Logo-apb
Adv Pharm Bull. 2023;13(3): 583-591.
doi: 10.34172/apb.2023.063
PMID: 37646048
PMCID: PMC10460806
  Abstract View: 640
  PDF Download: 350
  Full Text View: 160

Research Article

Designing Potent Anticancer Peptides by Aurein 1.2 Key Residues Mutation and Catenate Cell-Penetrating Peptide

Hamta Salarpour Garnaie 1 ORCID logo, Arman Shahabi 2, Mohammad Hossein Geranmayeh 3 ORCID logo, Abolfazel Barzegar 1* ORCID logo, Ahmad Yari Khosroushahi 3,4* ORCID logo

1 Department of Biophysics, Research Institute for Fundamental Sciences (RIFS), University of Tabriz, Tabriz, Iran.
2 Cell Therapy and Regenerative Medicine Comprehensive Center, Kerman University of Medical Sciences, Kerman, Iran.
3 Drug Applied Research Center, Tabriz University of Medical Sciences, Tabriz, Iran.
4 Department of Medical Nanotechnology, Faculty of Advanced Medical Sciences, Tabriz University of Medical Sciences, Tabriz, Iran.
*Corresponding Authors: Abolfazel Barzegar, Email: barzegar@tabrizu.ac.ir; Ahmad Yari Khosroushahi, Emails: yarikhosroushahia@ tbzmed.ac.ir; , Email: ayarikh@gmail.com

Abstract

Purpose: Aurein 1.2 (Aur) peptide is known for possessing anticancer characteristics devoid of conventional therapeutics side effects. For improving Aur peptide anticancer functionality, different anticancer peptides were constructed based on Aur peptide through targeting two separate strategies, including (1) sequence-based mutations and (2) adding a cell-penetrating peptide linker.

Methods: The study was approached by designing three different analogs of Aur, including (a) Aur mutant (Aurm), (b) Aur with N-terminal polyarginine linker (R5-Aur), and (c) Aurm with R5 (R5-Aurm). Computational molecular dynamics simulations clearly showed higher structural stability of R5-Aur and R5-Aurm compared to Aur, solely. The α-helical properties of R5-Aur and R5-Aurm were protected during 500 ns simulations in water solution while no such structural conservation was seen for Aur in silico.

Results: The results of the current study highlight response to one of the main challenges of cancer therapy through selective invasion of Aur to cancer cells without significant involvement of normal cells. This issue was confirmed by different assays, including: MTT assay, flow cytometry, qPCR, and nuclei morphological observations. Furthermore, this study intensifies exploiting in silico approaches for adjusting drug delivery. The results of different assessments on designed peptides reveal an anticancer activity pattern rising from Aur toward Aurm, and R5- Aur, consecutively.

Conclusion: The designed structure of Aur shows improved anticancer activity through molecular changes which makes it suggestable for anticancer therapies.

First Name
Last Name
Email Address
Comments
Security code


Abstract View: 640

Your browser does not support the canvas element.


PDF Download: 350

Your browser does not support the canvas element.


Full Text View: 160

Your browser does not support the canvas element.

Submitted: 30 Apr 2022
Revision: 03 Nov 2022
Accepted: 04 Dec 2022
ePublished: 06 Dec 2022
EndNote EndNote

(Enw Format - Win & Mac)

BibTeX BibTeX

(Bib Format - Win & Mac)

Bookends Bookends

(Ris Format - Mac only)

EasyBib EasyBib

(Ris Format - Win & Mac)

Medlars Medlars

(Txt Format - Win & Mac)

Mendeley Web Mendeley Web
Mendeley Mendeley

(Ris Format - Win & Mac)

Papers Papers

(Ris Format - Win & Mac)

ProCite ProCite

(Ris Format - Win & Mac)

Reference Manager Reference Manager

(Ris Format - Win only)

Refworks Refworks

(Refworks Format - Win & Mac)

Zotero Zotero

(Ris Format - Firefox Plugin)