An in situ depot for the sustained release of a TLR7/8 agonist in combination with a TGFβ inhibitor promotes anti-tumor immune responses

Sophie B. Jensen; Ditte E. Jæhger; Elizabeth Serrano-Chávez; Hólmfríður R. Halldórsdóttir; Trine B. Engel; Jennifer S. Jørgensen; Unnur J. Björgvinsdóttir; Serhii Kostrikov; Marouschka J. Scheeper; Lars Ringgaard; Linda M. Bruun; Camilla Stavnsbjerg; Esben Christensen; Martin Bak; Julianna Thuroczy; Lajos Balogh; Andreas T. I. Jensen; Fredrik Melander; Andreas Kjaer; Jonas R. Henriksen; Anders E. Hansen; Thomas L. Andresen

doi:10.1038/s41467-024-50967-w

Nature Communications (Sep 2024)

An in situ depot for the sustained release of a TLR7/8 agonist in combination with a TGFβ inhibitor promotes anti-tumor immune responses

Sophie B. Jensen,
Ditte E. Jæhger,
Elizabeth Serrano-Chávez,
Hólmfríður R. Halldórsdóttir,
Trine B. Engel,
Jennifer S. Jørgensen,
Unnur J. Björgvinsdóttir,
Serhii Kostrikov,
Marouschka J. Scheeper,
Lars Ringgaard,
Linda M. Bruun,
Camilla Stavnsbjerg,
Esben Christensen,
Martin Bak,
Julianna Thuroczy,
Lajos Balogh,
Andreas T. I. Jensen,
Fredrik Melander,
Andreas Kjaer,
Jonas R. Henriksen,
Anders E. Hansen,
Thomas L. Andresen

Affiliations

Sophie B. Jensen: Department of Health Technology, Biotherapeutic Engineering and Drug Targeting, Technical University of Denmark
Ditte E. Jæhger: Department of Health Technology, Biotherapeutic Engineering and Drug Targeting, Technical University of Denmark
Elizabeth Serrano-Chávez: Department of Health Technology, Biotherapeutic Engineering and Drug Targeting, Technical University of Denmark
Hólmfríður R. Halldórsdóttir: Department of Health Technology, Biotherapeutic Engineering and Drug Targeting, Technical University of Denmark
Trine B. Engel: Department of Health Technology, Biotherapeutic Engineering and Drug Targeting, Technical University of Denmark
Jennifer S. Jørgensen: Department of Health Technology, Biotherapeutic Engineering and Drug Targeting, Technical University of Denmark
Unnur J. Björgvinsdóttir: Department of Health Technology, Biotherapeutic Engineering and Drug Targeting, Technical University of Denmark
Serhii Kostrikov: Department of Health Technology, Biotherapeutic Engineering and Drug Targeting, Technical University of Denmark
Marouschka J. Scheeper: Department of Health Technology, Biotherapeutic Engineering and Drug Targeting, Technical University of Denmark
Lars Ringgaard: Department of Health Technology, Biotherapeutic Engineering and Drug Targeting, Technical University of Denmark
Linda M. Bruun: Department of Health Technology, Biotherapeutic Engineering and Drug Targeting, Technical University of Denmark
Camilla Stavnsbjerg: Department of Health Technology, Biotherapeutic Engineering and Drug Targeting, Technical University of Denmark
Esben Christensen: Department of Health Technology, Biotherapeutic Engineering and Drug Targeting, Technical University of Denmark
Martin Bak: Department of Health Technology, Biotherapeutic Engineering and Drug Targeting, Technical University of Denmark
Julianna Thuroczy: Animal Health Center Budafok
Lajos Balogh: Animal Health Center Budafok
Andreas T. I. Jensen: Department of Health Technology, Center for Nanomedicine and Theranostics, Technical University of Denmark
Fredrik Melander: Department of Health Technology, Biotherapeutic Engineering and Drug Targeting, Technical University of Denmark
Andreas Kjaer: Department of Clinical Physiology and Nuclear Medicine, Copenhagen University Hospital
Jonas R. Henriksen: Department of Health Technology, Biotherapeutic Engineering and Drug Targeting, Technical University of Denmark
Anders E. Hansen: Department of Health Technology, Biotherapeutic Engineering and Drug Targeting, Technical University of Denmark
Thomas L. Andresen: Department of Health Technology, Biotherapeutic Engineering and Drug Targeting, Technical University of Denmark

DOI: https://doi.org/10.1038/s41467-024-50967-w
Journal volume & issue: Vol. 15, no. 1
pp. 1 – 18

Abstract

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Abstract Cancer curing immune responses against heterogeneous solid cancers require that a coordinated immune activation is initiated in the antigen avid but immunosuppressive tumor microenvironment (TME). The plastic TME, and the poor systemic tolerability of immune activating drugs are, however, fundamental barriers to generating curative anticancer immune responses. Here, we introduce the CarboCell technology to overcome these barriers by forming an intratumoral sustained drug release depot that provides high payloads of immune stimulatory drugs selectively within the TME. The CarboCell thereby induces a hot spot for immune cell training and polarization and further drives and maintains the tumor-draining lymph nodes in an anticancer and immune activated state. Mechanistically, this transforms cancerous tissues, consequently generating systemic anticancer immunoreactivity. CarboCell can be injected through standard thin-needle technologies and has inherent imaging contrast which secure accurate intratumoral positioning. In particular, here we report the therapeutic performance for a dual-drug CarboCell providing sustained release of a Toll-like receptor 7/8 agonist and a transforming growth factor-β inhibitor in preclinical tumor models in female mice.

Published in Nature Communications

ISSN: 2041-1723 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://www.nature.com/ncomms/

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