MiR-140 leads to MRE11 downregulation and ameliorates oxaliplatin treatment and therapy response in colorectal cancer patients

Josef Horak; Josef Horak; Alexandra Dolnikova; Alexandra Dolnikova; Ozge Cumaogullari; Ozge Cumaogullari; Andrea Cumova; Andrea Cumova; Nazila Navvabi; Nazila Navvabi; Ludmila Vodickova; Ludmila Vodickova; Ludmila Vodickova; Miroslav Levy; Michaela Schneiderova; Vaclav Liska; Vaclav Liska; Ladislav Andera; Pavel Vodicka; Pavel Vodicka; Pavel Vodicka; Alena Opattova; Alena Opattova; Alena Opattova

doi:10.3389/fonc.2022.959407

Frontiers in Oncology (Oct 2022)

MiR-140 leads to MRE11 downregulation and ameliorates oxaliplatin treatment and therapy response in colorectal cancer patients

Josef Horak,
Josef Horak,
Alexandra Dolnikova,
Alexandra Dolnikova,
Ozge Cumaogullari,
Ozge Cumaogullari,
Andrea Cumova,
Andrea Cumova,
Nazila Navvabi,
Nazila Navvabi,
Ludmila Vodickova,
Ludmila Vodickova,
Ludmila Vodickova,
Miroslav Levy,
Michaela Schneiderova,
Vaclav Liska,
Vaclav Liska,
Ladislav Andera,
Pavel Vodicka,
Pavel Vodicka,
Pavel Vodicka,
Alena Opattova,
Alena Opattova,
Alena Opattova

Affiliations

Josef Horak: Department of Molecular Biology of Cancer, Institute of Experimental Medicine Czech Academy of Sciences (CAS), Prague, Czechia
Josef Horak: Third Faculty of Medicine, Charles University, Prague, Czechia
Alexandra Dolnikova: Department of Molecular Biology of Cancer, Institute of Experimental Medicine Czech Academy of Sciences (CAS), Prague, Czechia
Alexandra Dolnikova: First Faculty of Medicine, Charles University, Prague, Czechia
Ozge Cumaogullari: Eastern Mediterranean University, Dr. Fazıl Küçük Faculty of Medicine, North Cyprus, Turkey
Ozge Cumaogullari: Gazimağusa State Hospital, Molecular Genetics Research Laboratory, North Cyprus, Turkey
Andrea Cumova: Department of Molecular Biology of Cancer, Institute of Experimental Medicine Czech Academy of Sciences (CAS), Prague, Czechia
Andrea Cumova: First Faculty of Medicine, Charles University, Prague, Czechia
Nazila Navvabi: Department of Molecular Biology of Cancer, Institute of Experimental Medicine Czech Academy of Sciences (CAS), Prague, Czechia
Nazila Navvabi: Biomedical Center in Pilsen, Charles University, Pilsen, Czechia
Ludmila Vodickova: Department of Molecular Biology of Cancer, Institute of Experimental Medicine Czech Academy of Sciences (CAS), Prague, Czechia
Ludmila Vodickova: First Faculty of Medicine, Charles University, Prague, Czechia
Ludmila Vodickova: Biomedical Center in Pilsen, Charles University, Pilsen, Czechia
Miroslav Levy: Surgical Department, 1.st Medical Faculty, Charles University and Thomayer Hospital, Prague, Czechia
Michaela Schneiderova: Department of Surgery, University Hospital Kralovske Vinohrady and 3rd Faculty of Medicine, Charles University, Prague, Czechia
Vaclav Liska: Biomedical Center in Pilsen, Charles University, Pilsen, Czechia
Vaclav Liska: Department of Surgery, Medical Faculty in Pilsen, Charles University, Pilsen, Czechia
Ladislav Andera: 0Institute of Biotechnology, Czech Academy of Sciences (CAS), Vestec, Czechia
Pavel Vodicka: Department of Molecular Biology of Cancer, Institute of Experimental Medicine Czech Academy of Sciences (CAS), Prague, Czechia
Pavel Vodicka: First Faculty of Medicine, Charles University, Prague, Czechia
Pavel Vodicka: Biomedical Center in Pilsen, Charles University, Pilsen, Czechia
Alena Opattova: Department of Molecular Biology of Cancer, Institute of Experimental Medicine Czech Academy of Sciences (CAS), Prague, Czechia
Alena Opattova: First Faculty of Medicine, Charles University, Prague, Czechia
Alena Opattova: Biomedical Center in Pilsen, Charles University, Pilsen, Czechia

DOI: https://doi.org/10.3389/fonc.2022.959407
Journal volume & issue: Vol. 12

Abstract

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Cancer therapy failure is a fundamental challenge in cancer treatment. One of the most common reasons for therapy failure is the development of acquired resistance of cancer cells. DNA-damaging agents are frequently used in first-line chemotherapy regimens and DNA damage response, and DNA repair pathways are significantly involved in the mechanisms of chemoresistance. MRE11, a part of the MRN complex involved in double-strand break (DSB) repair, is connected to colorectal cancer (CRC) patients’ prognosis. Our previous results showed that single-nucleotide polymorphisms (SNPs) in the 3′ untranslated region (3′UTR) microRNA (miRNA) binding sites of MRE11 gene are associated with decreased cancer risk but with shorter survival of CRC patients, which implies the role of miRNA regulation in CRC. The therapy of colorectal cancer utilizes oxaliplatin (oxalato(trans-l-1,2-diaminocyclohexane)platinum), which is often compromised by chemoresistance development. There is, therefore, a crucial clinical need to understand the cellular processes associated with drug resistance and improve treatment responses by applying efficient combination therapies. The main aim of this study was to investigate the effect of miRNAs on the oxaliplatin therapy response of CRC patients. By the in silico analysis, miR-140 was predicted to target MRE11 and modulate CRC prognosis. The lower expression of miR-140 was associated with the metastatic phenotype (p < 0.05) and poor progression-free survival (odds ratio (OR) = 0.4, p < 0.05). In the in vitro analysis, we used miRNA mimics to increase the level of miR-140 in the CRC cell line. This resulted in decreased proliferation of CRC cells (p < 0.05). Increased levels of miR-140 also led to increased sensitivity of cancer cells to oxaliplatin (p < 0.05) and to the accumulation of DNA damage. Our results, both in vitro and in vivo, suggest that miR-140 may act as a tumor suppressor and plays an important role in DSB DNA repair and, consequently, CRC therapy response.

Published in Frontiers in Oncology

ISSN: 2234-943X (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: Medicine: Internal medicine: Neoplasms. Tumors. Oncology. Including cancer and carcinogens
Website: https://www.frontiersin.org/journals/oncology/

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