# Synthesis, Characterization, and Biological Evaluation of Aliphatic‐Substituted Benzimidazole Derivatives: Induction of Apoptosis, Cell Cycle Arrest, and Molecular Docking in Breast Cancer Cells

**Authors:** Murat Keser, Çisil Çamlı Pulat, Harika Atmaca, Hakan Akgün, Canan Albay, Emre Menteşe, Hakan Bektaş, Suleyman Ilhan

PMC · DOI: 10.1002/ddr.70267 · 2026-03-29

## TL;DR

A new benzimidazole compound shows strong anticancer effects in breast cancer cells by causing cell cycle arrest and apoptosis.

## Contribution

A new benzimidazole derivative with dual anticancer mechanisms was synthesized and evaluated for its multitarget interactions.

## Key findings

- Compound 4 showed potent cytotoxicity against breast cancer cells with IC₅₀ values comparable to cisplatin.
- Compound 4 induced S phase cell cycle arrest and apoptosis in breast cancer cells.
- Molecular docking revealed strong interactions with CDK2, Bcl-2, and Bcl-xL, supporting its multitarget mechanism.

## Abstract

A new series of aliphatic‐substituted benzimidazole derivatives was synthesized and structurally characterized to evaluate their potential anticancer activity. Among the synthesized compounds, compound 4 exhibited the most potent cytotoxic effects against MCF‐7 and MDA‐MB‐231 breast cancer cell lines, with IC₅₀ values comparable to those of cisplatin, while displaying lower toxicity toward normal breast epithelial cells (MCF‐10A). Flow cytometric analysis revealed that treatment with compound 4 resulted in significant accumulation of cells in the S phase, indicating inhibition of DNA synthesis and replication. Furthermore, Annexin V/PI double‐staining analysis demonstrated a marked increase in both early and late apoptotic cell populations, confirming the activation of apoptotic pathways. Molecular docking studies supported these experimental findings by revealing strong interactions of compound 4 with key regulatory proteins involved in apoptosis and cell cycle progression, including Bcl‐2, Bcl‐xL, CDK2, and Cyclin E. The compound exhibited the highest binding affinity toward CDK2 (–164.055 kcal/mol), forming hydrogen bonds with critical residues (LEU134, ASP145, GLN131, and LYS33) within the ATP‐binding pocket, suggesting potential inhibition of kinase activity. Interactions with Bcl‐2 and Bcl‐xL occurred within the BH3‐binding grooves, which may impair their anti‐apoptotic functions and promote mitochondrial‐mediated apoptosis. Collectively, the in vitro and in silico results indicate that this newly synthesized benzimidazole derivative exerts its anticancer effects through a dual mechanism involving cell cycle arrest and apoptosis induction. The selective cytotoxicity and multitarget interaction profile of compound 4 highlight its potential as a promising lead compound for the development of novel therapeutic agents against breast cancer.

## Linked entities

- **Proteins:** BCL2 (BCL2 apoptosis regulator), Bcl2l1 (BCL2-like 1), CDK2 (cyclin dependent kinase 2), CycE (Cyclin E)
- **Chemicals:** cisplatin (PubChem CID 5460033)
- **Diseases:** breast cancer (MONDO:0004989)

