Drug Repositioning for P-Glycoprotein Mediated Co-Expression Networks in Colorectal Cancer.

Hande Beklen,Kazim Yalcin Arga,Beste Turanli,Gizem Gulfidan,Adil Mardinoglu

doi:10.3389/fonc.2020.01273

Hande Beklen, Kazim Yalcin Arga + Show 3 more

Open Access

https://doi.org/10.3389/fonc.2020.01273

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Abstract

Colorectal cancer (CRC) is one of the most fatal types of cancers that is seen in both men and women. CRC is the third most common type of cancer worldwide. Over the years, several drugs are developed for the treatment of CRC; however, patients with advanced CRC can be resistant to some drugs. P-glycoprotein (P-gp) (also known as Multidrug Resistance 1, MDR1) is a well-identified membrane transporter protein expressed by ABCB1 gene. The high expression of MDR1 protein found in several cancer types causes chemotherapy failure owing to efflux drug molecules out of the cancer cell, decreases the drug concentration, and causes drug resistance. As same as other cancers, drug-resistant CRC is one of the major obstacles for effective therapy and novel therapeutic strategies are urgently needed. Network-based approaches can be used to determine specific biomarkers, potential drug targets, or repurposing approved drugs in drug-resistant cancers. Drug repositioning is the approach for using existing drugs for a new therapeutic purpose; it is a highly efficient and low-cost process. To improve current understanding of the MDR-1-related drug resistance in CRC, we explored gene co-expression networks around ABCB1 gene with different network sizes (50, 100, 150, 200 edges) and repurposed candidate drugs targeting the ABCB1 gene and its co-expression network by using drug repositioning approach for the treatment of CRC. The candidate drugs were also assessed by using molecular docking for determining the potential of physical interactions between the drug and MDR1 protein as a drug target. We also evaluated these four networks whether they are diagnostic or prognostic features in CRC besides biological function determined by functional enrichment analysis. Lastly, differentially expressed genes of drug-resistant (i.e., oxaliplatin, methotrexate, SN38) HT29 cell lines were found and used for repurposing drugs with reversal gene expressions. As a result, it is shown that all networks exhibited high diagnostic and prognostic performance besides the identification of various drug candidates for drug-resistant patients with CRC. All these results can shed light on the development of effective diagnosis, prognosis, and treatment strategies for drug resistance in CRC.

Highlights

Colorectal cancer (CRC) is one of the most lethal types of cancers commonly seen in both men and women
The candidate drugs were assessed by using molecular docking for determining the potential of physical interactions between the drug and Multidrug Resistance 1 (MDR1) protein as a drug target
We showed common drug candidates among the candidates found by using co-expression networks around ABCB1 and the candidates that have reversal gene expression profile in the drug-resistant HT29 cell lines

Summary

Introduction

Colorectal cancer (CRC) is one of the most lethal types of cancers commonly seen in both men and women. This cancer affects the large intestine in the digestive tract. It is known as bowel cancer, rectal cancer, and colon cancer. According to the American Cancer Society research, one out of every 23 women in the USA and one out of every 21 men is exposed to this disease [1]. According to the database published by the International Agency for Research on Cancer, CRC is the third most common type of cancer found in Turkey and worldwide (GLOBOCAN, 2018) [2]. Survival rates and treatment options for CRC may vary depending on a variety of factors including tumor size, location of tumor, and stage of cancer [3]

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