Lookene_2004_J.Biol.Chem_279_49964

Reference

Title : Rapid subunit exchange in dimeric lipoprotein lipase and properties of the inactive monomer - Lookene_2004_J.Biol.Chem_279_49964
Author(s) : Lookene A , Zhang L , Hultin M , Olivecrona G
Ref : Journal of Biological Chemistry , 279 :49964 , 2004
Abstract :

Lipoprotein lipase (LPL), a key enzyme in the metabolism of triglyceride-rich plasma lipoproteins, is a homodimer. Dissociation to monomers leads to loss of activity. Evidence that LPL dimers rapidly exchange subunits was demonstrated by fluorescence resonance energy transfer between lipase subunits labeled with Oregon Green and tetrametylrhodamine, respectively, and also by formation of heterodimers composed of radiolabeled and biotinylated lipase subunits captured on streptavidine-agarose. Compartmental modeling of the inactivation kinetics confirmed that rapid subunit exchange must occur. Studies of activity loss indicated the existence of a monomer that can form catalytically active dimers, but this intermediate state has not been possible to isolate and remains hypothetical. Differences in solution properties and conformation between the stable but catalytically inactive monomeric form of LPL and the active dimers were studied by static light scattering, intrinsic fluorescence, and probing with 4,4'-dianilino-1,1'-binaphtyl-5,5'-disulfonic acid and acrylamide. The catalytically inactive monomer appeared to have a more flexible and exposed structure than the dimers and to be more prone to aggregation. By limited proteolysis the conformational changes accompanying dissociation of the dimers to inactive monomers were localized mainly to the central part of the subunit, probably corresponding to the region for subunit interaction.

PubMedSearch : Lookene_2004_J.Biol.Chem_279_49964
PubMedID: 15385564

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Citations formats

Lookene A, Zhang L, Hultin M, Olivecrona G (2004)
Rapid subunit exchange in dimeric lipoprotein lipase and properties of the inactive monomer
Journal of Biological Chemistry 279 :49964

Lookene A, Zhang L, Hultin M, Olivecrona G (2004)
Journal of Biological Chemistry 279 :49964