| Literature DB >> 32561531 |
Hannah M Knochelmann1,2, Connor J Dwyer3,2, Aubrey S Smith3,2, Jacob S Bowers3,2, Megan M Wyatt3,2, Michelle H Nelson3,2, Guillermo O Rangel Rivera3,2, Joshua D Horton3, Carsten Krieg3, Kent Armeson4, Gregory B Lesinski5, Mark P Rubinstein3,6, Zihai Li7, Chrystal M Paulos1,2.
Abstract
The accessibility of adoptive T-cell transfer therapies (ACT) is hindered by the cost and time required for product development. Here we describe a streamlined ACT protocol using Th17 cells expanded only 4 days ex vivo. While shortening expansion compromised cell yield, this method licensed Th17 cells to eradicate large tumors to a greater extent than cells expanded longer term. Day 4 Th17 cells engrafted, induced release of multiple cytokines including IL6, IL17, MCP-1, and GM-CSF in the tumor-bearing host, and persisted as memory cells. IL6 was a critical component for efficacy of these therapies via its promotion of long-term immunity and resistance to tumor relapse. Mechanistically, IL6 diminished engraftment of FoxP3+ donor T cells, corresponding with robust tumor infiltration by donor effector over regulatory cells for the Day 4 Th17 cell product relative to cell products expanded longer durations ex vivo. Collectively, this work describes a method to rapidly generate therapeutic T-cell products for ACT and implicates IL6 in promoting durable immunity of Th17 cells against large, established solid tumors. SIGNIFICANCE: An abbreviated, 4-day ex vivo expansion method licenses Th17 cells to confer long-lived immunity against solid malignancies via induction of systemic IL6 in the host.See related commentary by Fiering and Ho, p. 3795. ©2020 American Association for Cancer Research.Entities:
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Year: 2020 PMID: 32561531 PMCID: PMC7501223 DOI: 10.1158/0008-5472.CAN-19-3685
Source DB: PubMed Journal: Cancer Res ISSN: 0008-5472 Impact factor: 12.701