ZIA SC 004020 (ZIA) | |||
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Title | Antigen-specific T-cell Activation, Application to Vaccines for Cancer and AIDS | ||
Institution | NCI, Bethesda, MD | ||
Principal Investigator | Berzofsky, Jay | NCI Program Director | N/A |
Cancer Activity | N/A | Division | CCR |
Funded Amount | $2,416,689 | Project Dates | 10/01/1977 - 00/00/0000 |
Fiscal Year | 2014 | Project Type | Intramural |
Research Topics w/ Percent Relevance | Cancer Types w/ Percent Relevance | ||
Cancer (100.0%) Childhood Cancers (15.0%) Digestive Diseases (10.0%) Interferon (10.0%) Metastasis (30.0%) |
Breast (20.0%) Cervical Cancer (10.0%) Lung (10.0%) Melanoma (20.0%) Prostate (25.0%) Sarcoma (5.0%) |
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Research Type | |||
Vaccines Systemic Therapies - Discovery and Development |
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Abstract | |||
The strategies under Goals above involve several steps that together comprise a push-pull approach. First, we optimize the antigen to improve immunogenicity by epitope enhancement, increasing affinity for MHC. We have done this for 2 new prostate cancer antigens, TARP and POTE. We fully accrued a phase I/II TARP clinical trial in D0 prostate cancer patients with rising PSA levels using a TARP peptide that we epitope-enhanced to improve HLA-A2 binding and a second high affinity one we mapped. The slope of PSA rise significantly decreased among 72% of 40 patients (p = 0.0012) at 24 wks and 74% (p = 0.0004) at 48 wks, suggesting slowing of cancer growth. A randomized placebo-controlled phase II trial is to open in early FY14. The second step is to push the response with molecular adjuvants, such as cytokines, Toll-like receptor (TLR) ligands and NKT agonists, to improve not only the quantity but also the quality of the response. We published that IL-15 is an important mediator of CD4 T cell help for CD8 T cells and also that IL-15 increased the avidity of the CD8 T cells, needed for effective clearance of virus or tumor cells. We translated this to humans showing that IL-15 could substitute for CD4 help to induce a primary in vitro CD8 T cell response of naive T cells whereas IL-2 could not, and restored alloresponsiveness of CD8 T cells from HIV-infected patients to normal levels. We also found that IL-1beta as adjuvant could enhance CD8 T cell responses and skew CD4 help to Th17. We found surprisingly that the Th17 CD4 cells were not good helpers for a CD8 T cell response as measured by IFNgamma production, but rather they skewed the CD8 response to IL-17 production through an effect on DCs. We also investigated TLR ligands as adjuvants, as these can mature DCs and induce production of cytokines like IL-12 and IL-15. We published that a synergistic triple TLR ligand combination induces more effective protection against virus infection by inducing higher avidity T cells, and more IL-15 production. We tested the combination of triple TLR ligands, IL-15, both or neither as vaccine adjuvants in a peptide-prime, MVA-boost mucosal vaccine for SIV in macaques, challenging intrarectally with SIVmac251. Only macaques receiving both showed partial protection. In the adaptive immune arm, only polyfunctional CD8 T cells specific for SIV antigens, but not total specific T cells, correlated with protection. In the innate immune arm, the adjuvants induced long-lived innate protection by APOBEC3G. These adjuvants also increased CD4 cell preservation in the gut, independent of viral load. Adding a PD-1 blocker and an NKT cell agonist led to substantial CD8-dependent protection (after intrarectal SIV challenge) induced by adjuvant alone. Yet vaccine could induce MDSC counteracting vaccine efficacy. The third step is to target the immune response to the relevant tissue, the mucosa in the case of HIV. We published a novel nanoparticle approach to vaccine delivery to the large intestine, using vaccine nanoparticles coated with Eudragit FS30D to allow oral delivery and release of the particles primarily in the large intestine, bypassing the stomach and small intestine. This effectively substituted for intrarectal delivery to protect against rectal or vaginal viral challenge. Moreover, the novel approach allows selective oral delivery to the small or large intestine depending on the Eudragit formulation, making it possible to distinguish the effect of antigen delivery to these compartments for the first time. We found that delivery to the small intestine, in contrast to delivery to the large intestine, does not induce colorectal or vaginal immunity, but does induce immunity in the small intestine. We have recently adapted this approach to non-human primates in an AIDS vaccine. 2/7 animals so immunized were protected from acquisition of SHIVsf162P4 high dose rectal challenge (p=0.04 vs 0/29 controls), although immune correlates of protection are not y" |