Microenvironment and Immunology Paradoxical Decrease in the Capture and Lymph NodeDelivery of Cancer Vaccine Antigen Induced by a TLR4 Agonist as Visualized by Dual-Mode Imaging

Traditionally, cell-mediated immune responses to vaccination in animal models are evaluated by invasive techniques such as biopsy and organ extraction. We show here that by combining two noninvasive imaging technologies, MRI and bioluminescence imaging (BLI), we can visualize both the afferent and efferent arms of cellular events following vaccination longitudinally. To this end, we evaluated the immune response elicited by a novel Toll-like receptor 4 agonist vaccine adjuvant, glucopyranosyl lipid A (GLA), using a whole-cell tumor vaccine. After magnetovaccination, MRI was used to visualize antigen-presenting cell-mediated antigen capture and subsequent migration to draining lymph nodes (DLN). Paradoxically, we observed that the incorporation of GLA in the vaccine reduced these critical parameters of the afferent immune response. For the efferent arm, the magnitude of the ensuing antigen-specific T-cell response in DLN visualized using BLI correlatedwith antigen delivery to theDLN asmeasured by MRI. These findings were confirmed using flow cytometry. In spite of the GLA-associated reduction in antigen delivery to the DLN, however, the use of GLA as a vaccine adjuvant led to a massive proliferation of vaccine primed antigen-specific T cells in the spleen. This was accompanied by an enhanced tumor therapeutic effect of the vaccine. These findings suggest that GLA adjuvant changes the temporal and anatomical features of both the afferent and efferent arms of the vaccine response and illustrates the utility of quantitative noninvasive imaging as a tool for evaluating these parameters during vaccine optimization. Cancer Res; 75(1); 51–61. 2014 AACR.