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RNA Innovation Seminar: Jennifer E. Phillips-Cremins, Ph.D., Associate Professor and Dean’s Faculty Fellow, Biomedical Engineering and Human Genetics, Penn Epigenetic Institute

Monday, November 18 @ 4:00 pm - 5:00 pm

The Science of Connections: Bridging chromatin folding, synaptic plasticity, and neurophysiology
Jennifer E. Phillips-Cremins, Ph.D.

Associate Professor and Dean’s Faculty Fellow,
Bioengineering and Genetics,
Penn Epigenetics — University of Pennsylvania

In-person: Kahn Auditorium, BSRB | Hybrid link

Abstract:
The Cremins Laboratory works at the spatial biology-technology interface to investigate the structure-function relationship of connections in the brain across the scales of chromatin, synapses, and circuits in normal neurophysiology and in neurological disorders. We have thus far focused in the nucleus on creating kilobase-resolution maps of higher-order folding of the chromatin fiber and understanding how classic epigenetic modifications work through long-range connections to govern genome function in neurodevelopment. We have developed and applied new molecular and computational technologies to elucidate chromatin folding patterns at kilobase-resolution genome-wide, thus discovering that long-range looping interactions in cis and inter-chromosomal interactions in trans change substantially during neural lineage commitment, somatic cell reprogramming, activation of post-mitotic neural circuits, and in neurological disorders. We have demonstrated that cohesin-mediated loops are necessary for the establishment of new gene expression programs in post-mitotic neurons, including the upregulation of genes encoding axon guidance, dendritic spine morphology, and synaptic plasticity during neuron maturation in vivo as well as activity-dependent transcription during neural stimulation in vitro. We have also identified cohesin-mediated loops anchored by divergently-oriented CTCF binding sites that are necessary and sufficient for the firing efficiency and localization of human replication origins during S phase re-entry after mitosis. Using fragile X syndrome as a natural perturbation, we have uncovered BREACHes (Beacons of Repeat Expansion Anchored by Contacting Heterochromatin) – rare inter-chromosomal interactions connecting heterochromatinized synaptic genes susceptible to repeat instability, thus providing early insight into the genome’s structure-function relationship. Here, I will present new unpublished data describing 3D genome miswiring in a human neuron model with rare familial Alzheimer’s mutations as well as the functional link among loops and activity-dependent gene expression during neural circuit activation in vitro and in vivo. The long-term goal of the Cremins lab is to elucidate how the genome’s structure-function relationship influences synaptic plasticity and neurophysiology during memory encoding and consolidation and how this goes awry in intractable neurological disorders.

Bio:
Jennifer Phillips-Cremins, Ph.D. is an Associate Professor and Deans’ Faculty Fellow in Engineering and Medicine at the University of Pennsylvania with primary appointments in the Departments of Genetics and Bioengineering. Dr. Cremins obtained her Ph.D. in Biomedical Engineering from the Georgia Institute of Technology in the laboratory of Andres Garcia. She conducted a multi-disciplinary postdoc in the laboratories of Job Dekker and Victor Corces. Dr. Cremins runs the Laboratory of Chromatin and Spatial Neurobiology at UPenn. Her primary research interests lie in understanding the long-range chromatin architecture mechanisms that govern neural specification and synaptic plasticity in healthy neurons and how chromatin-synapse communication is dysregulated in neurodevelopmental and neurodegenerative diseases. She has been selected as a 2014 New York Stem Cell Foundation Robertson Investigator, a 2015 Albert P. Sloan Foundation Fellow, a 2016 and 2018 Kavli Frontiers of Science Fellow, 2015 NIH Director’s New Innovator Awardee, 2020 NSF CAREER Awardee, a 2020 CZI Neurodegenerative Disease Pairs Awardee, the 2022 ISSCR Susan B. Lim Outstanding New Investigator Award, and as a recipient of the 2021 NIH Pioneer Award.

Details

Date:
Monday, November 18
Time:
4:00 pm - 5:00 pm

Venue

BSRB – Kahn Auditorium