In a vaccine model, selected substitution of a highly stimulatory T cell epitope of hen's egg lysozyme into a Salmonella flagellin does not result in a homologous, specific, cellular immune response and may alter the way in which the total antigen is processed

Ricardo A. Vanegas; Nancy E. Street; Terence M. Joys

doi:10.1016/S0264-410X(96)00167-3

In a vaccine model, selected substitution of a highly stimulatory T cell epitope of hen's egg lysozyme into a Salmonella flagellin does not result in a homologous, specific, cellular immune response and may alter the way in which the total antigen is processed

Ricardo A. Vanegas, Nancy E. Street, Terence M. Joys

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

A 13 amino acid peptide corresponding to a potent BALB/c mouse T cell epitope of hen's egg lysozyme (HEL) was substituted singly at five sites in the d flagellin of Salmonella muenchen. The resulting chimeric proteins were unable to expand T cells capable of being stimulated by the HEL epitope and induced T cell populations which either failed to respond or responded at a low level to a normally highly stimulatory flagellin T cell epitope that was present in all chimeras. The results suggested that substitution of a T cell epitope in flagellin may alter the processing of the resulting immunogen.

Original language	English (US)
Pages (from-to)	321-324
Number of pages	4
Journal	Vaccine
Volume	15
Issue number	3
DOIs	https://doi.org/10.1016/S0264-410X(96)00167-3
State	Published - Feb 1997

Keywords

Salmonella
T cell epitope
cell-mediated immune response

ASJC Scopus subject areas

Molecular Medicine
Immunology and Microbiology(all)
veterinary(all)
Public Health, Environmental and Occupational Health
Infectious Diseases

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Vanegas, R. A., Street, N. E., & Joys, T. M. (1997). In a vaccine model, selected substitution of a highly stimulatory T cell epitope of hen's egg lysozyme into a Salmonella flagellin does not result in a homologous, specific, cellular immune response and may alter the way in which the total antigen is processed. Vaccine, 15(3), 321-324. https://doi.org/10.1016/S0264-410X(96)00167-3

In a vaccine model, selected substitution of a highly stimulatory T cell epitope of hen's egg lysozyme into a Salmonella flagellin does not result in a homologous, specific, cellular immune response and may alter the way in which the total antigen is processed. / Vanegas, Ricardo A.; Street, Nancy E.; Joys, Terence M.
In: Vaccine, Vol. 15, No. 3, 02.1997, p. 321-324.

Research output: Contribution to journal › Article › peer-review

Vanegas, RA, Street, NE & Joys, TM 1997, 'In a vaccine model, selected substitution of a highly stimulatory T cell epitope of hen's egg lysozyme into a Salmonella flagellin does not result in a homologous, specific, cellular immune response and may alter the way in which the total antigen is processed', Vaccine, vol. 15, no. 3, pp. 321-324. https://doi.org/10.1016/S0264-410X(96)00167-3

Vanegas, Ricardo A. ; Street, Nancy E. ; Joys, Terence M. / In a vaccine model, selected substitution of a highly stimulatory T cell epitope of hen's egg lysozyme into a Salmonella flagellin does not result in a homologous, specific, cellular immune response and may alter the way in which the total antigen is processed. In: Vaccine. 1997 ; Vol. 15, No. 3. pp. 321-324.

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title = "In a vaccine model, selected substitution of a highly stimulatory T cell epitope of hen's egg lysozyme into a Salmonella flagellin does not result in a homologous, specific, cellular immune response and may alter the way in which the total antigen is processed",

abstract = "A 13 amino acid peptide corresponding to a potent BALB/c mouse T cell epitope of hen's egg lysozyme (HEL) was substituted singly at five sites in the d flagellin of Salmonella muenchen. The resulting chimeric proteins were unable to expand T cells capable of being stimulated by the HEL epitope and induced T cell populations which either failed to respond or responded at a low level to a normally highly stimulatory flagellin T cell epitope that was present in all chimeras. The results suggested that substitution of a T cell epitope in flagellin may alter the processing of the resulting immunogen.",

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author = "Vanegas, {Ricardo A.} and Street, {Nancy E.} and Joys, {Terence M.}",

note = "Funding Information: This research will be submitted by R.A. Vanegas, togetherw ith work in relatedf ields, to the Texas Tech University Health SciencesC enter in partial fulfillment of the requirementsf or his Ph.D degree. The work describedi n this paper was supported by grants to T.M.J. from the Texas AdvancedT echnology Program (010674-010)a nd a Research Seed Grant from TTUHSC.",

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doi = "10.1016/S0264-410X(96)00167-3",

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N1 - Funding Information: This research will be submitted by R.A. Vanegas, togetherw ith work in relatedf ields, to the Texas Tech University Health SciencesC enter in partial fulfillment of the requirementsf or his Ph.D degree. The work describedi n this paper was supported by grants to T.M.J. from the Texas AdvancedT echnology Program (010674-010)a nd a Research Seed Grant from TTUHSC.

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AB - A 13 amino acid peptide corresponding to a potent BALB/c mouse T cell epitope of hen's egg lysozyme (HEL) was substituted singly at five sites in the d flagellin of Salmonella muenchen. The resulting chimeric proteins were unable to expand T cells capable of being stimulated by the HEL epitope and induced T cell populations which either failed to respond or responded at a low level to a normally highly stimulatory flagellin T cell epitope that was present in all chimeras. The results suggested that substitution of a T cell epitope in flagellin may alter the processing of the resulting immunogen.

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KW - cell-mediated immune response

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In a vaccine model, selected substitution of a highly stimulatory T cell epitope of hen's egg lysozyme into a Salmonella flagellin does not result in a homologous, specific, cellular immune response and may alter the way in which the total antigen is processed

Abstract

Keywords

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