Transportan 10 improves the anticancer activity of cisplatin.

Rusiecka Izabela,Kocić Ivan,Rekowski Piotr,Alenowicz Magdalena,Ruczyński Jarosław

doi:10.1007/s00210-016-1219-5

Rusiecka Izabela, Kocić Ivan + Show 3 more

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https://doi.org/10.1007/s00210-016-1219-5

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Abstract

The aim of this paper was to examine whether cell-penetrating peptides (CPPs) such as transportan 10 (TP10) or protein transduction domain (PTD4) may improve the anticancer activity of cisplatin (cPt). The complexes of TP10 or PTD4 with cPt were used in the experiments. They were carried out on two non-cancer (HEK293 (human embryonic kidney) and HEL299 (human embryo lung)) and two cancer (HeLa (human cervical cancer) and OS143B (human osteosarcoma 143B)) cell lines. Both complexes were tested (MTT assay) with respect to their anticancer or cytotoxic actions. TAMRA (fluorescent dye)-stained preparations were visualized in a fluorescence microscope. The long-term effect of TP10 + cPt and its components on non-cancer and cancer cell lines was observed in inverted phase contrast microscopy. In the MTT test (cell viability assay), the complex of TP10 + cPt produced a more potent effect on the cancer cell lines (HeLa, OS143B) in comparison to that observed after separate treatment with TP10 or cPt. At the same time, the action of the complex and its components was rather small on non-cancer cell lines. On the other hand, a complex of another CPP with cPt, i.e., PTD4 + cPt, was without a significant effect on the cancer cell line (OS143B). The images of the fluorescent microscopy showed TAMRA-TP10 or TAMRA-TP10 + cPt in the interior of the HeLa cells. In the case of TAMRA-PTD4 or TAMRA-PTD4 + cPt, only the first compound was found inside the cancer cell line. In contrast, none of the tested compounds gained access to the interior of the non-cancer cells (HEK293, HEL299). Long-term incubation with the TP10 + cPt (estimated by inverted phase contrast microscopy) lead to an enhanced action of the complex on cell viability (decrease in the number of cells and change in their morphology) as compared with that produced by each single agent. With regard to the tested CPPs, only TP10 improved the anticancer activity of cisplatin if both compounds were used in the form of a complex. Additionally, the complex was relatively safe for non-cancer cells. What is more, TP10 also produced an anticancer effect on HeLa and OS143B cell lines.

Highlights

Efficient delivery of therapeutic molecules to cells is a great challenge in modern medicine and pharmacology
HeLa and OS143B cells in comparison with that observed after incubation with each single compound, i.e., the transportan or the anticancer drug
This statement could be made on the basis of the MTT test, which has shown that transportan 10 (TP10) + cPt reduced progressively the number of cancer cells with a maximum between 40 and 50 % after 72 h

Summary

Introduction

Efficient delivery of therapeutic molecules to cells is a great challenge in modern medicine and pharmacology. Cell-penetrating peptides (CPPs) have received great attention as efficient cellular delivery vectors due to their intrinsic ability to enter cells and mediate uptake of a wide range of macroor nanomolecular cargos. CPPs are relatively short cationic peptides which are classified into two groups based on their physicochemical characteristics: amphiphatic and nonamphiphatic. Among the amphiphatic are transportans (TPs) with transportan 10 (TP10) being the one of the most widely explored. CPPs are associated with cargos via covalent bonds or through non-covalent interactions. A large range of chemical agents can be regarded as cargos, i.e., plasmids, DNA, siRNA, proteins, peptides, low molecular weight drugs, and nanoparticles

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