B S Vallée

Publications (3)6.18 Total impact

• Article: Peptides corresponding to the N- and C-terminal parts of PEBP are well-structured in solution: new insights into their possible interaction with partners in vivo.

  B S Vallée, G Coadou, H Labbé, D Sy, F Vovelle, F Schoentgen
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  ABSTRACT: Recently, it has been shown that mammalian PEBPs are implicated in several signalling pathways controlling the cellular cycle. In particular, during brain development, the N-terminal part of mammalian PEBP is specifically cleaved and the resulting 11 amino acid peptide stimulates the growth and activity of acetylcholinergic neurons. The crystallographic structure of bovine and human PEBPs has revealed that their N- and C-terminal parts are accessible and exposed to the solvent suggesting that they may be involved in specific interactions with cellular partners. We have chemically synthetized the two peptides corresponding to these terminal parts and studied their structure in solution by circular dichroism and NMR spectroscopies: both of them are well-structured. The N-terminal peptide is composed of a series of turns, leading to a hook conformation. The C-terminal peptide displays a globally helical conformation similar to that observed in the whole protein; it is characterized by an amphipatic feature with a hydrophobic cluster located on one side. These structural features enlighten previous fluorescence and monolayer experiments and give new insights on the roles of both PEBP termini.
  European Journal of Allergy and Clinical Immunology 03/2003; 61(2):47-57. · 1.30 Impact Factor
• Article: Peptides corresponding to the N‐ and C‐terminal parts of PEBP are well‐structured in solution: new insights into their possible interaction with partners in vivo

  B.S. Vallée, G. Coadou, H. Labbé, D. Sy, F. Vovelle, F. Schoentgen
  [show abstract] [hide abstract]
  ABSTRACT:   Recently, it has been shown that mammalian PEBPs are implicated in several signalling pathways controlling the cellular cycle. In particular, during brain development, the N-terminal part of mammalian PEBP is specifically cleaved and the resulting 11 amino acid peptide stimulates the growth and activity of acetylcholinergic neurons. The crystallographic structure of bovine and human PEBPs has revealed that their N- and C-terminal parts are accessible and exposed to the solvent suggesting that they may be involved in specific interactions with cellular partners. We have chemically synthetized the two peptides corresponding to these terminal parts and studied their structure in solution by circular dichroism and NMR spectroscopies: both of them are well-structured. The N-terminal peptide is composed of a series of turns, leading to a hook conformation. The C-terminal peptide displays a globally helical conformation similar to that observed in the whole protein; it is characterized by an amphipatic feature with a hydrophobic cluster located on one side. These structural features enlighten previous fluorescence and monolayer experiments and give new insights on the roles of both PEBP termini.
  European Journal of Allergy and Clinical Immunology 01/2003; 61(2):47 - 57. · 1.30 Impact Factor
• Article: Behaviour of bovine phosphatidylethanolamine-binding protein with model membranes. Evidence of affinity for negatively charged membranes.

  B S Vallée, P Tauc, J C Brochon, R Maget-Dana, D Lelièvre, M H Metz-Boutigue, N Bureaud, F Schoentgen
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  ABSTRACT: The ability of phosphatidylethanolamine-binding protein (PEBP) to bind membranes was tested by using small and large unilamellar vesicles and monolayers composed of l-alpha-1,2-dimyristoylphosphatidylcholine, l-alpha-1,2-dimyristoylphosphatidylglycerol and l-alpha-1,2-dimyristoylphosphatidylethanolamine. PEBP only bound to model membranes containing l-alpha-1,2-dimyristoylphosphatidylglycerol; the interaction was primarily due to electrostatic forces between the basic protein and the acidic phospholipids. Further experiments indicated that the interaction was not dependent on the length and unsaturation of the phospholipid acyl chains and was not modified by the presence of cholesterol in the membrane. PEBP affinity for negatively charged membranes is puzzling considering the previous identification of the protein as a phosphatidylethanolamine-binding protein, and suggests that the association of PEBP with phospholipid membranes is driven by a mechanism other than its binding to solubilized phosphatidylethanolamine. An explanation was suggested by its three-dimensional structure: a small cavity at the protein surface has been reported to be the binding site of the polar head of phosphatidylethanolamine, while the N-terminal and C-terminal parts of PEBP, exposed at the protein surface, appear to be involved in the interaction with membranes. To test this hypothesis, we synthesized the two PEBP terminal regions and tested them with model membranes in parallel with the whole protein. Both peptides displayed the same behaviour as whole PEBP, indicating that they could participate in the binding of PEBP to membranes. Our results strongly suggest that PEBP directly interacts with negatively charged membrane microdomains in living cells.
  European Journal of Biochemistry 12/2001; 268(22):5831-41. · 3.58 Impact Factor