Mutagenesis in four candidate heparin binding regions (residues 279-282, 291-304, 390-393, and 439-448) and identification of residues affecting heparin binding of human lipoprotein lipase.

Lipoprotein lipase (LPL) interaction with membrane-associated polyanions is a critical component of normal catalytic function. Two strong candidate binding regions, rich in arginine and lysine residues, have been defined in the N-terminal domain (aa279-282 and aa292-304) that show homology to the heparin-binding consensus sequences -X-B-B-X-B-X- and -X-B-B-B-X-X-B-X-, respectively. Additional candidate regions appear in the C-terminal domain, (residues 390-393), which are homologous to the thrombospondin heparin-binding repeat, and the positively charged terminal decapeptide (residues 439-448). To determine residues and domains critical to heparin binding, we have generated different LPL mutants that have alanine substitutions of single arginine and lysine residues and sequence interchanges with the homologous hepatic (HL) and pancreatic (PL) lipases. The mutant cDNAs were expressed in COS-1 cells and catalytically active mutants were assessed for binding to heparin-Sepharose. All the alanine substitutions within the two regions homologous to the heparin-binding consensus sequences in the N-terminal domain either abolished activity or produced a lowering of heparin binding affinity. None of the mutants in the C-terminal domain of LPL showed a loss of activity or a reduction in heparin binding affinity. These data demonstrate that charged residues at positions 279-282 and 292-304 of LPL are important for heparin binding affinity whereas the residues 390-393 and 439-448 in the C-terminal domain are not involved in heparin binding.