Abstract
The targeted delivery of nanodrugs to malignant neoplasm is one of the most pressing challenges in the development of modern medicine. It was reported earlier that a bacteriorhodopsin-derived pH low insertion peptide (pHLIP) targets acidic tumors and has the ability to translocate low molecular weight cargoes across the cancer cell membrane. Here, to better understand the potential of pHLIP-related technologies, we used genetically engineered fluorescent protein (EGFP) as a model protein cargo and examined targeting efficiencies of EGFP-pHLIP hybrid constructs in vitro with the HeLa cell line at different pHs. By two independent monitoring methods we observed an increased binding affinity of EGFP-pHLIP fusions to HeLa cells at pH below 6.8. Confocal images of EGFP-pHLIP-treated cells showed bright fluorescence associated with the cell membrane and fluorescent dots localized inside the cell, that became brighter with time. To elucidate the pHLIP-mediated EGFP cell entry mechanisms, we performed a series of experiments with specific inhibitors of endocytosis. Our results imply that EGFP-pHLIP internalization is realized by endocytosis of various types.
Published Version
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