Modifications in cellular viability, DNA damage and stress responses inflicted in cancer cells by copper-64 ions

Due to combined therapeutical emissions, a high linear energy transfer Auger-electrons with the longer ranged β(−) particles, (64)Cu-based radiopharmaceuticals raise particular theragnostic interest in cancer, by joined therapeutic and real-time PET imaging properties. The in vitro study aimed to in...

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Autores principales: Serban, Radu M., Niculae, Dana, Manda, Gina, Neagoe, Ionela, Dobre, Maria, Niculae, Dragoș A., Temelie, Mihaela, Mustăciosu, Cosmin, Leonte, Radu A., Chilug, Livia E., Cornoiu, Maria R., Cocioabă, Diana, Stan, Miruna, Dinischiotu, Anca
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2023
Materias:
Medicine
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10320858/
https://www.ncbi.nlm.nih.gov/pubmed/37415761
http://dx.doi.org/10.3389/fmed.2023.1197846
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author Serban, Radu M.
Niculae, Dana
Manda, Gina
Neagoe, Ionela
Dobre, Maria
Niculae, Dragoș A.
Temelie, Mihaela
Mustăciosu, Cosmin
Leonte, Radu A.
Chilug, Livia E.
Cornoiu, Maria R.
Cocioabă, Diana
Stan, Miruna
Dinischiotu, Anca
author_facet Serban, Radu M.
Niculae, Dana
Manda, Gina
Neagoe, Ionela
Dobre, Maria
Niculae, Dragoș A.
Temelie, Mihaela
Mustăciosu, Cosmin
Leonte, Radu A.
Chilug, Livia E.
Cornoiu, Maria R.
Cocioabă, Diana
Stan, Miruna
Dinischiotu, Anca
author_sort Serban, Radu M.
collection PubMed
description Due to combined therapeutical emissions, a high linear energy transfer Auger-electrons with the longer ranged β(−) particles, (64)Cu-based radiopharmaceuticals raise particular theragnostic interest in cancer, by joined therapeutic and real-time PET imaging properties. The in vitro study aimed to investigate the biological and molecular background of (64)CuCl(2) therapy by analyzing the damages and stress responses inflicted in various human normal and tumor cell lines. Colon (HT29 and HCT116) and prostate carcinoma (DU145) cell lines, as well as human normal BJ fibroblasts, were treated up to 72 h with 2–40 MBq/mL (64)CuCl(2). Radioisotope uptake and retention were assessed, and cell viability/death, DNA damage, oxidative stress, and the expression of 84 stress genes were investigated at various time points after [(64)Cu]CuCl(2) addition. All the investigated cells incorporated (64)Cu ions similarly, independent of their tumoral or normal status, but their fate after exposure to [(64)Cu]CuCl(2) was cell-dependent. The most striking cytotoxic effects of the radioisotope were registered in colon carcinoma HCT116 cells, for which a substantial decrease in the number of metabolically active cells, and an increased DNA damage and oxidative stress were registered. The stress gene expression study highlighted the activation of both death and repair mechanisms in these cells, related to extrinsic apoptosis, necrosis/necroptosis or autophagy, and cell cycle arrest, nucleotide excision repair, antioxidant, and hypoxic responses, respectively. The in vitro study indicated that 40 MBq/mL [(64)Cu]CuCl(2) delivers a therapeutic effect in human colon carcinoma, but its use is limited by harmful, yet lower effects on normal fibroblasts. The exposure of tumor cells to 20 MBq/mL [(64)Cu]CuCl(2), might be used for a softer approach aiming for a lower radiotoxicity in normal fibroblasts as compared to tumor cells. This radioactive concentration was able to induce a persistent decrease in the number of metabolically active cells, accompanied by DNA damage and oxidative stress, associated with significant changes in stress gene expression in HCT116 colon cancer cells.
