1. The structure–activity relationship of the series of non-peptide small antagonists for p56lck SH2 domain
- Author
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See-Hyoung Park, Hyun-Sik Oh, Keun-Hyeung Lee, Jonghwa Won, Hyeongjin Cho, Mi-Ae Kang, and Joshi Bishnu Prasad
- Subjects
Serine Proteinase Inhibitors ,T-Lymphocytes ,Clinical Biochemistry ,Prunella vulgaris ,Pharmaceutical Science ,Plasma protein binding ,SH2 domain ,Depsides ,Biochemistry ,src Homology Domains ,Jurkat Cells ,Structure-Activity Relationship ,Drug Discovery ,Humans ,Structure–activity relationship ,Molecular Biology ,biology ,Chemistry ,Anti-Inflammatory Agents, Non-Steroidal ,Organic Chemistry ,T-cell receptor ,Rational design ,biology.organism_classification ,In vitro ,Cinnamates ,Molecular Medicine ,Signal transduction - Abstract
The antagonists for the SH2 domain are regarded as novel therapeutic candidates for cancer, autoimmune disease, and chronic inflammatory disease. Previously, we identified rosmarinic acid (α-o-caffeoyl-3,4-dihydroxyphenyl-lactic acid; RosA) from Prunella vulgaris as an antagonist for the p56lck SH2 domain by screening natural products. RosA not containing phosphotyrosine surrogate had a considerable inhibitory activity for T-cell antigen receptor (TCR)-induced interleukin (IL)-2 expression, and subsequent T-cell proliferation in vitro cell assay. To investigate the structure–activity relationship of RosA and to identify a novel p56lck SH2 antagonist with more potent in vitro T-cell inhibitory activity, we synthesized several analogs of RosA by using rational design. All synthesized compounds were tested in vitro binding activity for the SH2 domain and in vitro T-cell inhibitory activity. All four hydroxyl groups of RosA were essential for binding with the p56lck SH2 domain and T-cell inhibitory activity. Unexpectedly, conformationally less constrained analogs 4 and 9 showed a more potent binding affinity for the SH2 domain than that of RosA, and chirality of the analog did not play an important role in protein binding. We successfully identified several RosA analogs with a more potent T-cell inhibitory activity than that of RosA. Overall results revealed important structural requirements of the p56lck SH2 antagonists for in vitro T-cell inhibitory activity and in vitro protein binding activity.
- Published
- 2007
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