Role of the structural domains in the functional properties of pancreatic lipase-related protein 2

Although structurally similar, classic pancreatic lipase (PL) and pancreatic lipase-related protein (PLRP)2, expressed in the pancreas of several species, differ in substrate specificity, sensitivity to bile salts and colipase dependence. In order to investigate the role of the two domains of PLRP2...

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Bibliographic Details
Published in:The FEBS journal 2007-11, Vol.274 (22), p.6011-6023
Main Authors: Berton, Amélie, Sebban-Kreuzer, Corinne, Crenon, Isabelle
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Base Sequence
Binding sites
Biochemistry
Biochemistry, Molecular Biology
chimera
colipase
DNA, Viral
domain
Electrophoresis, Polyacrylamide Gel
Inhibitor drugs
Life Sciences
Lipase
Lipase - chemistry
Lipase - physiology
Lipolysis
Molecular Sequence Data
Pancreas
pancreatic lipase
PLRP2
Protein Conformation
Proteins
Recombinant Fusion Proteins
Recombinant Fusion Proteins - chemistry
Recombinant Fusion Proteins - isolation & purification
Sequence Homology, Amino Acid
Substrates
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Summary:Although structurally similar, classic pancreatic lipase (PL) and pancreatic lipase-related protein (PLRP)2, expressed in the pancreas of several species, differ in substrate specificity, sensitivity to bile salts and colipase dependence. In order to investigate the role of the two domains of PLRP2 in the function of the protein, two chimeric proteins were designed by swapping the N and C structural domains between the horse PL (Nc and Cc domains) and the horse PLRP2 (N2 and C2 domains). NcC2 and N2Cc proteins were expressed in insect cells, purified by one-step chromatography, and characterized. NcC2 displays the same specific activity as PL, whereas N2Cc has the same as that PLRP2. In contrast to N2Cc, NcC2 is highly sensitive to interfacial denaturation. The lipolytic activity of both chimeric proteins is inhibited by bile salts and is not restored by colipase. Only N2Cc is found to be a strong inhibitor of PL activity, due to competition for colipase binding. Active site-directed inhibition experiments demonstrate that activation of N2Cc occurs in the presence of bile salt and does not require colipase, as does PLRP2. The inability of PLRP2 to form a high-affinity complex with colipase is only due to the C-terminal domain. Indeed, the N-terminal domain can interact with the colipase. PLRP2 properties such as substrate selectivity, specific activity, bile salt-dependent activation and interfacial stability depend on the nature of the N-terminal domain.
ISSN:1742-464X
1742-4658
DOI:10.1111/j.1742-4658.2007.06123.x