Where: Building 9 Lecture hall 1
Credit: 1
Description
Lecture by Jeremiah Gassensmith, Professor of Chemistry and Biochemistry at the University of Texas at Dallas.
ABOUT THIS LECTURE
Transportation of vaccines requires constant refrigeration from the time they are formulated until they are administered. The infrastructure to keep these medicines cold contributes to 80% of their total cost. Approaches to create temperature stabilized protein formulations typically involve confining proteins in a polymeric or excipient matrix. It has long been appreciated that proteins immobilized in environments that limit their conformational freedom to enhance their thermal stability by inhibiting the folding pathways to lower energy denatured states. We recently described a method to produce protein-stabilizing shells over virus-like particles (VLPs) using a porous metal-coordination polymer comprised only of Zn2+ and 2-methylimidazole (HMIM) called a zeolitic imidazolate framework (ZIF). This composite nanomaterial (VLP@ZIF) can be subjected to conditions (extreme heat and prolong exposure to organic solvents) that should denature the VLP; however, after dissolving the ZIF shell in the presence of chelators, the released VLP still binds antibodies as well as unstressed samples. Live mouse imaging experiments show that VLP@ZIF injected subcutaneously slowly dissolves over the course of 10 days and the mice produce a much more powerful antibody response from the “VLP@ZIF” composite compared to the unencapsulated VLP. We can exploit the protective effects of the ZIF shell to create extended release polymer formulations that would eliminate the need for multiple booster shots. Presently, however, the mechanism of in vivo release and how the ZIF-based nanocomposites interact with the immune system are open questions.
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Jeremiah Gassensmith
Jeremiah Gassensmith is a University Professor at the University of Texas at Dallas. He earned his bachelors degree at Indiana University and his Ph.D. at the University of Notre Dame, where he studied the synthesis of sterically shielded near-infrared luminescent dyes. After obtaining his Ph.D., he traveled to Northwestern University, where he investigated a diverse array of topics, including gas sequestration by cyclodextrin based metal-organic frameworks. He has received several awards, such a new doctoral investigator award by the American Chemical Society's Petroleum Research Fund, and an NSF CAREER award.
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