Bioactive cationic peptides as potential agents for breast cancer treatment

Manrique-Moreno, Marcela; Santa-González, Gloria A.; Gallego, Vanessa

doi:10.1042/bsr20211218c

Cited by 3 publications

(2 citation statements)

References 120 publications

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“…Most peptides with recognized biological activity present a positive charge ranging from +2 to +9 [ 46 ]. Peptide mechanism of action starts with the attraction between the positively charged amino acids of the peptide and the negatively charged groups of the cancer cell membranes [ 47 , 48 ]. This interaction could be explained by the composition of the membrane, which has a crucial role given that the tumor cells have differentiating characteristics such as the exposure of the negatively charged phospholipid phosphatidylserine towards the external side of the membrane, as well as the presence of proteoglycan chains in the form of heparan sulfate, which are mucins that contribute to the initial electrostatic interaction with the peptide [ 49 , 50 ].…”

Section: Discussionmentioning

confidence: 99%

ΔM4: Membrane-Active Peptide with Antitumoral Potential against Human Skin Cancer Cells

et al. 2023

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Peptides have become attractive potential agents due to their affinity to cancer cells. In this work, the biological activity of the peptide ΔM4 against melanoma cancer cell line A375, epidermoid carcinoma cell line A431, and non-tumoral HaCaT cells was evaluated. The cytotoxic MTT assay demonstrates that ΔM4 show five times more activity against cancer than non-cancer cells. The potential membrane effect of ΔM4 was evaluated through lactate dehydrogenase release and Sytox uptake experiments. The results show a higher membrane activity of ΔM4 against A431 in comparison with the A375 cell line at a level of 12.5 µM. The Sytox experiments show that ΔM4 has a direct effect on the permeability of cancer cells in comparison with control cells. Infrared spectroscopy was used to study the affinity of the peptide to membranes resembling the composition of tumoral and non-tumoral cells. The results show that ΔM4 induces a fluidization effect on the tumoral lipid system over 5% molar concentration. Finally, to determine the appearance of phosphatidylserine on the surface of the cell, flow cytometry analyses were performed employing an annexin V–PE conjugate. The results suggest that 12.5 µM of ΔM4 induces phosphatidylserine translocation in A375 and A431 cancer cells. The findings of this study support the potential of ΔM4 as a selective agent for targeting cancer cells. Its mechanism of action demonstrated selectivity, membrane-disrupting effects, and induction of phosphatidylserine translocation.

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Section: Discussionmentioning

confidence: 99%

ΔM4: Membrane-Active Peptide with Antitumoral Potential against Human Skin Cancer Cells

et al. 2023

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“…The positively charged residues on BCP can interact with the negatively charged groups on the tumor membrane, and then the acyl chain of the lipid membrane. The hydrophobic interaction between non-polar residues induces the instability of the lipid bilayer and structural and physicochemical changes, which in turn leads to cell death ( Manrique-Moreno et al, 2021 ). There are also bioactive peptides from natural aquatic products, including marine peptides, which have therapeutic potential in breast cancer ( Ahmed K. S. et al, 2021 ).…”

Section: Introductionmentioning

confidence: 99%

The role of peptides in reversing chemoresistance of breast cancer: current facts and future prospects

et al. 2023

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Breast cancer is the first malignant tumor in women, and its incidence is also increasing year by year. Chemotherapy is one of the standard therapies for breast cancer, but the resistance of breast cancer cells to chemotherapy drugs is a huge challenge for the effective treatment of breast cancer. At present, in the study of reversing the drug resistance of solid tumors such as breast cancer, peptides have the advantages of high selectivity, high tissue penetration, and good biocompatibility. Some of the peptides that have been studied can overcome the resistance of tumor cells to chemotherapeutic drugs in the experiment, and effectively control the growth and metastasis of breast cancer cells. Here, we describe the mechanism of different peptides in reversing breast cancer resistance, including promoting cancer cell apoptosis; promoting non-apoptotic regulatory cell death of cancer cells; inhibiting the DNA repair mechanism of cancer cells; improving the tumor microenvironment; inhibiting drug efflux mechanism; and enhancing drug uptake. This review focuses on the different mechanisms of peptides in reversing breast cancer drug resistance, and these peptides are also expected to create clinical breakthroughs in promoting the therapeutic effect of chemotherapy drugs in breast cancer patients and improving the survival rate of patients.

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Antimicrobial and antitumor properties of anuran peptide temporin-SHf induce apoptosis in A549 lung cancer cells

Antony,

Purayil,

Olakkaran

et al. 2024

Amino Acids

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Temporin-SHf is a linear, ultra-short, hydrophobic, α-helix, and phe-rich cationic antimicrobial peptide. The antitumor activities and mechanism of temporin-SHf-induced cancer cell death are unknown. The temporin-SHf was synthesized by solid-phase Fmoc chemistry and antimicrobial and antitumor activities were investigated. Temporin-SHf was microbiocidal, non-hemolytic, and cytotoxic to human cancer cells but not to non-tumorigenic cells. It affected the cancer cells' lysosomal integrity and caused cell membrane damage. The temporin-SHf inhibited A549 cancer cell proliferation and migration. It is anti-angiogenic and causes cancer cell death through apoptosis. The molecular mechanism of action of temporin-SHf confirmed that it kills cancer cells by triggering caspase-dependent apoptosis through an intrinsic mitochondrial pathway. Owing to its short length and broad spectrum of antitumor activity, temporin-SHf is a promising candidate for developing a new class of anticancer drugs.

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Bioactive cationic peptides as potential agents for breast cancer treatment

Cited by 3 publications

References 120 publications

ΔM4: Membrane-Active Peptide with Antitumoral Potential against Human Skin Cancer Cells

ΔM4: Membrane-Active Peptide with Antitumoral Potential against Human Skin Cancer Cells

The role of peptides in reversing chemoresistance of breast cancer: current facts and future prospects

Antimicrobial and antitumor properties of anuran peptide temporin-SHf induce apoptosis in A549 lung cancer cells

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