A simple, clinically relevant therapeutic vaccine shows long-term protection in an aggressive, delayed-treatment B lymphoma model
Pallab Pradhan, … , Jiaying Liu, Krishnendu Roy
Pallab Pradhan, … , Jiaying Liu, Krishnendu Roy
Published November 16, 2017
Citation Information: JCI Insight. 2017;2(22):e92522. https://doi.org/10.1172/jci.insight.92522.
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Research Article Immunology Vaccines

A simple, clinically relevant therapeutic vaccine shows long-term protection in an aggressive, delayed-treatment B lymphoma model

Abstract

Despite initial remission after successful treatments, B lymphoma patients often encounter relapses and resistance causing high mortality. Thus, there is a need to develop therapies that prevent relapse by providing long-term protection and, ultimately, lead to functional cure. In this study, our goal was to develop a simple, clinically relevant, and easily translatable therapeutic vaccine that provides durable immune protection against aggressive B cell lymphoma and identify critical immune biomarkers that are predictive of long-term survival. In a delayed-treatment, aggressive, murine model of A20 B lymphoma that mimics human diffuse large B cell lymphoma, we show that therapeutic A20 lysate vaccine adjuvanted with an NKT cell agonist, α-galactosylceramide (α-GalCer), provides long-term immune protection against lethal tumor challenges and the antitumor immunity is primarily CD8 T cell dependent. Using experimental and computational methods, we demonstrate that the initial strength of germinal center reaction and the magnitude of class-switching into a Th1 type humoral response are the best predictors for the long-term immunity of B lymphoma lysate vaccine. Our results not only provide fundamentally insights for successful immunotherapy and long-term protection against B lymphomas, but also present a simple, therapeutic vaccine that can be translated easily due to the facile and inexpensive method of preparation.

Authors

Pallab Pradhan, Jardin Leleux, Jiaying Liu, Krishnendu Roy

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Figure 2

Therapeutic efficacy of soluble and microparticle-encapsulated A20 lysate vaccine formulations in 7-day preestablished A20 B-lymphoma model.

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Therapeutic efficacy of soluble and microparticle-encapsulated A20 lysat...
(A) Time line for therapeutic immunization and tumor rechallenge studies in 7-day preestablished A20 B cell lymphoma model. (B) Kaplan-Meier survival curve (n = 20 per group, pooled data from 2 independent experiments) for various A20 tumor lysate formulation–treated mice after 2 lethal A20 tumor challenges of 2 × 105 cells/mouse. Naive BALB/C mice were first injected (i.p.) with a lethal dose of A20 cells (2 × 105 cells/mouse), followed by 3 immunizations at days 8, 10, and 14 with various tumor lysate formulations (100 μg lysate protein/mouse, s.c.) and at day 17 with α-GalCer (2 μg/mouse, i.p.). A second challenge with 2 × 105 A20 tumor cells/mouse, i.p., was done at day 56, and moue survival was followed up to 128 days. *P < 0.05, 1-way ANOVA with Tukey multiple comparison tests.