BiTE secretion from in situ-programmed myeloid cells results in tumor-retained pharmacology

Bispecific T-Cell Engagers (BiTEs) are effective at inducing remission in hematologic cancers, but their use in solid tumors has been challenging due to their extreme potency and on-target, off-tumor toxicities in healthy tissue. Their deployment against solid tumors is further complicated by insuff...

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Veröffentlicht in:	Journal of controlled release 2022-02, Vol.342, p.14-25
Hauptverfasser:	Hao, S., Inamdar, V.V., Sigmund, E.C., Zhang, F., Stephan, S.B., Watson, C., Weaver, S.J., Nielsen, U.B., Stephan, M.T.
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Sprache:	eng
Schlagworte:	Bi-specific T-cell engagers (BiTEs) In situ gene therapy Nanotechnology
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container_title	Journal of controlled release
container_volume	342
creator	Hao, S. Inamdar, V.V. Sigmund, E.C. Zhang, F. Stephan, S.B. Watson, C. Weaver, S.J. Nielsen, U.B. Stephan, M.T.
description	Bispecific T-Cell Engagers (BiTEs) are effective at inducing remission in hematologic cancers, but their use in solid tumors has been challenging due to their extreme potency and on-target, off-tumor toxicities in healthy tissue. Their deployment against solid tumors is further complicated by insufficient drug penetration, a hostile tumor microenvironment, and immune escape. To address these challenges, we developed targeted nanocarriers that can deliver in vitro-transcribed mRNA encoding BiTEs to host myeloid cells – a cell type that is actively recruited into the tumor microenvironment. We demonstrate in an immunocompetent mouse model of ovarian cancer, that infusion of these nanoparticles directs BiTE expression to tumor sites, which reshapes the microenvironment from suppressive to permissive and triggers disease regression without systemic toxicity. In contrast, conventional injections of recombinant BiTE protein at doses required to achieve anti-tumor activity, induced systemic inflammatory responses and severe tissue damage in all treated animals. Implemented in the clinic, this in situ gene therapy could enable physicians – with a single therapeutic – to safely target tumor antigen that would otherwise not be druggable due to the risks of on-target toxicity and, at the same time, reset the tumor milieu to boost key mediators of antitumor immune responses. [Display omitted]
doi_str_mv	10.1016/j.jconrel.2021.12.029
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Their deployment against solid tumors is further complicated by insufficient drug penetration, a hostile tumor microenvironment, and immune escape. To address these challenges, we developed targeted nanocarriers that can deliver in vitro-transcribed mRNA encoding BiTEs to host myeloid cells – a cell type that is actively recruited into the tumor microenvironment. We demonstrate in an immunocompetent mouse model of ovarian cancer, that infusion of these nanoparticles directs BiTE expression to tumor sites, which reshapes the microenvironment from suppressive to permissive and triggers disease regression without systemic toxicity. In contrast, conventional injections of recombinant BiTE protein at doses required to achieve anti-tumor activity, induced systemic inflammatory responses and severe tissue damage in all treated animals. Implemented in the clinic, this in situ gene therapy could enable physicians – with a single therapeutic – to safely target tumor antigen that would otherwise not be druggable due to the risks of on-target toxicity and, at the same time, reset the tumor milieu to boost key mediators of antitumor immune responses. [Display omitted]</description><identifier>ISSN: 0168-3659</identifier><identifier>EISSN: 1873-4995</identifier><identifier>DOI: 10.1016/j.jconrel.2021.12.029</identifier><identifier>PMID: 34953983</identifier><language>eng</language><publisher>Netherlands: Elsevier B.V</publisher><subject>Bi-specific T-cell engagers (BiTEs) ; In situ gene therapy ; Nanotechnology</subject><ispartof>Journal of controlled release, 2022-02, Vol.342, p.14-25</ispartof><rights>2021</rights><rights>Copyright © 2021. 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Their deployment against solid tumors is further complicated by insufficient drug penetration, a hostile tumor microenvironment, and immune escape. To address these challenges, we developed targeted nanocarriers that can deliver in vitro-transcribed mRNA encoding BiTEs to host myeloid cells – a cell type that is actively recruited into the tumor microenvironment. We demonstrate in an immunocompetent mouse model of ovarian cancer, that infusion of these nanoparticles directs BiTE expression to tumor sites, which reshapes the microenvironment from suppressive to permissive and triggers disease regression without systemic toxicity. In contrast, conventional injections of recombinant BiTE protein at doses required to achieve anti-tumor activity, induced systemic inflammatory responses and severe tissue damage in all treated animals. Implemented in the clinic, this in situ gene therapy could enable physicians – with a single therapeutic – to safely target tumor antigen that would otherwise not be druggable due to the risks of on-target toxicity and, at the same time, reset the tumor milieu to boost key mediators of antitumor immune responses. 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subjects	Bi-specific T-cell engagers (BiTEs) In situ gene therapy Nanotechnology
title	BiTE secretion from in situ-programmed myeloid cells results in tumor-retained pharmacology
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