MORE | Fall 2022

Transcriptomic Assays of Immunometabolic Enhancers

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Aging-related diseases are primarily metabolic, leading to long-term inflammation, but in drug discovery, immunometabolism remains difficult to assess and often relies on expensive and low throughput methods like mass spectroscopy or transcriptomics. This project will establish real-time fluorescence assays that model and measure neuroinflammatory response to stimuli in human microglial cells. Fluorescence will be induced using transcription factors known to play a role in neuroinflammation: nuclear factor kappa B (NF-kB) and/or peroxisome proliferator activated receptor (PPAR). Fluorescence will be analyzed and used to quantify cell inflammatory response to stimuli.

Student researcher

Emma Lieberman

Emma Lieberman

Biomedical engineering

Hometown: Phoenix, Arizona, United States

Graduation date: Spring 2022

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