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Novel commensal polysaccharide treats multiple sclerosis through Treg modulation

$322,928R41FY2014AINIH

Symbiotix Biotherapies, Inc., Brookline MA

Investigators

Linked publications, trials & patents

Abstract

Abstract Multiple sclerosis (MS) is a chronic demyelinating inflammatory disease that is the most common neurological disease of young adults, affecting over 350,000 patients in the US and over 2.5 million patients worldwide. MS is a disease of high unmet medical need, currently treatable with one of several approved drugs, all of which result in either immune modulation or significant immunosuppression or immune ablation that can lead to serious adverse effects including opportunistic infections and malignancy. Symbiotix Biotherapies, Inc. is a startup biotechnology company developing a first-in-class therapeutic agent for MS and other immune- mediated diseases based on discoveries recently emerging from the human microbiome. Our scientific founders have identified a specific gut commensal organism, Bacteroides fragilis, that induces IL-10-secreting regulatory T cells (Treg) that are able to dampen the pro-inflammatory activities of Th1, Th2 and Th17 subsets of T cells. They have furthermore identified a specific bacterial capsular polysaccharide (PSA) from this organism responsible for the protective effect, shown that PSA works through a novel mechanism of Treg activation to expand T cell populations in both germ-free and conventional mice, and shown that oral administration of purified PSA is protective against multiple mouse colitis and experimental allergic encephalomyelitis (EAE) models. Our objective for this Phase 1 STTR project is to conduct key translational studies that will be essential for advancing PSA towards an IND filing as a safe and efficacious new oral treatment for MS. The project consists of 3 Specific Aims: In Specific Aim 1, we will expand on initial in vivo efficacy studies of oral PSA in the murine EAE model to evaluate the effect of PSA in dose-escalating efficacy studies in two strains of mice induced for EAE. In Specific Aim 2, we will develop a pharmacodynamic readout of PSA's effect in mouse plasma, PBMC and lymphoid tissue that will be used as a biomarker for preclinical and clinical studies, and also develop an anti-PSA monoclonal antibody that will be used to directly measure PSA in plasma, urine and stool. In Specific Aim 3, we will evaluate the potential toxicity of PSA using mouse maximal tolerated dose (MTD) studies. Successful completion of this Phase 1 STTR project will generate the preclinical efficacy data, safety data and bioanalytical tools necessary to justify a rapid push towards IND filing that will take PSA into human clinical trials with the support of follow-on Phase II STTR funding. As our company works to translate the groundbreaking academic studies that have resulted in the first therapeutic molecule to emerge from the human microbiome, Phase 1 STTR support will not only lay the groundwork for the development of a revolutionary treatment option for MS, but will also pave the way for application of PSA to other immune-mediated diseases such as inflammatory bowel disease, asthma and rheumatoid arthritis.

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