Bi-specific molecule against EGFR and death receptors simultaneously targets proliferation and death pathways in tumors

Bi-specific molecule against EGFR and death receptors simultaneously targets proliferation and death pathways in tumors

Abstract Developing therapeutics that target multiple receptor signaling pathways in tumors is critical as therapies targeting single specific biomarker/pathway have shown limited efficacy in patients with cancer. In this study, we extensively characterized a bi-functional molecule comprising of epi...

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Main Authors: Yanni Zhu, Nicole Bassoff, Clemens Reinshagen, Deepak Bhere, Michal O. Nowicki, Sean E. Lawler, Jérémie Roux, Khalid Shah
Format: Article
Language:English
Published: Nature Publishing Group 2017-06-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-02483-9
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spelling doaj-2012dc1702134a00bc4fa931d84efa4f2020-12-08T00:38:34ZengNature Publishing GroupScientific Reports2045-23222017-06-017111110.1038/s41598-017-02483-9Bi-specific molecule against EGFR and death receptors simultaneously targets proliferation and death pathways in tumorsYanni Zhu0Nicole Bassoff1Clemens Reinshagen2Deepak Bhere3Michal O. Nowicki4Sean E. Lawler5Jérémie Roux6Khalid Shah7Center for Stem Cell Therapeutics and Imaging, Massachusetts General Hospital, Harvard Medical SchoolCenter for Stem Cell Therapeutics and Imaging, Massachusetts General Hospital, Harvard Medical SchoolCenter for Stem Cell Therapeutics and Imaging, Massachusetts General Hospital, Harvard Medical SchoolCenter for Stem Cell Therapeutics and Imaging, Massachusetts General Hospital, Harvard Medical SchoolDepartment of Neurosurgery, Brigham and Women′s Hospital, Harvard Medical SchoolDepartment of Neurosurgery, Brigham and Women′s Hospital, Harvard Medical SchoolDepartment of Systems Biology, Harvard Medical SchoolCenter for Stem Cell Therapeutics and Imaging, Massachusetts General Hospital, Harvard Medical SchoolAbstract Developing therapeutics that target multiple receptor signaling pathways in tumors is critical as therapies targeting single specific biomarker/pathway have shown limited efficacy in patients with cancer. In this study, we extensively characterized a bi-functional molecule comprising of epidermal growth factor receptor (EGFR) targeted nanobody (ENb) and death receptor (DR) targeted ligand TRAIL (ENb-TRAIL). We show that ENb-TRAIL has therapeutic efficacy in tumor cells from different cancer types which do not respond to either EGFR antagonist or DR agonist monotherapies. Utilizing pharmacological inhibition, genetic loss of function and FRET studies, we show that ENb-TRAIL blocks EGFR signalling via the binding of ENb to EGFR which in turn induces DR5 clustering at the plasma membrane and thereby primes tumor cells to caspase-mediated apoptosis. In vivo, using a clinically relevant orthotopic resection model of primary glioblastoma and engineered stem cells (SC) expressing ENb-TRAIL, we show that the treatment with synthetic extracellular matrix (sECM) encapsulated SC-ENb-TRAIL alleviates tumor burden and significantly increases survival. This study is the first to report novel mechanistic insights into simultaneous targeting of receptor-mediated proliferation and cell death signaling pathways in different tumor types and presents a promising approach for translation into the clinical setting.https://doi.org/10.1038/s41598-017-02483-9
collection DOAJ
language English
format Article
sources DOAJ
author Yanni Zhu
Nicole Bassoff
Clemens Reinshagen
Deepak Bhere
Michal O. Nowicki
Sean E. Lawler
Jérémie Roux
Khalid Shah
spellingShingle Yanni Zhu
Nicole Bassoff
Clemens Reinshagen
Deepak Bhere
Michal O. Nowicki
Sean E. Lawler
Jérémie Roux
Khalid Shah
Bi-specific molecule against EGFR and death receptors simultaneously targets proliferation and death pathways in tumors
Scientific Reports
author_facet Yanni Zhu
Nicole Bassoff
Clemens Reinshagen
Deepak Bhere
Michal O. Nowicki
Sean E. Lawler
Jérémie Roux
Khalid Shah
author_sort Yanni Zhu
title Bi-specific molecule against EGFR and death receptors simultaneously targets proliferation and death pathways in tumors
title_short Bi-specific molecule against EGFR and death receptors simultaneously targets proliferation and death pathways in tumors
title_full Bi-specific molecule against EGFR and death receptors simultaneously targets proliferation and death pathways in tumors
title_fullStr Bi-specific molecule against EGFR and death receptors simultaneously targets proliferation and death pathways in tumors
title_full_unstemmed Bi-specific molecule against EGFR and death receptors simultaneously targets proliferation and death pathways in tumors
title_sort bi-specific molecule against egfr and death receptors simultaneously targets proliferation and death pathways in tumors
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-06-01
description Abstract Developing therapeutics that target multiple receptor signaling pathways in tumors is critical as therapies targeting single specific biomarker/pathway have shown limited efficacy in patients with cancer. In this study, we extensively characterized a bi-functional molecule comprising of epidermal growth factor receptor (EGFR) targeted nanobody (ENb) and death receptor (DR) targeted ligand TRAIL (ENb-TRAIL). We show that ENb-TRAIL has therapeutic efficacy in tumor cells from different cancer types which do not respond to either EGFR antagonist or DR agonist monotherapies. Utilizing pharmacological inhibition, genetic loss of function and FRET studies, we show that ENb-TRAIL blocks EGFR signalling via the binding of ENb to EGFR which in turn induces DR5 clustering at the plasma membrane and thereby primes tumor cells to caspase-mediated apoptosis. In vivo, using a clinically relevant orthotopic resection model of primary glioblastoma and engineered stem cells (SC) expressing ENb-TRAIL, we show that the treatment with synthetic extracellular matrix (sECM) encapsulated SC-ENb-TRAIL alleviates tumor burden and significantly increases survival. This study is the first to report novel mechanistic insights into simultaneous targeting of receptor-mediated proliferation and cell death signaling pathways in different tumor types and presents a promising approach for translation into the clinical setting.
url https://doi.org/10.1038/s41598-017-02483-9
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