An early TAGC abstract submission: Bess Frost
Bess Frost, PhD
Barshop Institute for Longevity & Aging Studies
University of Texas Health Science Center at San Antonio
Why are you excited to participate in TAGC?
Since my expertise is in Alzheimer’s disease, the conferences I have attended in the past typically focus on neurodegenerative diseases. I recently joined the Barshop Institute for Longevity and Aging Studies as an assistant professor, however, and am excited to become more involved in the aging community.
By bringing together scientists from all facets of aging research, TAGC provides the perfect setting for us to reach beyond our particular tissue or disease of interest and consider aging from a more global, organismal level. – Bess Frost on why you should attend TAGC
What kind of work do you do?
I combine fly models of neurodegenerative disorders with comparative studies in postmortem human brain tissue to identify novel cellular mechanisms driving neurodegeneration. I’m currently focused on nucleocytoplasmic transport, epigenetics, and noncoding RNA in the context of Alzheimer’s disease.
If this work interests you, please join us! I’m actively recruiting students and postdocs. (Contact me)
What was your path to your current position?
- I was an undergraduate at the University of Texas at Austin in the laboratory of Dr. Susan Bergeson (she is currently the Associate Dean of the Graduate School of Biomedical Sciences at Texas Tech University), where I worked on gene expression changes in the brain as a consequence of chronic alcohol exposure.
- I was a PhD student in Dr. Marc Diamond’s laboratory at UCSF (he is now the founding director of the Center for Alzheimer’s and Neurodegenerative Diseases at UT Southwestern), where I found that tau, a protein involved in Alzheimer’s disease and other distinct neurodegenerative diseases, has prion-like properties.
- I was a postdoctoral fellow with Dr. Mel Feany, Professor of Pathology at Brigham and Women’s Hospital/Harvard Medical School, where I was trained in fly models of neurodegenerative diseases. I found that pathological tau disrupts cytoskeletal/nucleoskeletal coupling, which causes relaxation of heterochromatin and subsequent neuronal death in Alzheimer’s disease and related tauopathies.
- I began as an assistant professor at UT Health Science Center San Antonio in November of 2015.
I love the rush of being on the precipice of a scientific breakthrough. – Bess Frost on why she loves science
What do you like to do when you’re not in the lab?
In addition to being a scientist, I’m in my sixth year of beekeeping. In the context of epigenetics and longevity, I have lofty dreams of someday integrating my bee work with my fly work. Queen bees can live up to four years, while workers only live around two months. The vast difference in lifespan between queens and workers (in combination with environmental factors) is a consequence of epigenetic regulation!