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ADAPTIVE EVENTS IN THE TUMOR LIMIT THE SUCCESS OF CANCER IMMUNOTHERAPY

<p>Pre-clinical and clinical data strongly support the use of immunotherapies for cancer treatment. Cancer vaccines offer a promising approach, however, the outcomes of clinical vaccine trials have been largely disappointing, prompting a need for further investigation. Using the B16F10 murine melanoma, we have investigated the local events within growing tumors following recombinant adenovirus immunization. In chapter 2, we investigated the ability of a pre-clinical vaccine to elicit only transient tumor growth suppression. We observed that tumors were initially infiltrated by a small number of highly functional tumor-specific CD8+ T cells following vaccination that instigated a rapid adaptive response in the tumor that suppressed local immune activity. In chapter 3, we questioned whether increasing the rate and magnitude of early immune attack would result in more robust tumor attack prior to tumor adaptation. Increasing the rate of tumor-specific CD8+ T cell expansion following vaccination resulted in tumor regression and durable cures in approximately 65% of treated mice. Further analysis revealed that tumor regression correlated with an early burst in immune attack that outpaced tumor adaptation. In chapter 4, we explored whether the same vaccine could be improved when combined with immunomodulatory antibodies. Vaccination combined with anti 4-1BB and anti PD-1 resulted in complete tumor regression and durable cure of >70% of treated animals and was associated with increased local immune activity. Gene expression profiling revealed a unique gene signature associated with the curative treatment, which was also associated with positive outcome in human melanoma patients. The described research sheds new light on mechanisms that limit the efficacy of therapeutic cancer vaccines. Namely, rapid tumor adaptation, triggered by early vaccine-induced CD8+ T cells, acts to suppress the local immune response prior to maximal immune attack. Strategies to overcome these adaptive processes should therefore be considered in future vaccine design.</p> / Doctor of Philosophy (Medical Science)

Identiferoai:union.ndltd.org:mcmaster.ca/oai:macsphere.mcmaster.ca:11375/12798
Date04 1900
CreatorsMcGray, Robert AJ
ContributorsBramson, Jonathan, Medical Sciences
Source SetsMcMaster University
Detected LanguageEnglish
Typethesis

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