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  • Biochemistry and pathophysiology of intravascular and intracellular lipolysis.

Biochemistry and pathophysiology of intravascular and intracellular lipolysis.

Genes & development (2013-03-12)
Stephen G Young, Rudolf Zechner
ABSTRACT

All organisms use fatty acids (FAs) for energy substrates and as precursors for membrane and signaling lipids. The most efficient way to transport and store FAs is in the form of triglycerides (TGs); however, TGs are not capable of traversing biological membranes and therefore need to be cleaved by TG hydrolases ("lipases") before moving in or out of cells. This biochemical process is generally called "lipolysis." Intravascular lipolysis degrades lipoprotein-associated TGs to FAs for their subsequent uptake by parenchymal cells, whereas intracellular lipolysis generates FAs and glycerol for their release (in the case of white adipose tissue) or use by cells (in the case of other tissues). Although the importance of lipolysis has been recognized for decades, many of the key proteins involved in lipolysis have been uncovered only recently. Important new developments include the discovery of glycosylphosphatidylinositol-anchored high-density lipoprotein-binding protein 1 (GPIHBP1), the molecule that moves lipoprotein lipase from the interstitial spaces to the capillary lumen, and the discovery of adipose triglyceride lipase (ATGL) and comparative gene identification-58 (CGI-58) as crucial molecules in the hydrolysis of TGs within cells. This review summarizes current views of lipolysis and highlights the relevance of this process to human disease.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Lipase from Candida sp., recombinant, expressed in Aspergillus niger
Sigma-Aldrich
Lipoprotein Lipase from Pseudomonas sp., lyophilized, powder, ≥1200 U/mg
Sigma-Aldrich
Lipoprotein Lipase from Pseudomonas sp., lyophilized, powder, yellow-brown, ≥160 U/mg
Sigma-Aldrich
Lipase from Mucor miehei, powder, slightly brown, ~1 U/mg
Sigma-Aldrich
Lipase from Rhizopus niveus, powder (fine), ≥1.5 U/mg
Sigma-Aldrich
Lipase from Rhizopus oryzae, powder (fine), ~10 U/mg
Sigma-Aldrich
Lipase from porcine pancreas, Type VI-S, ≥20,000 units/mg protein, lyophilized powder
Sigma-Aldrich
Lipase from porcine pancreas, Type II, ≥125 units/mg protein (using olive oil (30 min incubation)), 30-90 units/mg protein (using triacetin)
Sigma-Aldrich
Lipoprotein Lipase from bovine milk, ammonium sulfate suspension, ≥2,000 units/mg protein (BCA)
Sigma-Aldrich
Lipase from Candida rugosa, Type VII, ≥700 unit/mg solid
Sigma-Aldrich
Lipase from Aspergillus oryzae, ≥20,000 U/g
Sigma-Aldrich
Lipase acrylic resin, ≥5,000 U/g, recombinant, expressed in Aspergillus niger
Sigma-Aldrich
Lipase from wheat germ, Type I, lyophilized powder, 5-15 units/mg solid
Sigma-Aldrich
Lipase from Candida rugosa, powder, yellow-brown, ≥2 U/mg
Sigma-Aldrich
Lipase from Mucor miehei, lyophilized powder, ≥4,000 units/mg solid (using olive oil)
Sigma-Aldrich
Lipase from Aspergillus oryzae, lyophilized, powder, white, ~50 U/mg
Sigma-Aldrich
Lipase from Candida rugosa, lyophilized, powder (fine), 15-25 U/mg
Sigma-Aldrich
Lipase from Candida rugosa, lyophilized powder, ≥40,000 units/mg protein
Sigma-Aldrich
Lipase from Aspergillus oryzae, solution, ≥100,000 U/g, white, beige
Sigma-Aldrich
Lipase from Pseudomonas sp., Type XIII, lyophilized powder, ≥15 units/mg solid
Sigma-Aldrich
Lipase B Candida antarctica, recombinant from Aspergillus oryzae, powder, beige, ~9 U/mg
Sigma-Aldrich
Lipase immobilized from Candida antarctica, beads, slightly brown, >2 U/mg
Sigma-Aldrich
Lipase A Candida antarctica, recombinant from Aspergillus oryzae, powder, beige, ~2 U/mg
Sigma-Aldrich
Lipoprotein Lipase from Burkholderia sp., lyophilized powder, ≥50,000 units/mg solid
Sigma-Aldrich
Lipase from Aspergillus niger, powder (fine), ~200 U/g
Sigma-Aldrich
Lipase from Pseudomonas cepacia, powder, light beige, ≥30 U/mg
Sigma-Aldrich
Lipase from Mucor javanicus, lyophilized powder, ≥300 units/mg solid (using olive oil)