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Gene Expression Alterations and Molecular Analysis of CHEK1 in Solid Tumors

Alterations in the Checkpoint kinase (CHEK1) gene, its regulation, and the possible clinical outcomes in human solid tumors have not been previously examined. Therefore, the present study was carried out to evaluate the expression of CHEK1 in solid tumors as well as the mechanism by which it can be...

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Autores principales: Fadaka, Adewale Oluwaseun, Bakare, Olalekan Olanrewaju, Sibuyi, Nicole Remaliah Samantha, Klein, Ashwil
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2020
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7139733/
https://www.ncbi.nlm.nih.gov/pubmed/32178478
http://dx.doi.org/10.3390/cancers12030662
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author Fadaka, Adewale Oluwaseun
Bakare, Olalekan Olanrewaju
Sibuyi, Nicole Remaliah Samantha
Klein, Ashwil
author_facet Fadaka, Adewale Oluwaseun
Bakare, Olalekan Olanrewaju
Sibuyi, Nicole Remaliah Samantha
Klein, Ashwil
author_sort Fadaka, Adewale Oluwaseun
collection PubMed
description Alterations in the Checkpoint kinase (CHEK1) gene, its regulation, and the possible clinical outcomes in human solid tumors have not been previously examined. Therefore, the present study was carried out to evaluate the expression of CHEK1 in solid tumors as well as the mechanism by which it can be regulated through non-coding RNAs. The expression of CHEK1 was investigated using Oncomine analysis. cBioPortal, Kaplan–Meier Plotter, and PrognoScan were performed to identify the prognostic roles of this gene in solid tumors. The copy number alteration, mutation, interactive analysis, and visualization of the altered networks were performed by cBioPortal. The molecular binding analysis was carried out by Schrodinger suite, PATCHDOCK, and discovery studio visualizer. The study demonstrated that the CHEK1 gene was differentially expressed in four different cancers, and that reduced CHEK1 mRNA expression is an unfavorable prognostic factor for patients with gastric and colorectal cancer. The molecular docking results showed that the CHEK1 gene can be regulated by microRNAs (miR-195-5p) due to the number of stable hydrogen atoms observed within the distance of 2.0 Å and the favorable amino acids (Ala221, Ile353, Ile365, Ile756, Val797, Val70, Val154, Ile159, Val347, Tyr804, Phe811, Tyr815, and Phe156) identified in the binding pocket of the argonaute protein. Due to the possibility of CHEK1’s involvement in solid tumors, it may potentially be a target for therapeutic intervention in cancer. Further studies into the interaction between CHEK1 and other co-expressed genes may give further insight into other modes of regulation of this gene in cancer patients.
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spelling pubmed-71397332020-04-10 Gene Expression Alterations and Molecular Analysis of CHEK1 in Solid Tumors Fadaka, Adewale Oluwaseun Bakare, Olalekan Olanrewaju Sibuyi, Nicole Remaliah Samantha Klein, Ashwil Cancers (Basel) Article Alterations in the Checkpoint kinase (CHEK1) gene, its regulation, and the possible clinical outcomes in human solid tumors have not been previously examined. Therefore, the present study was carried out to evaluate the expression of CHEK1 in solid tumors as well as the mechanism by which it can be regulated through non-coding RNAs. The expression of CHEK1 was investigated using Oncomine analysis. cBioPortal, Kaplan–Meier Plotter, and PrognoScan were performed to identify the prognostic roles of this gene in solid tumors. The copy number alteration, mutation, interactive analysis, and visualization of the altered networks were performed by cBioPortal. The molecular binding analysis was carried out by Schrodinger suite, PATCHDOCK, and discovery studio visualizer. The study demonstrated that the CHEK1 gene was differentially expressed in four different cancers, and that reduced CHEK1 mRNA expression is an unfavorable prognostic factor for patients with gastric and colorectal cancer. The molecular docking results showed that the CHEK1 gene can be regulated by microRNAs (miR-195-5p) due to the number of stable hydrogen atoms observed within the distance of 2.0 Å and the favorable amino acids (Ala221, Ile353, Ile365, Ile756, Val797, Val70, Val154, Ile159, Val347, Tyr804, Phe811, Tyr815, and Phe156) identified in the binding pocket of the argonaute protein. Due to the possibility of CHEK1’s involvement in solid tumors, it may potentially be a target for therapeutic intervention in cancer. Further studies into the interaction between CHEK1 and other co-expressed genes may give further insight into other modes of regulation of this gene in cancer patients. MDPI 2020-03-12 /pmc/articles/PMC7139733/ /pubmed/32178478 http://dx.doi.org/10.3390/cancers12030662 Text en © 2020 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Fadaka, Adewale Oluwaseun
Bakare, Olalekan Olanrewaju
Sibuyi, Nicole Remaliah Samantha
Klein, Ashwil
Gene Expression Alterations and Molecular Analysis of CHEK1 in Solid Tumors
title Gene Expression Alterations and Molecular Analysis of CHEK1 in Solid Tumors
title_full Gene Expression Alterations and Molecular Analysis of CHEK1 in Solid Tumors
title_fullStr Gene Expression Alterations and Molecular Analysis of CHEK1 in Solid Tumors
title_full_unstemmed Gene Expression Alterations and Molecular Analysis of CHEK1 in Solid Tumors
title_short Gene Expression Alterations and Molecular Analysis of CHEK1 in Solid Tumors
title_sort gene expression alterations and molecular analysis of chek1 in solid tumors
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7139733/
https://www.ncbi.nlm.nih.gov/pubmed/32178478
http://dx.doi.org/10.3390/cancers12030662
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