## Full-text entities

- **Genes:** NR4A1 (nuclear receptor subfamily 4 group A member 1) [NCBI Gene 3164] {aka GFRP1, HMR, N10, NAK-1, NGFIB, NP10}, CCNB1 (cyclin B1) [NCBI Gene 891] {aka CCNB}, BCL2L1 (BCL2 like 1) [NCBI Gene 598] {aka BCL-XL/S, BCL2L, BCLX, Bcl-X, PPP1R52}, EGF (epidermal growth factor) [NCBI Gene 1950] {aka HOMG4, URG}, INS (insulin) [NCBI Gene 3630] {aka IDDM, IDDM1, IDDM2, ILPR, IRDN, MODY10}, BCL2 (BCL2 apoptosis regulator) [NCBI Gene 596] {aka Bcl-2, PPP1R50}, BAK1 (BCL2 antagonist/killer 1) [NCBI Gene 578] {aka BAK, BAK-LIKE, BCL2L7, CDN1}, KCNH2 (potassium voltage-gated channel subfamily H member 2) [NCBI Gene 3757] {aka ERG-1, ERG1, H-ERG, HERG, HERG1, Kv11.1}, EGFR (epidermal growth factor receptor) [NCBI Gene 1956] {aka ERBB, ERBB1, ERRP, HER1, NISBD2, NNCIS}, TYMS (thymidylate synthetase) [NCBI Gene 7298] {aka DKCD, HST422, TMS, TS}, BAX (BCL2 associated X, apoptosis regulator) [NCBI Gene 581] {aka BCL2L4}, ANXA5 (annexin A5) [NCBI Gene 308] {aka ANX5, CPB-I, ENX2, HEL-S-7, PP4, RPRGL3}, CDK2 (cyclin dependent kinase 2) [NCBI Gene 1017] {aka CDKN2, p33(CDK2)}
- **Diseases:** Cancer (MESH:D009369), ADMET (MESH:C562790), necrosis (MESH:D009336), infectious diseases (MESH:D003141), Breast Cancer (MESH:D001943), microbial infections (MESH:D015163), infection (MESH:D007239), Toxicity (MESH:D064420)
- **Chemicals:** p-chlorophenyl isocyanate (MESH:C452229), OH (MESH:C031356), octanol (MESH:D000442), PI (MESH:D010716), DMSO (MESH:D004121), penicillin (MESH:D010406), ROS (MESH:D017382), 4-methoxybenzaldehyde (MESH:C024896), PS (MESH:D010718), BH3 (MESH:C006008), n-octanol (MESH:D020003), N (MESH:D009584), Benzimidazole (MESH:C031000), water (MESH:D014867), MTT (MESH:C070243), phenyl isocyanate (MESH:C025319), CS2 (MESH:D002246), metal (MESH:D008670), ATP (MESH:D000255), Ames (MESH:C017501), CO2 (MESH:D002245), KOH (MESH:C029943), ammonia (MESH:D000641), 1,3,4-oxadiazole (MESH:C583463), HCl (MESH:D006851), benzimidazoles (MESH:D001562), S (MESH:D013455), 13C (MESH:C000615229), C (MESH:D002244), 3H (MESH:D014316), imidazole (MESH:C029899), ethanol (MESH:D000431), O (MESH:D010100), 4-bromobenzaldehyde (-), benzene (MESH:D001554), streptomycin (MESH:D013307), Hydrogen (MESH:D006859), hydrocortisone (MESH:D006854), CP (MESH:D002945), NaOH (MESH:D012972), H2SO4 (MESH:C033158), 2H (MESH:D003903), amide (MESH:D000577), F-12 (MESH:C007782), alcohol (MESH:D000438), oxadiazole (MESH:D010069), formazan (MESH:D005562), PI (MESH:D011419)
- **Species:** Rattus norvegicus (brown rat, species) [taxon 10116], Homo sapiens (human, species) [taxon 9606]
- **Mutations:** C-227 C, C-246 C, C-289 C, C-203 C, C) for 15, C-241 C, C-226 C, C-233 C, C-202 C, C-292 C
- **Cell lines:** MCF-7 — Homo sapiens (Human), Invasive breast carcinoma of no special type, Cancer cell line (CVCL_0031), MDA-MB-231 — Homo sapiens (Human), Breast adenocarcinoma, Cancer cell line (CVCL_0062), MCF-10A — Homo sapiens (Human), Spontaneously immortalized cell line (CVCL_0598)

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC13033344/full.md

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Source: https://tomesphere.com/paper/PMC13033344