Peptidomimetic compounds that inhibit antigen presentation by autoimmune disease-associated class II major histocompatibility molecules

Fiorenza Falcioni; Kouichi Ito; Damir Vidovic; Charles Belunis; Robert Campbell; Steven J. Berthel; David R. Bolin; Paul B. Gillespie; Nicholas Huby; Gary L. Olson; Ramakanth Sarabu; Jeanmarie Guenot; Vincent Madison; Jürgen Hammer; Francesco Sinigaglia; Michael Steinmetz; Zoltan A. Nagy

doi:10.1038/9865

Peptidomimetic compounds that inhibit antigen presentation by autoimmune disease-associated class II major histocompatibility molecules

Fiorenza Falcioni, Kouichi Ito, Damir Vidovic, Charles Belunis, Robert Campbell, Steven J. Berthel, David R. Bolin, Paul B. Gillespie, Nicholas Huby, Gary L. Olson, Ramakanth Sarabu, Jeanmarie Guenot, Vincent Madison, Jürgen Hammer, Francesco Sinigaglia, Michael Steinmetz, Zoltan A. Nagy

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

53 Scopus citations

Abstract

We have identified a heptapeptide with high affinity to rheumatoid arthritis-associated class II major histocompatibility (MHC) molecules. Using a model of its interaction with the class II binding site, a variety of mimetic substitutions were introduced into the peptide. Several unnatural amino acids and dipeptide mimetics were found to be appropriate substituents and could be combined into compounds with binding affinities comparable to that of the original peptide. Compounds were designed that were several hundred-fold to more than a thousand-fold more potent than the original peptide in inhibiting T-cell responses to processed protein antigens presented by the target MHC molecules. Peptidomimetic compounds of this type could find therapeutic use as MHC-selective antagonists of antigen presentation in the treatment of autoimmune diseases.

Original language	English (US)
Pages (from-to)	562-567
Number of pages	6
Journal	Nature biotechnology
Volume	17
Issue number	6
DOIs	https://doi.org/10.1038/9865
State	Published - Jun 1999
Externally published	Yes

All Science Journal Classification (ASJC) codes

Biotechnology
Bioengineering
Applied Microbiology and Biotechnology
Molecular Medicine
Biomedical Engineering

Keywords

Antigen presentation
Autoimmune disease
Peptidomimetics

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10.1038/9865

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Falcioni, F., Ito, K., Vidovic, D., Belunis, C., Campbell, R., Berthel, S. J., Bolin, D. R., Gillespie, P. B., Huby, N., Olson, G. L., Sarabu, R., Guenot, J., Madison, V., Hammer, J., Sinigaglia, F., Steinmetz, M., & Nagy, Z. A. (1999). Peptidomimetic compounds that inhibit antigen presentation by autoimmune disease-associated class II major histocompatibility molecules. Nature biotechnology, 17(6), 562-567. https://doi.org/10.1038/9865

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title = "Peptidomimetic compounds that inhibit antigen presentation by autoimmune disease-associated class II major histocompatibility molecules",

abstract = "We have identified a heptapeptide with high affinity to rheumatoid arthritis-associated class II major histocompatibility (MHC) molecules. Using a model of its interaction with the class II binding site, a variety of mimetic substitutions were introduced into the peptide. Several unnatural amino acids and dipeptide mimetics were found to be appropriate substituents and could be combined into compounds with binding affinities comparable to that of the original peptide. Compounds were designed that were several hundred-fold to more than a thousand-fold more potent than the original peptide in inhibiting T-cell responses to processed protein antigens presented by the target MHC molecules. Peptidomimetic compounds of this type could find therapeutic use as MHC-selective antagonists of antigen presentation in the treatment of autoimmune diseases.",

keywords = "Antigen presentation, Autoimmune disease, Peptidomimetics",

author = "Fiorenza Falcioni and Kouichi Ito and Damir Vidovic and Charles Belunis and Robert Campbell and Berthel, {Steven J.} and Bolin, {David R.} and Gillespie, {Paul B.} and Nicholas Huby and Olson, {Gary L.} and Ramakanth Sarabu and Jeanmarie Guenot and Vincent Madison and J{\"u}rgen Hammer and Francesco Sinigaglia and Michael Steinmetz and Nagy, {Zoltan A.}",

year = "1999",

month = jun,

doi = "10.1038/9865",

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pages = "562--567",

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Falcioni, F, Ito, K, Vidovic, D, Belunis, C, Campbell, R, Berthel, SJ, Bolin, DR, Gillespie, PB, Huby, N, Olson, GL, Sarabu, R, Guenot, J, Madison, V, Hammer, J, Sinigaglia, F, Steinmetz, M & Nagy, ZA 1999, 'Peptidomimetic compounds that inhibit antigen presentation by autoimmune disease-associated class II major histocompatibility molecules', Nature biotechnology, vol. 17, no. 6, pp. 562-567. https://doi.org/10.1038/9865

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AU - Falcioni, Fiorenza

AU - Ito, Kouichi

AU - Vidovic, Damir

AU - Belunis, Charles

AU - Campbell, Robert

AU - Berthel, Steven J.

AU - Bolin, David R.

AU - Gillespie, Paul B.

AU - Huby, Nicholas

AU - Olson, Gary L.

AU - Sarabu, Ramakanth

AU - Guenot, Jeanmarie

AU - Madison, Vincent

AU - Hammer, Jürgen

AU - Sinigaglia, Francesco

AU - Steinmetz, Michael

AU - Nagy, Zoltan A.

PY - 1999/6

Y1 - 1999/6

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AB - We have identified a heptapeptide with high affinity to rheumatoid arthritis-associated class II major histocompatibility (MHC) molecules. Using a model of its interaction with the class II binding site, a variety of mimetic substitutions were introduced into the peptide. Several unnatural amino acids and dipeptide mimetics were found to be appropriate substituents and could be combined into compounds with binding affinities comparable to that of the original peptide. Compounds were designed that were several hundred-fold to more than a thousand-fold more potent than the original peptide in inhibiting T-cell responses to processed protein antigens presented by the target MHC molecules. Peptidomimetic compounds of this type could find therapeutic use as MHC-selective antagonists of antigen presentation in the treatment of autoimmune diseases.

KW - Antigen presentation

KW - Autoimmune disease

KW - Peptidomimetics

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Peptidomimetic compounds that inhibit antigen presentation by autoimmune disease-associated class II major histocompatibility molecules

Abstract

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