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cell penetrating peptides
amphipathic peptides
glycosaminoglycans
chondroitin sulfate
transfection efficiency
intracellular trafficking
cell-penetrating peptides
arginine-rich peptides
gene delivery
surface glycosaminoglycans
DNA delivery
extracellular
glycosaminoglycans
proteoglycans
complexes
therapy
trafficking
Materials Science
Abstract:
Glycosaminoglycans, both cell-surface and exogenous, can interfere with DNA delivery efficiency of nonviral carrier systems. In this work, we report an extensive comparative study to explore the effect of exogenously added chondroitin sulfate on biophysical characteristics, cellular uptake, transfection efficiency, and intracellular trafficking of nanocomplexes formed using primary and secondary amphipathic peptides developed in our laboratory. Our results indicate that the presence of exogenous chondroitin sulfate exhibits differential enhancement in transfection efficiency of the amphipathic peptides depending upon their chemical nature. The enhancement was more pronounced in primary amphipathic peptide-based nanocomplexes as compared to the secondary counterpart. This difference can be attributed to possible alteration of the intracellular entry pathway in addition to increased extracellular stability, less cellular toxicity, and assistance in nuclear accumulation. These results imply potential use of glycosaminoglycans such as chondroitin sulfate to improve the transfection efficiency of primary amphipathic peptides for possible in vivo applications.
