A nanobody targeting the F-actin capping protein CapG restrains breast cancer metastasis

INTRODUCTION: Aberrant turnover of the actin cytoskeleton is intimately associated with cancer cell migration and invasion. Frequently however, evidence is circumstantial, and a reliable assessment of the therapeutic significance of a gene product is offset by lack of inhibitors that target biologic...

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Autores principales: Van Impe, Katrien, Bethuyne, Jonas, Cool, Steven, Impens, Francis, Ruano-Gallego, David, De Wever, Olivier, Vanloo, Berlinda, Van Troys, Marleen, Lambein, Kathleen, Boucherie, Ciska, Martens, Evelien, Zwaenepoel, Olivier, Hassanzadeh-Ghassabeh, Gholamreza, Vandekerckhove, Joël, Gevaert, Kris, Fernández, Luis Ángel, Sanders, Niek N, Gettemans, Jan
Formato: Online Artículo Texto
Lenguaje:English
Publicado: BioMed Central 2013
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3979033/
https://www.ncbi.nlm.nih.gov/pubmed/24330716
http://dx.doi.org/10.1186/bcr3585
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author Van Impe, Katrien
Bethuyne, Jonas
Cool, Steven
Impens, Francis
Ruano-Gallego, David
De Wever, Olivier
Vanloo, Berlinda
Van Troys, Marleen
Lambein, Kathleen
Boucherie, Ciska
Martens, Evelien
Zwaenepoel, Olivier
Hassanzadeh-Ghassabeh, Gholamreza
Vandekerckhove, Joël
Gevaert, Kris
Fernández, Luis Ángel
Sanders, Niek N
Gettemans, Jan
author_facet Van Impe, Katrien
Bethuyne, Jonas
Cool, Steven
Impens, Francis
Ruano-Gallego, David
De Wever, Olivier
Vanloo, Berlinda
Van Troys, Marleen
Lambein, Kathleen
Boucherie, Ciska
Martens, Evelien
Zwaenepoel, Olivier
Hassanzadeh-Ghassabeh, Gholamreza
Vandekerckhove, Joël
Gevaert, Kris
Fernández, Luis Ángel
Sanders, Niek N
Gettemans, Jan
author_sort Van Impe, Katrien
collection PubMed
description INTRODUCTION: Aberrant turnover of the actin cytoskeleton is intimately associated with cancer cell migration and invasion. Frequently however, evidence is circumstantial, and a reliable assessment of the therapeutic significance of a gene product is offset by lack of inhibitors that target biologic properties of a protein, as most conventional drugs do, instead of the corresponding gene. Proteomic studies have demonstrated overexpression of CapG, a constituent of the actin cytoskeleton, in breast cancer. Indirect evidence suggests that CapG is involved in tumor cell dissemination and metastasis. In this study, we used llama-derived CapG single-domain antibodies or nanobodies in a breast cancer metastasis model to address whether inhibition of CapG activity holds therapeutic merit. METHODS: We raised single-domain antibodies (nanobodies) against human CapG and used these as intrabodies (immunomodulation) after lentiviral transduction of breast cancer cells. Functional characterization of nanobodies was performed to identify which biochemical properties of CapG are perturbed. Orthotopic and tail vein in vivo models of metastasis in nude mice were used to assess cancer cell spreading. RESULTS: With G-actin and F-actin binding assays, we identified a CapG nanobody that binds with nanomolar affinity to the first CapG domain. Consequently, CapG interaction with actin monomers or actin filaments is blocked. Intracellular delocalization experiments demonstrated that the nanobody interacts with CapG in the cytoplasmic environment. Expression of the nanobody in breast cancer cells restrained cell migration and Matrigel invasion. Notably, the nanobody prevented formation of lung metastatic lesions in orthotopic xenograft and tail-vein models of metastasis in immunodeficient mice. We showed that CapG nanobodies can be delivered into cancer cells by using bacteria harboring a type III protein secretion system (T3SS). CONCLUSIONS: CapG inhibition strongly reduces breast cancer metastasis. A nanobody-based approach offers a fast track for gauging the therapeutic merit of drug targets. Mapping of the nanobody-CapG interface may provide a platform for rational design of pharmacologic compounds.
