Design of protease-resistant myelin basic protein-derived peptides by cleavage site directed amino acid substitutions

Publikation

Design of protease-resistant myelin basic protein-derived peptides by cleavage site directed amino acid substitutions

Wissenschaftlicher Artikel/Review - 15.11.2007

Burster Timo, Kalbacher Hubert, Verhelst Steven H L, Weber Ekkehard, Falk Kirsten, Rotzschke Olaf, Dunn Shannon, Boehm Bernhard O, Marin-Esteban Viviana, Driessen Christoph

Zitation

Burster T, Kalbacher H, Verhelst S, Weber E, Falk K, Rotzschke O, Dunn S, Boehm B, Marin-Esteban V, Driessen C. Design of protease-resistant myelin basic protein-derived peptides by cleavage site directed amino acid substitutions. Biochemical pharmacology 2007; 74:1514-23.

Art

Wissenschaftlicher Artikel/Review (Englisch)

Zeitschrift

Biochemical pharmacology 2007; 74

Veröffentlichungsdatum

15.11.2007

ISSN (Druck)

0006-2952

Seiten

1514-23

Kurzbeschreibung/Zielsetzung

Multiple Sclerosis (MS) is considered to be a T cell-mediated autoimmune disease. An attractive strategy to prevent activation of autoaggressive T cells in MS, is the use of altered peptide ligands (APL), which bind to major histocompatibility complex class II (MHC II) molecules. To be of clinical use, APL must be capable of resisting hostile environments including the proteolytic machinery of antigen presenting cells (APC). The current design of APL relies on cost- and labour-intensive strategies. To overcome these major drawbacks, we used a deductive approach which involved modifying proteolytic cleavage sites in APL. Cleavage site-directed amino acid substitution of the autoantigen myelin basic protein (MBP) resulted in lysosomal protease-resistant, high-affinity binding peptides. In addition, these peptides mitigated T cell activation in a similar fashion as conventional APL. The strategy outlined allows the development of protease-resistant APL and provides a universal design strategy to improve peptide-based immunotherapeutics.