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Biomaterial Delivery System for Type 1 Diabetes Vaccine

$374,186R01FY2015DKNIH

University Of Florida, Gainesville FL

Investigators

Linked publications & trials

Abstract

DESCRIPTION (provided by applicant): Autoimmune diabetes (type 1 diabetes; T1D) is a disease of failed immune regulation. A vaccine for T1D aims to use antigenic material to stimulate regulatory immune responses and restore immune homeostasis. Challenges for successful implementation include finding the best mode of delivery and the best adjuvant for the vaccine to be effective. We have assembled a team of experts in biomaterials and T1D to address these challenges. The goal of this work is to investigate the delivery of relevant vaccine components incorporated into a controlled release biomaterial delivery system for a T1D vaccine. The ability to target and deliver immunomodulating factors in a controlled way to critical immune cell types is key. Our strategy involves the injectable administration of factors (e.g., antigen and adjuvant) formulated in an injectable, in-situ forming hydrogel co-mixed with adjuvant and biodegradable microparticles encapsulating insulin antigen. The adjuvant strategy taken here is along the lines of recent clinical trials for T1D (showing safety but not efficacy), administering pro-inflammatory adjuvants plus antigen with the expectation that inflammation can be resolved with subsequent tolerance to pancreatic antigen. This biomaterial delivery system serves as a temporary microenvironment to attract and educate immune cells. We hypothesize this biomaterial-based vaccine system will recruit and educate immune cells to become tolerant of insulin, ameliorating T1D. The proposed research is innovative, representing targeted, controlled delivery of vaccine components aiming to restore tolerance to T1D self-antigens. Our in vivo preliminary data demonstrate that our approach is promising for the amelioration of T1D.

View original record on NIH RePORTER →