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spelling pubmed-39790332014-04-08 A nanobody targeting the F-actin capping protein CapG restrains breast cancer metastasis Van Impe, Katrien Bethuyne, Jonas Cool, Steven Impens, Francis Ruano-Gallego, David De Wever, Olivier Vanloo, Berlinda Van Troys, Marleen Lambein, Kathleen Boucherie, Ciska Martens, Evelien Zwaenepoel, Olivier Hassanzadeh-Ghassabeh, Gholamreza Vandekerckhove, Joël Gevaert, Kris Fernández, Luis Ángel Sanders, Niek N Gettemans, Jan Breast Cancer Res Research Article INTRODUCTION: Aberrant turnover of the actin cytoskeleton is intimately associated with cancer cell migration and invasion. Frequently however, evidence is circumstantial, and a reliable assessment of the therapeutic significance of a gene product is offset by lack of inhibitors that target biologic properties of a protein, as most conventional drugs do, instead of the corresponding gene. Proteomic studies have demonstrated overexpression of CapG, a constituent of the actin cytoskeleton, in breast cancer. Indirect evidence suggests that CapG is involved in tumor cell dissemination and metastasis. In this study, we used llama-derived CapG single-domain antibodies or nanobodies in a breast cancer metastasis model to address whether inhibition of CapG activity holds therapeutic merit. METHODS: We raised single-domain antibodies (nanobodies) against human CapG and used these as intrabodies (immunomodulation) after lentiviral transduction of breast cancer cells. Functional characterization of nanobodies was performed to identify which biochemical properties of CapG are perturbed. Orthotopic and tail vein in vivo models of metastasis in nude mice were used to assess cancer cell spreading. RESULTS: With G-actin and F-actin binding assays, we identified a CapG nanobody that binds with nanomolar affinity to the first CapG domain. Consequently, CapG interaction with actin monomers or actin filaments is blocked. Intracellular delocalization experiments demonstrated that the nanobody interacts with CapG in the cytoplasmic environment. Expression of the nanobody in breast cancer cells restrained cell migration and Matrigel invasion. Notably, the nanobody prevented formation of lung metastatic lesions in orthotopic xenograft and tail-vein models of metastasis in immunodeficient mice. We showed that CapG nanobodies can be delivered into cancer cells by using bacteria harboring a type III protein secretion system (T3SS). CONCLUSIONS: CapG inhibition strongly reduces breast cancer metastasis. A nanobody-based approach offers a fast track for gauging the therapeutic merit of drug targets. Mapping of the nanobody-CapG interface may provide a platform for rational design of pharmacologic compounds. BioMed Central 2013 2013-12-13 /pmc/articles/PMC3979033/ /pubmed/24330716 http://dx.doi.org/10.1186/bcr3585 Text en Copyright © 2013 Van Impe et al.; licensee BioMed Central Ltd. http://creativecommons.org/licenses/by/2.0 This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Article
Van Impe, Katrien
Bethuyne, Jonas
Cool, Steven
Impens, Francis
Ruano-Gallego, David
De Wever, Olivier
Vanloo, Berlinda
Van Troys, Marleen
Lambein, Kathleen
Boucherie, Ciska
Martens, Evelien
Zwaenepoel, Olivier
Hassanzadeh-Ghassabeh, Gholamreza
Vandekerckhove, Joël
Gevaert, Kris
Fernández, Luis Ángel
Sanders, Niek N
Gettemans, Jan
A nanobody targeting the F-actin capping protein CapG restrains breast cancer metastasis
title A nanobody targeting the F-actin capping protein CapG restrains breast cancer metastasis
title_full A nanobody targeting the F-actin capping protein CapG restrains breast cancer metastasis
title_fullStr A nanobody targeting the F-actin capping protein CapG restrains breast cancer metastasis
title_full_unstemmed A nanobody targeting the F-actin capping protein CapG restrains breast cancer metastasis
title_short A nanobody targeting the F-actin capping protein CapG restrains breast cancer metastasis
title_sort nanobody targeting the f-actin capping protein capg restrains breast cancer metastasis
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3979033/
https://www.ncbi.nlm.nih.gov/pubmed/24330716
http://dx.doi.org/10.1186/bcr3585
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