A Profile of the In Vitro Anti-Tumor Activity and In Silico ADME Predictions of Novel Benzothiazole Amide-Functionalized Imidazolium Ionic Liquids

Fawzia Al-Blewi; Nadjet Rezki; Arshi Naqvi; Husna Qutb Uddin; Salsabeel Al-Sodies; Mouslim Messali; Mohamed Reda Aouad; Sanaa Bardaweel

doi:10.3390/ijms20122865

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A Profile of the In Vitro Anti-Tumor Activity and In Silico ADME Predictions of Novel Benzothiazole Amide-Functionalized Imidazolium Ionic Liquids

Fawzia Al-Blewi, Nadjet Rezki, Arshi Naqvi, Husna Qutb Uddin, Salsabeel Al-Sodies, Mouslim Messali, Mohamed Reda Aouad and Sanaa Bardaweel

International journal of molecular sciences, Vol.20(12), p.2865

12/06/2019

DOI: https://doi.org/10.3390/ijms20122865

PMCID: PMC6627815

PMID: 31212762

Abstract

Antineoplastic Agents - chemistry

Antineoplastic Agents - pharmacokinetics

Antineoplastic Agents - pharmacology

Apoptosis - drug effects

Benzothiazoles - chemistry

Cell Line, Tumor

Cell Proliferation - drug effects

Chemical Phenomena

Humans

Imidazoles - chemistry

Imidazoles - pharmacokinetics

Imidazoles - pharmacology

Ionic Liquids - chemistry

Magnetic Resonance Spectroscopy

A focused array of green imidazolium ionic liquids (ILs) encompassing benzothiazole ring and amide linkage were designed and synthesized using quaternization and metathesis protocols. The synthesized ILs have been fully characterized by usual spectroscopic methods and screened for their anticancer activities against human cancer cell lines originating from breast and colon cancers. Collectively, our biological data demonstrate that the newly synthesized series has variable anticancer activities in the examined cancer types. The synthesized ILs , and comprising the methyl and methyl sulfonyl benzothiazole ring emerged as the most potent compounds with promising antiproliferative activities relative to their benzothiazole ring counterparts. Furthermore, the mechanism underlying the observed anticancer activity was investigated. The most active compound appears to exert its anticancer effect through apoptosis dependent pathway in breast cancer cells. Interestingly, compound has also shown good in silico absorption (81.75%) along with high gastro-intestinal absorption as per ADME predictions.

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Title: A Profile of the In Vitro Anti-Tumor Activity and In Silico ADME Predictions of Novel Benzothiazole Amide-Functionalized Imidazolium Ionic Liquids
Creators - without role: Fawzia Al-Blewi - Taibah University
Nadjet Rezki - Taibah University
Arshi Naqvi - Taibah University
Husna Qutb Uddin - Taibah University
Salsabeel Al-Sodies - Taibah University
Mouslim Messali - Taibah University
Mohamed Reda Aouad - Taibah University
Sanaa Bardaweel - University of Jordan
Publication Details: International journal of molecular sciences, Vol.20(12), p.2865
Identifiers: 9916666608331
Academic Unit: Imam Mohammad Ibn Saud Islamic University (IMSIU); King Abdulaziz University; Taibah University
Language: English
Resource Type: Journal article