TY - JOUR
T1 - Structural basis for epitope sharing between group 1 allergens of cedar pollen
AU - Midoro-Horiuti, Terumi
AU - Schein, Catherine H.
AU - Mathura, Venkatarajan
AU - Braun, Werner
AU - Czerwinski, Edmund W.
AU - Togawa, Akihisa
AU - Kondo, Yasuto
AU - Oka, Tetsuo
AU - Watanabe, Masanao
AU - Goldblum, Randall M.
N1 - Funding Information:
We wish to thank Dr. Julius van Bavel for providing sera from patient with mountain cedar hypersensitivity. This work was supported by a NICHD-sponsored Child Health Research Center (P30 HD27841, New Project Award, T.M.H.), NIEHS Center for Environmental Science (ES06676, T.M.H.), the John Sealy Memorial Endowment for Biomedical Research (T.M.H.) from UTMB, Advanced Technology Program from Texas Higher Education Coordinating Board (0060-2001, R.M.G. and 0036-2003, W.B.), Parker B. Francis Fellowship in Pulmonary Research from Francis Families Foundation (T.M.H.), R01AI052428 (R.M.G.), K08 AI055792 (T.M.H.) and FDA (002249, W.B.).
PY - 2006/2
Y1 - 2006/2
N2 - The group 1 allergens are a major cause of cedar pollen hypersensitivity in several geographic areas. Allergens from several taxa have been shown to cross-react. The goal of these studies was to compare the structural features of the shared and unique epitopes of the group 1 allergen from mountain cedar (Jun a 1) and Japanese cedar (Cry j 1). An array of overlapping peptides from the sequence of Jun a 1 and a panel of monoclonal anti-Cry j 1 antibodies were used to identify the IgE epitopes recognized by cedar-sensitive patients from Texas and Japan. IgE from Japanese patients reacted with peptides representing one of the two linear epitopes within the highly conserved β-helical core structure and both epitopes within less ordered loops and turns near the N- and C-termini of Jun a 1. A three-dimensional (3D) model of the Cry j 1, based on the crystal structure of Jun a 1, indicated a similar surface exposure for the four described epitopes of Jun a 1 and the homologous regions of Cry j 1. The monoclonal antibodies identified another shared epitope, which is most likely conformational and a unique Cry j 1 epitope that may be the previously recognized glycopeptide IgE epitope. Defining the structural basis for shared and unique epitopes will help to identify critical features of IgE epitopes that can be used to develop mimotopes or identify allergen homologues for vaccine development.
AB - The group 1 allergens are a major cause of cedar pollen hypersensitivity in several geographic areas. Allergens from several taxa have been shown to cross-react. The goal of these studies was to compare the structural features of the shared and unique epitopes of the group 1 allergen from mountain cedar (Jun a 1) and Japanese cedar (Cry j 1). An array of overlapping peptides from the sequence of Jun a 1 and a panel of monoclonal anti-Cry j 1 antibodies were used to identify the IgE epitopes recognized by cedar-sensitive patients from Texas and Japan. IgE from Japanese patients reacted with peptides representing one of the two linear epitopes within the highly conserved β-helical core structure and both epitopes within less ordered loops and turns near the N- and C-termini of Jun a 1. A three-dimensional (3D) model of the Cry j 1, based on the crystal structure of Jun a 1, indicated a similar surface exposure for the four described epitopes of Jun a 1 and the homologous regions of Cry j 1. The monoclonal antibodies identified another shared epitope, which is most likely conformational and a unique Cry j 1 epitope that may be the previously recognized glycopeptide IgE epitope. Defining the structural basis for shared and unique epitopes will help to identify critical features of IgE epitopes that can be used to develop mimotopes or identify allergen homologues for vaccine development.
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U2 - 10.1016/j.molimm.2005.05.006
DO - 10.1016/j.molimm.2005.05.006
M3 - Article
C2 - 15975657
AN - SCOPUS:28944447433
SN - 0161-5890
VL - 43
SP - 509
EP - 518
JO - Molecular Immunology
JF - Molecular Immunology
IS - 6
ER -