Literature DB >> 20026673

Antigen-specific suppression of experimental autoimmune encephalomyelitis by a novel bifunctional peptide inhibitor: structure optimization and pharmacokinetics.

Rahmawati Ridwan1, Paul Kiptoo, Naoki Kobayashi, Scott Weir, Michael Hughes, Todd Williams, Rondang Soegianto, Teruna J Siahaan.   

Abstract

The objective of this study was to optimize the in vivo activity of proteolipid protein (PLP)-bifunctional peptide inhibitor (BPI) molecule to suppress experimental autoimmune encephalomyelitis (EAE) in SJL/J mice and evaluate pharmacokinetic profiles of PLP-BPI. PLP-BPI is constructed via conjugation of myelin PLP(139-151) with CD11a(237-246)-derived peptide (LABL) via a spacer. The hypothesis is that PLP-BPI binds simultaneously to major histocompatibility complex-II and intercellular adhesion molecule-1 on the antigen-presenting cell (APC) and inhibits the formation of the immunological synapse during T-cell and APC interactions. In this study, the structure of BPI was modified by varying the spacer and was evaluated in the EAE model. Intravenous injections of BPI derivatives inhibited the onset, severity, and incidence of EAE more effectively and induced a lower incidence of anaphylaxis than that produced by unmodified PLP-BPI. As anticipated, production of interleukin-17, a proinflammatory cytokine commonly found in elevated levels among multiple sclerosis (MS) patients, was significantly lower in Ac-PLP-BPI-PEG6- or Ac-PLP-BPI-NH(2)-2-treated mice than in phosphate-buffered saline-treated mice. These results suggest that BPI-type molecules can be modified to achieve more efficient and better tolerated BPI-based derivatives for the treatment of MS.

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Year:  2009        PMID: 20026673      PMCID: PMC2835440          DOI: 10.1124/jpet.109.161109

Source DB:  PubMed          Journal:  J Pharmacol Exp Ther        ISSN: 0022-3565            Impact factor:   4.030


  36 in total

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5.  Gene-microarray analysis of multiple sclerosis lesions yields new targets validated in autoimmune encephalomyelitis.

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3.  Vaccine-like controlled-release delivery of an immunomodulating peptide to treat experimental autoimmune encephalomyelitis.

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4.  Structure, size, and solubility of antigen arrays determines efficacy in experimental autoimmune encephalomyelitis.

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9.  Controlling immune response and demyelination using highly potent bifunctional peptide inhibitors in the suppression of experimental autoimmune encephalomyelitis.

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10.  Bifunctional Peptide Inhibitors Suppress Interleukin-6 Proliferation and Ameliorates Murine Collagen-Induced Arthritis.

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