Modeling and antitumor studies of a modified L-penetratin peptide targeting E2F in lung cancer and prostate cancer.

Tazeem Shaik,Emine E Abali,Zoltan Szekely,John E Kerrigan,Joseph R Bertino,Tamara Minko,Debabrata Banerjee,Olga Garbuzenko,Kathleen W Scotto,Nitu Bansal,Gulam M Rather

doi:10.18632/oncotarget.26064

Tazeem Shaik, Emine E Abali + Show 9 more

Open Access

https://doi.org/10.18632/oncotarget.26064

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Journal: Oncotarget	Publication Date: Sep 7, 2018
Citations: 7	License type: cc-by

Affiliation: Rutgers, The State University of New Jersey

Abstract

E2F1-3a overexpression due to amplification or to mutation or loss of the retinoblastoma gene, induces genes involved in DNA synthesis and leads to abnormal cellular proliferation, tumor growth, and invasion. Therefore, inhibiting the overexpression of one or more of these activating E2Fs is a recognized target in cancer therapeutics. In previous studies we identified by phage display, a novel 7-mer peptide (PEP) that bound tightly to an immobilized consensus E2F1 promoter sequence, and when conjugated to penetratin to increase its uptake into cells, was cytotoxic to several malignant cell lines and human prostate and small cell lung cancer xenografts. Based on molecular simulation studies that showed that the D-Arg penetratin peptide (D-Arg PEP) secondary structure is more stable than the L-Arg PEP, the L-Arg in the peptide was substituted with D-Arg. In vitro studies confirmed that it was more stable than the L- form and was more cytotoxic as compared to the L-Arg PEP when tested against the human castrate resistant cell line, DU145 and the human lung cancer H196 cell line. When encapsulated in PEGylated liposomes, the D-Arg-PEP potently inhibited growth of the DU145 xenograft in mice. Our findings validate D- Arg PEP, an inhibitor of E2F1and 3a transcription, as an improved second generation drug candidate for targeted molecular therapy of cancers with elevated levels of activated E2F(s).

Highlights

Tumor and normal cell proliferation is mainly controlled by signals from the microenvironment which either stimulate or inhibit cell proliferation
The other level of comparison is between the non-protected peptides versus the N and C-terminal protected peptides described in computational methods
Protection of the N and C terminal ends of the peptide destabilizes the α-helix in both the L-Arg and D-Arg peptides and the protected peptides are predicted to be less effective binders

Summary

Introduction

Tumor and normal cell proliferation is mainly controlled by signals from the microenvironment which either stimulate or inhibit cell proliferation. E2F1, E2F2, and E2F3a represent growth-promoting transcription factors and overexpression of E2F1 and/ or 3 has been documented in various human cancers, including diffuse large cell lymphoma (DLCL), head and neck carcinoma, invasive ductal breast carcinoma, www.oncotarget.com non-small cell lung carcinoma and prostate cancer [18]. The development of castrate resistant prostate cancer involves activation of an E2F1 mediated cell cycle network, implicating E2F1 as a key player in the process [7,10]. E2F1 plays a significant role as an oncogene and regulates multiple downstream targets relating to the cell cycle and proliferation [8,10,11,12]

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