TY - JOUR
T1 - Adsorption and helical coiling of amphipathic peptides on lipid vesicles leads to negligible protection from cathepsin b or cathepsin d
AU - Goldschmidt, Thomas G.
AU - Reyes, Victor E.
AU - You, Guofeng
AU - Nelson, Donald J.
AU - Reisert, Patricia S.
AU - Anderson, Jacqueline
AU - Mole, John
AU - Humphreys, Robert E.
N1 - Funding Information:
Supported by Grants IM-582 and JFRA-378 from the American Cancer Society (to R.E.H. and V.E.R., respectively), by Grant 1729B from The Council For Tobacco Research-U.S.A., Inc. (to D.J.N.), by grant 91013560 from the American Heart Association (to V.E.R.), from the National Science Foundation (to P.S.R.) and from the National Institutes of Health (to J.M.). T.G.G. was a medical student research fellow of the Howard Hughes Medical Institute. V.E.R. was a fellow of the United States Public Health Service Immunovirology Training Grant T32 AI-07272.
PY - 1993
Y1 - 1993
N2 - The processing of antigenic peptides for presentation by MHC molecules to T cells, may depend upon the function of a second, consensus sequence in or near the T cell-presented epitope. One such processing-regulating sequence appears to be composed of amino acids Leu, Ile, Val, Phe, and Met recurring in a fashion to form a longitudinal, hydrophobic strip when the excised peptide is coiled as an αhelix. Such a hydrophobic strip-of-helix may: (a) scavenge peptides from lumens onto lipid membranes of digestion vesicles, (b) stabilize peptides there as protease-resistant helices, (c) specify recognition by the antigenic peptide-binding sites of chaperonin proteins, transmembranal transporters, or MHC molecules. By circular dichroism and electron paramagnetic resonance, we demonstrated that peptides with recurrent hydrophobic residues potentially forming longitudinal strips adsorbed to, and partially coiled as helices on, di-O-hexadecyl, D-L-αphosphatidylcholine (DHPC) vesicles. Cathepsin B or cathepsin D cleavages of three such peptides were identified. With either enzyme, it made no significant difference whether a peptide substrate was in solution or bound to vesicles in terms of efficiency and specificity of peptide bond cleavages. We conclude that protease resistance, per se, of membrane-adsorbed, helically coiled peptides is not a major factor in the selection for T cell presentation of epitopes in peptides which have a motif with a longitudinal hydrophobic strip.
AB - The processing of antigenic peptides for presentation by MHC molecules to T cells, may depend upon the function of a second, consensus sequence in or near the T cell-presented epitope. One such processing-regulating sequence appears to be composed of amino acids Leu, Ile, Val, Phe, and Met recurring in a fashion to form a longitudinal, hydrophobic strip when the excised peptide is coiled as an αhelix. Such a hydrophobic strip-of-helix may: (a) scavenge peptides from lumens onto lipid membranes of digestion vesicles, (b) stabilize peptides there as protease-resistant helices, (c) specify recognition by the antigenic peptide-binding sites of chaperonin proteins, transmembranal transporters, or MHC molecules. By circular dichroism and electron paramagnetic resonance, we demonstrated that peptides with recurrent hydrophobic residues potentially forming longitudinal strips adsorbed to, and partially coiled as helices on, di-O-hexadecyl, D-L-αphosphatidylcholine (DHPC) vesicles. Cathepsin B or cathepsin D cleavages of three such peptides were identified. With either enzyme, it made no significant difference whether a peptide substrate was in solution or bound to vesicles in terms of efficiency and specificity of peptide bond cleavages. We conclude that protease resistance, per se, of membrane-adsorbed, helically coiled peptides is not a major factor in the selection for T cell presentation of epitopes in peptides which have a motif with a longitudinal hydrophobic strip.
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U2 - 10.3109/08820139309066191
DO - 10.3109/08820139309066191
M3 - Article
C2 - 8382660
AN - SCOPUS:0027533261
SN - 0882-0139
VL - 22
SP - 25
EP - 40
JO - Immunological Investigations
JF - Immunological Investigations
IS - 1
ER -