A peptide-derived strategy for specifically targeting the mitochondria and ER of cancer cells: a new approach in fighting cancer

An effective anti-cancer therapy should exclusively target cancer cells and trigger in them a broad spectrum of cell death pathways that will prevent avoidance. Here, we present a new approach in cancer therapy that specifically targets the mitochondria and ER of cancer cells. We developed a peptide...

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Autores principales: Sohn, Yang Sung, losub-Amir, Anat, Cardenas, Alfredo E., Karmi, Ola, Yahana, Merav Darash, Gruman, Tal, Rowland, Linda, Marjault, Henri-Baptiste, Webb, Lauren J., Mittler, Ron, Elber, Ron, Friedler, Assaf, Nechushtai, Rachel
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Royal Society of Chemistry 2022
Materias:
Chemistry
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9200128/
https://www.ncbi.nlm.nih.gov/pubmed/35774163
http://dx.doi.org/10.1039/d2sc01934e
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author Sohn, Yang Sung
losub-Amir, Anat
Cardenas, Alfredo E.
Karmi, Ola
Yahana, Merav Darash
Gruman, Tal
Rowland, Linda
Marjault, Henri-Baptiste
Webb, Lauren J.
Mittler, Ron
Elber, Ron
Friedler, Assaf
Nechushtai, Rachel
author_facet Sohn, Yang Sung
losub-Amir, Anat
Cardenas, Alfredo E.
Karmi, Ola
Yahana, Merav Darash
Gruman, Tal
Rowland, Linda
Marjault, Henri-Baptiste
Webb, Lauren J.
Mittler, Ron
Elber, Ron
Friedler, Assaf
Nechushtai, Rachel
author_sort Sohn, Yang Sung
collection PubMed
description An effective anti-cancer therapy should exclusively target cancer cells and trigger in them a broad spectrum of cell death pathways that will prevent avoidance. Here, we present a new approach in cancer therapy that specifically targets the mitochondria and ER of cancer cells. We developed a peptide derived from the flexible and transmembrane domains of the human protein NAF-1/CISD2. This peptide (NAF-1(44-67)) specifically permeates through the plasma membranes of human epithelial breast cancer cells, abolishes their mitochondria and ER, and triggers cell death with characteristics of apoptosis, ferroptosis and necroptosis. In vivo analysis revealed that the peptide significantly decreases tumor growth in mice carrying xenograft human tumors. Computational simulations of cancer vs. normal cell membranes reveal that the specificity of the peptide to cancer cells is due to its selective recognition of their membrane composition. NAF-1(44-67) represents a promising anti-cancer lead compound that acts via a unique mechanism.
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spelling pubmed-92001282022-06-29 A peptide-derived strategy for specifically targeting the mitochondria and ER of cancer cells: a new approach in fighting cancer Sohn, Yang Sung losub-Amir, Anat Cardenas, Alfredo E. Karmi, Ola Yahana, Merav Darash Gruman, Tal Rowland, Linda Marjault, Henri-Baptiste Webb, Lauren J. Mittler, Ron Elber, Ron Friedler, Assaf Nechushtai, Rachel Chem Sci Chemistry An effective anti-cancer therapy should exclusively target cancer cells and trigger in them a broad spectrum of cell death pathways that will prevent avoidance. Here, we present a new approach in cancer therapy that specifically targets the mitochondria and ER of cancer cells. We developed a peptide derived from the flexible and transmembrane domains of the human protein NAF-1/CISD2. This peptide (NAF-1(44-67)) specifically permeates through the plasma membranes of human epithelial breast cancer cells, abolishes their mitochondria and ER, and triggers cell death with characteristics of apoptosis, ferroptosis and necroptosis. In vivo analysis revealed that the peptide significantly decreases tumor growth in mice carrying xenograft human tumors. Computational simulations of cancer vs. normal cell membranes reveal that the specificity of the peptide to cancer cells is due to its selective recognition of their membrane composition. NAF-1(44-67) represents a promising anti-cancer lead compound that acts via a unique mechanism. The Royal Society of Chemistry 2022-05-26 /pmc/articles/PMC9200128/ /pubmed/35774163 http://dx.doi.org/10.1039/d2sc01934e Text en This journal is © The Royal Society of Chemistry https://creativecommons.org/licenses/by-nc/3.0/
spellingShingle Chemistry
Sohn, Yang Sung
losub-Amir, Anat
Cardenas, Alfredo E.
Karmi, Ola
Yahana, Merav Darash
Gruman, Tal
Rowland, Linda
Marjault, Henri-Baptiste
Webb, Lauren J.
Mittler, Ron
Elber, Ron
Friedler, Assaf
Nechushtai, Rachel
A peptide-derived strategy for specifically targeting the mitochondria and ER of cancer cells: a new approach in fighting cancer
title A peptide-derived strategy for specifically targeting the mitochondria and ER of cancer cells: a new approach in fighting cancer
title_full A peptide-derived strategy for specifically targeting the mitochondria and ER of cancer cells: a new approach in fighting cancer
title_fullStr A peptide-derived strategy for specifically targeting the mitochondria and ER of cancer cells: a new approach in fighting cancer
title_full_unstemmed A peptide-derived strategy for specifically targeting the mitochondria and ER of cancer cells: a new approach in fighting cancer
title_short A peptide-derived strategy for specifically targeting the mitochondria and ER of cancer cells: a new approach in fighting cancer
title_sort peptide-derived strategy for specifically targeting the mitochondria and er of cancer cells: a new approach in fighting cancer
topic Chemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9200128/
https://www.ncbi.nlm.nih.gov/pubmed/35774163
http://dx.doi.org/10.1039/d2sc01934e
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