Effect of vaccination with autologous tumor-loaded dendritic cells on intratumoral regulatory T cells in metastatic melanoma patients.

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Journal: J Clin Oncol 31, 2013 (suppl; abstr 3040)

Authors:
Massimo Guidoboni, Anna Maria Granato, Valentina Ancarani, Elena Pancisi, Massimiliano Petrini, Angela Riccobon, Laura Fiammenghi, Francesco Drago, Laura Ridolfi, Francesco De Rosa, Oriana Nanni, Linda Valmorri, Giovanni Lanza, Luigi Serra, Giorgio Maria Verdecchia, Giuseppe Migliori, Dino Amadori, Ruggero Ridolfi; Immunotherapy and Somatic Cell Therapy Lab, IRCCS-IRST, Meldola, Italy; Department of Medical Oncology, Paterno’-Arezzo Hospital, Ragusa, Italy; Unit of Biostatistics and Clinical Trials, IRCCS Istituto Scientifico Romagnolo per lo Studio e la Cura dei Tumori, Meldola, Italy; Department of Experimental and Diagnostic Medicine, Section of Anatomic Pathology, Ferrara, Italy; Pathology Unit, Morgagni-Pierantoni Hospital, Forlì, Italy; Advanced Oncological Surgery Unit, Morgagni-Pierantoni Hospital, Forlì, Italy; Blood Transfusion Unit, Morgagni-Pierantoni Hospital, Forli, Italy; Department of Medical Oncology, IRCCS-IRST, Meldola, Italy; Immunotherapy and Somatic Cell Therapy Lab, IRST-IRCCS, Meldola, Italy

ABSTRACT

Background: Vaccination with dendritic cells (DC) is still a valid experimental option for metastatic melanoma (MM). However, only a few patients experience long-lasting objective responses and the majority of clinical responders afterwards relapse and die. Which mechanisms are actually responsible for this “secondary resistance” to whole tumor antigens-loaded DC vaccines is largely unknown. It has been hypothesized that suppressive immune cell subpopulations, regulatory T cells in particular, may progressively accumulate in tumor tissues thus hampering therapy-induced antitumor immune responses along time. To elucidate this issue we evaluated changes induced by immunologically effective DC vaccination in the composition of tumor-associated T cell subpopulations.

Methods: 12 patients with MM previously enrolled in a phase I/II DC vaccine trial and for which tumor tissue taken before and after at least 4 induction vaccine doses were available, were included in the study. Intratumoral lymphocytes were evaluated by CD3, CD4, CD8, FoxP3 and GrB immunostainings, and quantified by a computer-assisted method. A nonparametric two-tailed Wilcoxon signed-rank test was utilized for evaluating differences in the distribution of the number of cell positive for each marker on the total cell counts in pre- and post-vaccine biopsies.

Results: Our data showed a considerable and statistically significant decrease of intratumoral FoxP3+regulatory T cells in melanoma tissues after DC vaccination. In addition, the concurrent increase of intratumoral activated cytotoxic T lymphocytes, as shown by CD8 and Granzyme B stainings, indicated that this decrease has likely a functional relevance.

Conclusions: Our findings that vaccination with DC loaded with autologous tumor lysate strongly reduces the intratumoral content of regulatory T cells add strength to the rationale for the development of potentially more effective combination schedules where whole tumor antigen-loaded DC vaccine prime and partially activate tumor-specific low-affinity T cells in a first tumor antigen-focusing step, followed by boosting with non-maximal doses of anti-CTLA-4 antibodies.

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