Unlocking the Metabolic Mysteries of Sleep
Jan
12
2026
Jan
12
2026
Description
Dr. Amita Seghal is a professor of Neuroscience at the University of Pennsylvania.
Why we spend ~a third of our lives sleeping and what it is that makes us sleepy are major questions about sleep that lack satisfactory answers. There is universal agreement that lack of sleep impairs performance, especially cognitive ability, during waking hours and considerable evidence supports adverse effects of sleep loss on other physiological parameters as well. Thus, sleep may be regarded as important for waking function. However, what happens during sleep to facilitate wake performance and promote health?
Driven by the successful use of Drosophila for deciphering molecular mechanisms of the circadian clock, we developed a Drosophila model to address molecular and cellular underpinnings of sleep. Through the use of forward genetic screens, we have identified genes and tissues that affect sleep amount. Coupled with our efforts to understand the fundamental basis of sleep, we are getting a handle on the regulation and function of sleep that may be broadly relevant for the brain, and perhaps even the body. We find that sleep is important for metabolic, in particular energetic, homeostasis in the brain. This includes the clearance of metabolic waste, which can be accomplished in different ways. For instance, we find that autophagy and endocytosis through the blood brain barrier (BBB), both of which facilitate clearance, are regulated by sleep. Our ongoing work implicates sleep in lipid metabolism, in particular. We find that specific lipids accumulate under conditions of high sleep need e.g. when endocytosis through the BBB is blocked. And lipids are transferred from neurons to glia in a daily cycle that helps to maintain mitochondrial homeostasis in neurons. Together this work is leading to an understanding of cellular/molecular processes that underlie sleep.
Hosted by Dr. Laura Colgin
To subscribe to our Seminars Series mailing list, please visit https://utlists.utexas.edu/sympa/info/neu-seminars and click on "Subscribe" in the left-hand column.
Please contact Neuro.Seminar.Series@austin.utexas.edu with any questions.
Other Events in This Series
Oct
11
2024
A single neuron is a complex adaptive system
Center for Learning & Memory Seminar Series
3:00 pm – 4:00 pm
Speaker(s): Rishikesh Narayanan - Indian Institute of Science
Nov
4
2024
Determining native-like membrane protein structures from cell membrane-derived vesicles.
2024-25 Neuroscience Seminar Series
3:00 pm – 4:00 pm
Speaker(s): Chen Zhao - University of Florida
Dec
9
2024
Large Pore Connexin Hemichannels: Channels or Transporters?
2024-25 Neuroscience Seminar Series
3:00 pm – 4:00 pm
Speaker(s): Jorge E. Contreras - UC Davis
Jan
13
2025
Role of the brain mesolimbic pathway in pain-induced anhedonia and opioid seeking.
2024-25 Neuroscience Seminar Series
3:00 pm – 4:00 pm
Speaker(s): Jose Moron-Concepcion - Washington University
Jan
27
2025
Alcohol induced memory deficits: State-dependent learning in C. elegans
2024-25 Neuroscience Seminar Series
3:00 pm – 4:00 pm
Speaker(s): Jill Bettinger - Virginia Commonwealth University
Feb
10
2025
It's all how you look at it: Construal is reflected in brain and behavior
2024-25 Neuroscience Seminar Series
3:00 pm – 4:00 pm
Speaker(s): Peter Balsam - Columbia University
Feb
17
2025
Are astrocytes the key to understanding neurodegenerative disease?
2024-25 Neuroscience Seminar Series
3:00 pm – 4:00 pm
Speaker(s): Shane Liddelow - New York University
Mar
24
2025
Computational Principles of Primate Auditory Cortex
2024-25 Neuroscience Seminar Series
3:00 pm – 4:00 pm
Speaker(s): Xiaoqin Wang - Johns Hopkins University
Mar
31
2025
Mapping and modulating human brain connections
2024-25 Neuroscience Seminar Series
3:00 pm – 4:00 pm
Speaker(s): Sarah Heilbronner - Baylor College of Medicine
Apr
14
2025
Mechanisms of chronic pain: lessons from studies of human DRG and spinal cord
2024-25 Neuroscience Seminar Series
3:00 pm – 4:00 pm
Speaker(s): Ted Price - UT Dallas
