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Main Authors: Doghish, Ahmed S, Abdel Mageed, Sherif S, Mohammed, Osama A, Abdel-Reheim, Mustafa Ahmed, Zaki, Mohamed Bakr, Mohamed, Ashraf Hassan, Rizk, Nehal I, Abulsoud, Ahmed I, Abdelmaksoud, Nourhan M, El-Dakroury, Walaa A, Aly, Shaza H
Format: Artículo científico
Language:en
Published: Functional & integrative genomics 2025
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Online Access:https://pubmed.ncbi.nlm.nih.gov/39982533/
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author Doghish, Ahmed S
Abdel Mageed, Sherif S
Mohammed, Osama A
Abdel-Reheim, Mustafa Ahmed
Zaki, Mohamed Bakr
Mohamed, Ashraf Hassan
Rizk, Nehal I
Abulsoud, Ahmed I
Abdelmaksoud, Nourhan M
El-Dakroury, Walaa A
Aly, Shaza H
author_facet Doghish, Ahmed S
Abdel Mageed, Sherif S
Mohammed, Osama A
Abdel-Reheim, Mustafa Ahmed
Zaki, Mohamed Bakr
Mohamed, Ashraf Hassan
Rizk, Nehal I
Abulsoud, Ahmed I
Abdelmaksoud, Nourhan M
El-Dakroury, Walaa A
Aly, Shaza H
Doghish, Ahmed S
Abdel Mageed, Sherif S
Mohammed, Osama A
Abdel-Reheim, Mustafa Ahmed
Zaki, Mohamed Bakr
Mohamed, Ashraf Hassan
Rizk, Nehal I
Abulsoud, Ahmed I
Abdelmaksoud, Nourhan M
El-Dakroury, Walaa A
Aly, Shaza H
collection PubMed - marine biology
contents Natural compounds as regulators of miRNAs: exploring a new avenue for treating colorectal cancer. Doghish, Ahmed S Abdel Mageed, Sherif S Mohammed, Osama A Abdel-Reheim, Mustafa Ahmed Zaki, Mohamed Bakr Mohamed, Ashraf Hassan Rizk, Nehal I Abulsoud, Ahmed I Abdelmaksoud, Nourhan M El-Dakroury, Walaa A Aly, Shaza H Humans MicroRNAs Colorectal Neoplasms Gene Expression Regulation, Neoplastic Animals Phytochemicals Signal Transduction Biological Products Colorectal cancer (CRC) ranks as the second leading cause of cancer-related death globally, impacting both genders equally. The increasing global mortality rates from CRC are strongly linked to contemporary dietary habits, characterized by excessive meat consumption, alcohol intake, and insufficient physical activity. Thus, there is an unprecedented need to develop less hazardous and new therapies for CRC. CRC affects a substantial global population. The main treatments for CRC include chemotherapy and surgical intervention. Nonetheless, the advancement of innovative, safer, and more effective pharmaceuticals for CRC therapy is of paramount importance due to the widespread adverse effects and the dynamic nature of drug resistance. A growing amount of research suggests that natural chemicals may effectively battle CRC and, in certain cases, serve as alternatives to chemotherapeutics. Evidence suggests that miRNAs control important cancer features, including the maintenance of proliferative signals. These features also involve evasion of growth inhibition, resistance to cell death, and immortalization of replication. Additionally, miRNAs play a role in angiogenesis, invasion, and metastasis. Numerous compounds, including those exhibiting cytotoxic and apoptogenic properties against different malignancies, such as CRC, are sourced from diverse marine and medicinal plants. These chemicals stimulate several signaling pathways originating from different phytochemical families. This article evaluates the existing understanding of the anti-CRC capabilities of several phytochemical substances. Furthermore, their impact on several signaling pathways associated with cancer is examined. This article also highlights the potential of medicinal plants as a source of promising anti-CRC chemicals through modulating miRNA expression and the role of nanoparticle-based miRNA therapeutics in enhancing CRC treatment by improving tumor targeting and minimizing off-target effects.
format Artículo científico
id pubmed_39982533
institution PubMed
language en
publishDate 2025
publisher Functional & integrative genomics
record_format pubmed
spellingShingle Natural compounds as regulators of miRNAs: exploring a new avenue for treating colorectal cancer.
Doghish, Ahmed S
Abdel Mageed, Sherif S
Mohammed, Osama A
Abdel-Reheim, Mustafa Ahmed
Zaki, Mohamed Bakr
Mohamed, Ashraf Hassan
Rizk, Nehal I
Abulsoud, Ahmed I
Abdelmaksoud, Nourhan M
El-Dakroury, Walaa A
Aly, Shaza H
Humans
MicroRNAs
Colorectal Neoplasms
Gene Expression Regulation, Neoplastic
Animals
Phytochemicals
Signal Transduction
Biological Products
Natural compounds as regulators of miRNAs: exploring a new avenue for treating colorectal cancer. Doghish, Ahmed S Abdel Mageed, Sherif S Mohammed, Osama A Abdel-Reheim, Mustafa Ahmed Zaki, Mohamed Bakr Mohamed, Ashraf Hassan Rizk, Nehal I Abulsoud, Ahmed I Abdelmaksoud, Nourhan M El-Dakroury, Walaa A Aly, Shaza H Humans MicroRNAs Colorectal Neoplasms Gene Expression Regulation, Neoplastic Animals Phytochemicals Signal Transduction Biological Products Colorectal cancer (CRC) ranks as the second leading cause of cancer-related death globally, impacting both genders equally. The increasing global mortality rates from CRC are strongly linked to contemporary dietary habits, characterized by excessive meat consumption, alcohol intake, and insufficient physical activity. Thus, there is an unprecedented need to develop less hazardous and new therapies for CRC. CRC affects a substantial global population. The main treatments for CRC include chemotherapy and surgical intervention. Nonetheless, the advancement of innovative, safer, and more effective pharmaceuticals for CRC therapy is of paramount importance due to the widespread adverse effects and the dynamic nature of drug resistance. A growing amount of research suggests that natural chemicals may effectively battle CRC and, in certain cases, serve as alternatives to chemotherapeutics. Evidence suggests that miRNAs control important cancer features, including the maintenance of proliferative signals. These features also involve evasion of growth inhibition, resistance to cell death, and immortalization of replication. Additionally, miRNAs play a role in angiogenesis, invasion, and metastasis. Numerous compounds, including those exhibiting cytotoxic and apoptogenic properties against different malignancies, such as CRC, are sourced from diverse marine and medicinal plants. These chemicals stimulate several signaling pathways originating from different phytochemical families. This article evaluates the existing understanding of the anti-CRC capabilities of several phytochemical substances. Furthermore, their impact on several signaling pathways associated with cancer is examined. This article also highlights the potential of medicinal plants as a source of promising anti-CRC chemicals through modulating miRNA expression and the role of nanoparticle-based miRNA therapeutics in enhancing CRC treatment by improving tumor targeting and minimizing off-target effects.
title Natural compounds as regulators of miRNAs: exploring a new avenue for treating colorectal cancer.
topic Humans
MicroRNAs
Colorectal Neoplasms
Gene Expression Regulation, Neoplastic
Animals
Phytochemicals
Signal Transduction
Biological Products
url https://pubmed.ncbi.nlm.nih.gov/39982533/