Review

. 2024 Dec 31;25(1):2317999.

doi: 10.1080/15384047.2024.2317999. Epub 2024 Mar 6.

Understanding the molecular mechanism responsible for developing therapeutic radiation-induced radioresistance of rectal cancer and improving the clinical outcomes of radiotherapy - A review

Samatha M Jain¹, Shruthi Nagainallur Ravichandran¹, Makalakshmi Murali Kumar¹, Antara Banerjee¹, Alexander Sun-Zhang², Hong Zhang³, Rupak Pathak⁴, Xiao-Feng Sun⁵, Surajit Pathak¹

Affiliations

¹ Faculty of Allied Health Sciences, Chettinad Academy of Research and Education, Chettinad Hospital and Research Institute, Kelambakkam, Chennai, India.
² Department of Oncology-Pathology, BioClinicum, Karolinska Institutet, Stockholm, Sweden.
³ School of Medicine, Department of Medical Sciences, Orebro University, Örebro, Sweden.
⁴ Division of Radiation Health, Department of Pharmaceutical Sciences, University of Arkansas for Medical Sciences, Little Rock, AR, USA.
⁵ Department of Oncology and Department of Biomedical and Clinical Sciences, Linköping University, Linköping, Sweden.

PMID: 38445632
PMCID: PMC10936619
DOI: 10.1080/15384047.2024.2317999

Review

Understanding the molecular mechanism responsible for developing therapeutic radiation-induced radioresistance of rectal cancer and improving the clinical outcomes of radiotherapy - A review

Samatha M Jain et al. Cancer Biol Ther. 2024.

. 2024 Dec 31;25(1):2317999.

doi: 10.1080/15384047.2024.2317999. Epub 2024 Mar 6.

Authors

Samatha M Jain¹, Shruthi Nagainallur Ravichandran¹, Makalakshmi Murali Kumar¹, Antara Banerjee¹, Alexander Sun-Zhang², Hong Zhang³, Rupak Pathak⁴, Xiao-Feng Sun⁵, Surajit Pathak¹

Affiliations

¹ Faculty of Allied Health Sciences, Chettinad Academy of Research and Education, Chettinad Hospital and Research Institute, Kelambakkam, Chennai, India.
² Department of Oncology-Pathology, BioClinicum, Karolinska Institutet, Stockholm, Sweden.
³ School of Medicine, Department of Medical Sciences, Orebro University, Örebro, Sweden.
⁴ Division of Radiation Health, Department of Pharmaceutical Sciences, University of Arkansas for Medical Sciences, Little Rock, AR, USA.
⁵ Department of Oncology and Department of Biomedical and Clinical Sciences, Linköping University, Linköping, Sweden.

PMID: 38445632
PMCID: PMC10936619
DOI: 10.1080/15384047.2024.2317999

Abstract

Rectal cancer accounts for the second highest cancer-related mortality, which is predominant in Western civilizations. The treatment for rectal cancers includes surgery, radiotherapy, chemotherapy, and immunotherapy. Radiotherapy, specifically external beam radiation therapy, is the most common way to treat rectal cancer because radiation not only limits cancer progression but also significantly reduces the risk of local recurrence. However, therapeutic radiation-induced radioresistance to rectal cancer cells and toxicity to normal tissues are major drawbacks. Therefore, understanding the mechanistic basis of developing radioresistance during and after radiation therapy would provide crucial insight to improve clinical outcomes of radiation therapy for rectal cancer patients. Studies by various groups have shown that radiotherapy-mediated changes in the tumor microenvironment play a crucial role in developing radioresistance. Therapeutic radiation-induced hypoxia and functional alterations in the stromal cells, specifically tumor-associated macrophage (TAM) and cancer-associated fibroblasts (CAF), play a crucial role in developing radioresistance. In addition, signaling pathways, such as - the PI3K/AKT pathway, Wnt/β-catenin signaling, and the hippo pathway, modulate the radiation responsiveness of cancer cells. Different radiosensitizers, such as small molecules, microRNA, nanomaterials, and natural and chemical sensitizers, are being used to increase the effectiveness of radiotherapy. This review highlights the mechanism responsible for developing radioresistance of rectal cancer following radiotherapy and potential strategies to enhance the effectiveness of radiotherapy for better management of rectal cancer.

Keywords: DNA double-strand breaks; Rectal cancer; radiosensitizers; radiotherapy.

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Conflict of interest statement

No potential conflict of interest was reported by the author(s).

Figures

**Figure 1.**
The illustration depicts the contributory role of inflammatory cells in the tumor microenvironment leading to radioresistance.

**Figure 2.**
The diagram represents pathways associated with rectal cancer radioresistance.

**Figure 3.**
The figure depicts the wide play of ROS and its molecular mechanism in rectal cancer.

See this image and copyright information in PMC

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Understanding the molecular mechanism responsible for developing therapeutic radiation-induced radioresistance of rectal cancer and improving the clinical outcomes of radiotherapy - A review

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Understanding the molecular mechanism responsible for developing therapeutic radiation-induced radioresistance of rectal cancer and improving the clinical outcomes of radiotherapy - A review

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