Objectives: Interferon-γ-inducible protein 10 (IP-10) is a potent antitumor agent and acts by its angiostatic and immunomodulatory properties. IP-10 can target to tumor site by linking with single chain variable fragment (scFv) that recognized specific tumor antigen. In this study, we evaluated biological activity of the fusion protein including IP-10 and anti-HER2 scFv (IP-10-(anti-HER2 scFv)).
Results: The HER2- and cell-based ELISA as well as the flow cytometry analysis demonstrated that the fusion protein specifically binds to HER2 antigen. In addition, competitive ELISA demonstrated that the fusion protein recognized the same epitope of HER2 antigen as trastuzumab. The results of MTT assay demonstrated that the growth of HER2-enriched SK-BR3 cells was inhibited in the presence of the fusion protein. Moreover, the cytotoxic effect of the fusion protein was not significantly different from that of trastuzumab. However, no significant cytotoxic effect compared to trastuzumab and anti-HER2 scFv was observed in HER2-low-expressing MDA-MB-231 cells. The obtained findings demonstrated that IP-10-(anti-HER2 scFv) can selectively reduce the cell viability in HER2 cells. Moreover, similar inhibitory effect on growth of both SK-BR-3 and MDA-MB-231 cell lines was observed in the presence of anti-HER2 scFv protein even at high concentration after 72 h. The chemotaxis properties of the fusion protein were also analyzed by a chemotaxis assay. It was demonstrated that the fusion protein induced migration of activated T cell similar to recombinant IP-10 protein.
Conclusions: Our findings suggested that IP-10-(anti-HER2 scFv) fusion protein can specifically direct IP-10 to the HER2-expressing tumor cells and may act as an adjuvant along with HER2-based vaccine to gather the elicited immune response at the site of HER2-overexpressimg tumors.
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