PhD Defense by Sangeetha Srinivasan

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  • Date/Time:
    • Tuesday November 1, 2016
      2:00 pm - 4:00 pm
  • Location: ES&T (EAS) 1229
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Summary Sentence: Conditioning Dendritic Cell Responses using Engineered Biomaterials for Immunotherapy

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Sangeetha Srinivasan

PhD Defense Presentation

November 1st, 2016 at 2:00pm

ES&T (EAS) 1229

 

Advisor: Julia E. Babensee, PhD (Georgia Institute of Technology)

 

Committee Members:

Julie A. Champion, PhD (Georgia Institute of Technology)

Susan N. Thomas, PhD (Georgia Institute of Technology)

Edward A. Botchwey, PhD (Georgia Institute of Technology)

Krishnendu Roy, PhD (Georgia Institute of Technology)

 

Conditioning Dendritic Cell Responses using Engineered Biomaterials for Immunotherapy

Pivotal discoveries in the field of immunology over the last five decades have changed the way new therapies are designed for applications as varied as organ transplantation, autoimmune diseases or even cancer. In this regard, dendritic cells (DCs) were identified to play an important role in the orchestration of adaptive immune response. Importantly, the phenotype of DCs is a powerful indicator of their downstream effector functions. In the recent years, parallel advancements made in biomaterial design and biocompatibility considerations are being directly translated into developing improved immunotherapies. Interestingly, biomaterials also elicit differential effects on the host immune response as well as on the phenotypic state of DCs.

 The first objective of this doctoral thesis was to validate the role of DCs in the previously documented in vivo PLGA adjuvant effect in boosting a humoral immune response to co-delivered antigen. Herein, by conditionally ablating DCs in a murine CD11c-DTR model, the adjuvant effect of PLGA towards co-delivered OVA was revisited. The diminished proliferation of adoptively transferred OVA-reactive T-cells in these mice was suggestive of a lowered adjuvant effect due to the absence of CD11c+ DCs. The second objective of this thesis was to design, develop and validate a multicomponent, multifunctional immunomodulatory (MI) scaffold comprised of macroporous agarose as the base scaffold material into which were embedded crosslinked gelatin microparticles (MPs), pre-loaded with immunomodulators, for their controlled release to mimic tolerogenic human or murine DC culture conditions. Aided by empirical modeling, using the Weibull equation, of experimental data using ‘model’ proteins, we identified parameters of gelatin MP crosslinking density and number of embedded MPs in agarose to achieve prescribed temporal controlled release of immunomodulators for induction of tolerogenic DCs.  The prescribed MI scaffold aimed to release granulocyte monocyte colony-stimulating factor (GM-CSF; delivered within 0-3 days) to induce differentiation of monocyte precursors into DCs after dexamethasone (DEX, delivered within 3-6 days) addition would induce regulatory properties to these cells as well as peptidoglycan (PGN, delivered on days 5-6) to induce an alternative activated phenotype in DCs.  Such alternatively activated DCs (aaDCs), are endowed with immunosuppressive as well as directed lymph node migratory properties to effectively exert their tolerogenic effect.  Ability of this MI scaffold to induce tolerogenic phenotype in human blood-derived as well as murine bone marrow-derived cells was demonstrated upon in vitro treatment using a large cadre of immunological assessments.

In summary, this thesis documents the importance of DCs in the biomaterial adjuvant effect in vivo and provides a construct formulation that can be used to generate aaDCs with tolerogenic and migratory properties that are highly relevant in designing future immunotherapies targeting autoimmune diseases as well as in alleviating allograft rejection.

 

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  • Created By: Tatianna Richardson
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  • Created On: Oct 19, 2016 - 9:42am
  • Last Updated: Oct 19, 2016 - 9:42am