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spelling pubmed-103208582023-07-06 Modifications in cellular viability, DNA damage and stress responses inflicted in cancer cells by copper-64 ions Serban, Radu M. Niculae, Dana Manda, Gina Neagoe, Ionela Dobre, Maria Niculae, Dragoș A. Temelie, Mihaela Mustăciosu, Cosmin Leonte, Radu A. Chilug, Livia E. Cornoiu, Maria R. Cocioabă, Diana Stan, Miruna Dinischiotu, Anca Front Med (Lausanne) Medicine Due to combined therapeutical emissions, a high linear energy transfer Auger-electrons with the longer ranged β(−) particles, (64)Cu-based radiopharmaceuticals raise particular theragnostic interest in cancer, by joined therapeutic and real-time PET imaging properties. The in vitro study aimed to investigate the biological and molecular background of (64)CuCl(2) therapy by analyzing the damages and stress responses inflicted in various human normal and tumor cell lines. Colon (HT29 and HCT116) and prostate carcinoma (DU145) cell lines, as well as human normal BJ fibroblasts, were treated up to 72 h with 2–40 MBq/mL (64)CuCl(2). Radioisotope uptake and retention were assessed, and cell viability/death, DNA damage, oxidative stress, and the expression of 84 stress genes were investigated at various time points after [(64)Cu]CuCl(2) addition. All the investigated cells incorporated (64)Cu ions similarly, independent of their tumoral or normal status, but their fate after exposure to [(64)Cu]CuCl(2) was cell-dependent. The most striking cytotoxic effects of the radioisotope were registered in colon carcinoma HCT116 cells, for which a substantial decrease in the number of metabolically active cells, and an increased DNA damage and oxidative stress were registered. The stress gene expression study highlighted the activation of both death and repair mechanisms in these cells, related to extrinsic apoptosis, necrosis/necroptosis or autophagy, and cell cycle arrest, nucleotide excision repair, antioxidant, and hypoxic responses, respectively. The in vitro study indicated that 40 MBq/mL [(64)Cu]CuCl(2) delivers a therapeutic effect in human colon carcinoma, but its use is limited by harmful, yet lower effects on normal fibroblasts. The exposure of tumor cells to 20 MBq/mL [(64)Cu]CuCl(2), might be used for a softer approach aiming for a lower radiotoxicity in normal fibroblasts as compared to tumor cells. This radioactive concentration was able to induce a persistent decrease in the number of metabolically active cells, accompanied by DNA damage and oxidative stress, associated with significant changes in stress gene expression in HCT116 colon cancer cells. Frontiers Media S.A. 2023-06-21 /pmc/articles/PMC10320858/ /pubmed/37415761 http://dx.doi.org/10.3389/fmed.2023.1197846 Text en Copyright © 2023 Serban, Niculae, Manda, Neagoe, Dobre, Niculae, Temelie, Mustăciosu, Leonte, Chilug, Cornoiu, Cocioabă, Stan and Dinischiotu. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Medicine
Serban, Radu M.
Niculae, Dana
Manda, Gina
Neagoe, Ionela
Dobre, Maria
Niculae, Dragoș A.
Temelie, Mihaela
Mustăciosu, Cosmin
Leonte, Radu A.
Chilug, Livia E.
Cornoiu, Maria R.
Cocioabă, Diana
Stan, Miruna
Dinischiotu, Anca
Modifications in cellular viability, DNA damage and stress responses inflicted in cancer cells by copper-64 ions
title Modifications in cellular viability, DNA damage and stress responses inflicted in cancer cells by copper-64 ions
title_full Modifications in cellular viability, DNA damage and stress responses inflicted in cancer cells by copper-64 ions
title_fullStr Modifications in cellular viability, DNA damage and stress responses inflicted in cancer cells by copper-64 ions
title_full_unstemmed Modifications in cellular viability, DNA damage and stress responses inflicted in cancer cells by copper-64 ions
title_short Modifications in cellular viability, DNA damage and stress responses inflicted in cancer cells by copper-64 ions
title_sort modifications in cellular viability, dna damage and stress responses inflicted in cancer cells by copper-64 ions
topic Medicine
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10320858/
https://www.ncbi.nlm.nih.gov/pubmed/37415761
http://dx.doi.org/10.3389/fmed.2023.1197846
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