The peptide mimicking small extracellular loop of CD82/KAI1 has been reported to inhibit tumor cell migration and metastasis. This provides an evidence that small extracellular loop domain should be important for the function of CD82/KAI1. In this paper, to investigate the structure basis for the function of EC1 mimic peptide, we systematically analyzed the effects of each amino acid residue in EC1 mimic peptide on its bioactivity. We found that the interfering with the folding of secondary structure with proline, a potent breaker of secondary structure, completely abolished the migration and metastasis-inhibitory activity of EC1 mimic peptide. This means that the bioactivity of EC1 mimic peptide was conformation-dependent. Next, we substitute with proline for amino acid residues in the small extracellular ring region of CD82/KAI1 by the site-specific mutations to disrupting secondary structure and detected its effect on the function of CD82/KAI1. The results showed that the disturbing the secondary structure of small extracellular ring completely abolished the migration and metastasis-inhibitory activity of CD82/KAI1. These results further provide direct evidence that the small extracellular ring is an important function region of CD82/KAI1.
Keywords: CD82; Metastasis; Peptide; Protein secondary structure; Tumor metastasis suppressor.
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