muscle and a concomitant reduction in the ability of cells to completely oxidize lipids have been described [4].
Male C57BL/6J mice were fed either a normal chow diet (NCD) or a high fat diet (HFD) for one or eight weeks. Insulin resistance was evaluated by IPGTT, fasting glucose and insulin, and HOMA-IR. GLUT4myc-eGFP was electroporated in the Flexor digitorum brevis muscle (FDB). Insulin induces an increase in cytoplasmic and mitochondrial Ca2+ in adult fibers. The uncoupler FCCP releases Ca2+ from mitochondria to cytoplasm. Insulin-dependent mitochondrial Ca2+ uptake is decreased in fibers from short-term HFD fed mice, while insulin-dependent cytoplasmic Ca2+ increase appear to be faster and stronger. In fibers from NCD fed mice, insulin-dependent mitochondrial Ca2+ uptake was inhibited by xestospongin B, a specific inhibitor of inositol-1,4,5-trisphosphate receptor. Using TMRE+ in the non-quenching mode (5 nM), we found that ΞΞ¨mt was larger in fibers from short-term HFD fed mice in comparison to NCD derived fibers. Using TMRE+ in quenching mode (100 nM), we found that TMRE+, released after uncoupler stimuli, was higher in fibers from short-term HFD fed mice than in NCD fed mice. The glucose analogue (2-NBDG) uptake and the redistribution of GLUT4myceGFP, induced by insulin, were decreased in the presence of xestospongin or ruthenium red (MCU inhibitor). This effect suggests a retrograde regulation of insulin signaling by mitochondrial Ca2+ uptake.
Labels: MiParea: Exercise physiology;nutrition;life style Pathology: Diabetes
Organism: Mouse Tissue;cell: Skeletal muscle Preparation: Intact cells
Regulation: Calcium, Uncoupler
Event: C3, Oral MiP2014
Affiliation
1-Center Molec Studies of the Cell, Fac Medicina; 2-Inst Research Dental Sc, Fac OdontologΓa, Univ Chile; Santiago, Chile. - acontreras@med.uchile.cl
References and acknowledgements
Financed by FONDECYT 11130267, ACT1111.
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- Lessard SJ, Rivas DA, Chen ZP, Bonen A, Febbraio MA, Reeder DW (2007) Tissue specific effects of rosiglitazone and exercise in the treatment of lipid-induced insulin resistance. Diabetes 56:1856-64.
- Yaspelkis BB, Lessard SJ, Reeder DW, Limon JJ, Saito M, Rivas DA (2007) Exercise reverses high-fat diet-induced impairments on compartmentalization and activation of components of the insulin-signaling cascade in skeletal muscle. Am J Physiol Endocrinol Metab 293: E941-9.
- Bell JA, Reed MA, Consitt LA, Martin OJ, Haynie KR, Hulver MW (2010) Lipid partitioning, incomplete fatty acid oxidation, and insulin signal transduction in primary human muscle cells: effects of severe obesity, fatty acid incubation, and fatty acid translocase/CD36 overexpression. J Clin Endocrinol Metab 95: 3400-10.