Radovic_2016_Diabetologia_59_1743

Reference

Title : Lysosomal acid lipase regulates VLDL synthesis and insulin sensitivity in mice - Radovic_2016_Diabetologia_59_1743
Author(s) : Radovic B , Vujic N , Leopold C , Schlager S , Goeritzer M , Patankar JV , Korbelius M , Kolb D , Reindl J , Wegscheider M , Tomin T , Birner-Gruenberger R , Schittmayer M , Groschner L , Magnes C , Diwoky C , Frank S , Steyrer E , Du H , Graier WF , Madl T , Kratky D
Ref : Diabetologia , 59 :1743 , 2016
Abstract :

AIMS/HYPOTHESIS: Lysosomal acid lipase (LAL) hydrolyses cholesteryl esters and triacylglycerols (TG) within lysosomes to mobilise NEFA and cholesterol. Since LAL-deficient (Lal (-/-) ) mice suffer from progressive loss of adipose tissue and severe accumulation of lipids in hepatic lysosomes, we hypothesised that LAL deficiency triggers alternative energy pathway(s).
METHODS: We studied metabolic adaptations in Lal (-/-) mice.
RESULTS: Despite loss of adipose tissue, Lal (-/-) mice show enhanced glucose clearance during insulin and glucose tolerance tests and have increased uptake of [(3)H]2-deoxy-D-glucose into skeletal muscle compared with wild-type mice. In agreement, fasted Lal (-/-) mice exhibit reduced glucose and glycogen levels in skeletal muscle. We observed 84% decreased plasma leptin levels and significantly reduced hepatic ATP, glucose, glycogen and glutamine concentrations in fed Lal (-/-) mice. Markedly reduced hepatic acyl-CoA concentrations decrease the expression of peroxisome proliferator-activated receptor alpha (PPARalpha) target genes. However, treatment of Lal (-/-) mice with the PPARalpha agonist fenofibrate further decreased plasma TG (and hepatic glucose and glycogen) concentrations in Lal (-/-) mice. Depletion of hepatic nuclear factor 4alpha and forkhead box protein a2 in fasted Lal (-/-) mice might be responsible for reduced expression of microsomal TG transfer protein, defective VLDL synthesis and drastically reduced plasma TG levels. CONCLUSIONS/INTERPRETATION: Our findings indicate that neither activation nor inactivation of PPARalpha per se but rather the availability of hepatic acyl-CoA concentrations regulates VLDL synthesis and subsequent metabolic adaptations in Lal (-/-) mice. We conclude that decreased plasma VLDL production enhances glucose uptake into skeletal muscle to compensate for the lack of energy supply.

PubMedSearch : Radovic_2016_Diabetologia_59_1743
PubMedID: 27153842

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Radovic B, Vujic N, Leopold C, Schlager S, Goeritzer M, Patankar JV, Korbelius M, Kolb D, Reindl J, Wegscheider M, Tomin T, Birner-Gruenberger R, Schittmayer M, Groschner L, Magnes C, Diwoky C, Frank S, Steyrer E, Du H, Graier WF, Madl T, Kratky D (2016)
Lysosomal acid lipase regulates VLDL synthesis and insulin sensitivity in mice
Diabetologia 59 :1743

Radovic B, Vujic N, Leopold C, Schlager S, Goeritzer M, Patankar JV, Korbelius M, Kolb D, Reindl J, Wegscheider M, Tomin T, Birner-Gruenberger R, Schittmayer M, Groschner L, Magnes C, Diwoky C, Frank S, Steyrer E, Du H, Graier WF, Madl T, Kratky D (2016)
Diabetologia 59 :1743