Adaptive metabolic rewiring to chronic SFK inhibition

Edgar Pinedo-Carpio; David Davidson; Veronica L. Martinez Marignac; Justin Panasci; Raquel Aloyz

doi:10.18632/oncotarget.8146

Oncotarget

Oncotarget (a primarily oncology-focused, peer-reviewed, open access journal) aims to maximize research impact through insightful peer-review; eliminate borders between specialties by linking different fields of oncology, cancer research and biomedical sciences; and foster application of basic and clinical science.

Its scope is unique. The term "oncotarget" encompasses all molecules, pathways, cellular functions, cell types, and even tissues that can be viewed as targets relevant to cancer as well as other diseases. The term was introduced in the inaugural Editorial, Introducing Oncotarget.

As of January 1, 2022, Oncotarget has shifted to a continuous publishing model. Papers will now be published continuously within yearly volumes in their final and complete form and then quickly released to Pubmed.

Subscribe to receive alerts once a paper has been published by Oncotarget.

Impact Journals, LLC is the publisher of Oncotarget: www.impactjournals.com.

Impact Journals is a member of the Wellcome Trust List of Compliant Publishers.

Impact Journals is a member of the Society for Scholarly Publishing.

On December 23, 2022, Oncotarget server experienced a DDoS attack. As a result, Oncotarget site was inaccessible for a few hours. Oncotarget team swiftly dealt with the situation and took it under control. This malicious action will be reported to the FBI.

Research Papers:

Adaptive metabolic rewiring to chronic SFK inhibition

Edgar Pinedo-Carpio _, David Davidson, Veronica L. Martinez Marignac, Justin Panasci and Raquel Aloyz

PDF | HTML | Supplementary Files | How to cite

Oncotarget. 2017; 8:66758-66768. https://doi.org/10.18632/oncotarget.8146

Metrics: PDF 1602 views | HTML 2736 views | ?

Abstract

Edgar Pinedo-Carpio1, David Davidson1, Veronica L. Martinez Marignac2, Justin Panasci1 and Raquel Aloyz1

1Jewish General Hospital, Lady Davis Institute & McGill University, Faculty of Medicine, Division of Experimental Medicine & Department of Oncology, Montréal, Québec H3T 1E2, Canada

2CICYTTP IBIOGEM, CONICET, Diamante Argentina, Diamante CP3105, Entre Rios Argentina

Correspondence to:

Raquel Aloyz, email: [email protected]

Keywords: acquired resistance, SKF inhibition, PI3K, TGFβ, metabolism

Received: November 13, 2015 Accepted: March 02, 2016 Published: March 17, 2016

ABSTRACT

Src family kinases (SFK) are key regulators of cellular proliferation, differentiation, survival, motility and angiogenesis. As such, SFK inhibitors are being tested in clinical trials to prevent metastasis as an alternative to current treatment regimens for a variety of cancers including breast cancer. To contribute to the development of molecular tools improving SFK-targeted therapies, we used the SFK inhibitor dasatinib and a well characterized triple negative breast cancer cell line (BT20). Comparison of the response of BT20 cells with acquired resistance to dasatinib and its’ parental counterpart suggest that chronic exposure to SFK inhibition results in increased dependency on TGFβ signaling for proliferation, both in the absence or the presence of dasatinib. In addition, we found that acquired (but not de novo) resistance to dasatinib was reduced by non-cytotoxic concentrations compounds hindering on PI3K, mTORC1 signaling, endoplasmic reticulum stress or autophagy.

All site content, except where otherwise noted, is licensed under a Creative Commons Attribution 4.0 License.
PII: 8146

Publication Alerts

Research Papers:

Adaptive metabolic rewiring to chronic SFK inhibition

Abstract