# Deoxybouvardin Glucoside Induces Apoptosis in Oxaliplatin-Sensitive and -Resistant Colorectal Cancer Cells via Reactive Oxygen Species-Mediated Activation of JNK and p38 MAPK

**Authors:** Seung-On Lee, Sang Hoon Joo, Jisu Park, Quan T. Khong, Si Yeong Seo, Goo Yoon, Jin Woo Park, MinKyun Na, Jung-Hyun Shim

PMC · DOI: 10.4014/jmb.2410.10008 · 2025-01-30

## TL;DR

Deoxybouvardin glucoside (DBG) kills both sensitive and resistant colorectal cancer cells by triggering cell death through specific molecular pathways.

## Contribution

DBG induces apoptosis in oxaliplatin-resistant CRC cells via ROS-mediated activation of JNK and p38 MAPK.

## Key findings

- DBG reduces cell viability and induces apoptosis in CRC cells.
- ROS generation is essential for DBG-induced apoptosis, confirmed by NAC pretreatment.
- DBG causes G2/M cell cycle arrest by modulating key regulatory proteins.

## Abstract

The roots of Rubia spp. (Rubiaceae) have been employed to treat hematemesis, inflammatory disease, and tumor. Cyclohexapeptides derived from Rubia spp. have been reported to have antitumor potential; however, the mechanism of action for their antitumor activity remains unclear. We aimed to examine the antitumor effect of deoxybouvardin glucoside (DBG), a cyclohexapeptide from Rubia spp. on oxaliplatin (Ox)-resistant human HCT116 colorectal cancer (CRC) cells. Cell viability in the presence of DBG was monitored using an MTT viability assay, and flow cytometry was used to analyze changes in apoptosis, cell cycle, mitochondrial membrane potential (MMP), and reactive oxygen species (ROS) activity. The antiproliferative activity involved apoptosis and phosphorylation of JNK and p38 MAPK. Inhibition of JNK and p38 MAPK by specific inhibitors prevented DBG-induced apoptosis, underscoring the close involvement of these kinases. Further, DBG induced cell cycle arrest in CRC cells at the G2/M phase by regulating the p21, p27, cyclin B1, and cdc2 proteins. DBG-induced apoptosis was accompanied mitochondrial membrane depolarization, resulting in cytochrome c release into the cytoplasm and caspase activation. Remarkably, DBG induced apoptosis by generating high ROS levels. The mediation of apoptosis by increased ROS generation was confirmed by pretreatment with the ROS scavenger N-acetyl cysteine (NAC). Collectively, DBG exhibited anticancer activity against both Ox-sensitive and Ox-resistant CRC cells by targeting JNK and p38 MAPK, inducing cell cycle arrest, elevating cellular ROS levels, and disrupting MMP. This study suggests that DBG has the potential to be utilized as a therapeutic agent for treating Ox-resistant CRC.

## Linked entities

- **Genes:** CDKN1A (cyclin dependent kinase inhibitor 1A) [NCBI Gene 1026], IFI27 (interferon alpha inducible protein 27) [NCBI Gene 3429], CycB (Cyclin B) [NCBI Gene 37618], CDK1 (cyclin dependent kinase 1) [NCBI Gene 983]
- **Proteins:** MAPK8 (mitogen-activated protein kinase 8), P38mapk (p38 map kinase), Cyt-c-d (Cytochrome c distal), LOC5567300 (caspase-3)
- **Chemicals:** oxaliplatin (PubChem CID 9887053), N-acetyl cysteine (PubChem CID 12035)
- **Diseases:** colorectal cancer (MONDO:0005575)

## Full-text entities

- **Genes:** CYCS (cytochrome c, somatic) [NCBI Gene 54205] {aka CYC, HCS, THC4}, CDKN1A (cyclin dependent kinase inhibitor 1A) [NCBI Gene 1026] {aka CAP20, CDKN1, CIP1, MDA-6, P21, SDI1}, DCTN6 (dynactin subunit 6) [NCBI Gene 10671] {aka WS-3, WS3, p27}, CCNB1 (cyclin B1) [NCBI Gene 891] {aka CCNB}, CDK1 (cyclin dependent kinase 1) [NCBI Gene 983] {aka CDC2, CDC28A, P34CDC2}, MAPK8 (mitogen-activated protein kinase 8) [NCBI Gene 5599] {aka JNK, JNK-46, JNK1, JNK1A2, JNK21B1/2, PRKM8}
- **Diseases:** inflammatory disease (MESH:D007249), mitochondrial membrane depolarization (MESH:D015433), tumor (MESH:D009369), hematemesis (MESH:D006396), CRC (MESH:D015179)
- **Species:** Homo sapiens (human, species) [taxon 9606]
- **Cell lines:** HCT116 — Homo sapiens (Human), Colon carcinoma, Cancer cell line (CVCL_0291)

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11876011/full.md

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Source: https://tomesphere.com/paper/PMC11876011