Document detail
ID
oai:pubmedcentral.nih.gov:1044...
Topic
ArticleAuthor
Hochbaum, Daniel R. Dubinsky, Alexandra C. Farnsworth, Hannah C. Hulshof, Lauren Kleinberg, Giona Urke, Amanda Wang, Wengang Hakim, Richard Robertson, Keira Park, Canaria Solberg, Alyssa Yang, Yechan Baynard, Caroline Nadaf, Naeem M. Beron, Celia C. Girasole, Allison E. Chantranupong, Lynne Cortopassi, Marissa Prouty, Shannon Geistlinger, Ludwig Banks, Alexander Scanlan, Thomas Greenberg, Michael E. Boulting, Gabriella L. Macosko, Evan Z. Sabatini, Bernardo L.Langue
enEditor
Cold Spring Harbor Laboratory
Category
biorxiv
Year
2023
listing date
8/28/2023
Keywords
organs programs thyroid hormone exploratoryAbstract
Animals adapt to varying environmental conditions by modifying the function of their internal organs, including the brain.
To be adaptive, alterations in behavior must be coordinated with the functional state of organs throughout the body.
Here we find that thyroid hormone— a prominent regulator of metabolism in many peripheral organs— activates cell-type specific transcriptional programs in anterior regions of cortex of adult mice via direct activation of thyroid hormone receptors.
These programs are enriched for axon-guidance genes in glutamatergic projection neurons, synaptic regulators across both astrocytes and neurons, and pro-myelination factors in oligodendrocytes, suggesting widespread remodeling of cortical circuits.
Indeed, whole-cell electrophysiology recordings revealed that thyroid hormone induces local transcriptional programs that rewire cortical neural circuits via pre-synaptic mechanisms, resulting in increased excitatory drive with a concomitant sensitization of recruited inhibition.
We find that thyroid hormone bidirectionally regulates innate exploratory behaviors and that the transcriptionally mediated circuit changes in anterior cortex causally promote exploratory decision-making.
Thus, thyroid hormone acts directly on adult cerebral cortex to coordinate exploratory behaviors with whole-body metabolic state.
Hochbaum, Daniel R.,Dubinsky, Alexandra C.,Farnsworth, Hannah C.,Hulshof, Lauren,Kleinberg, Giona,Urke, Amanda,Wang, Wengang,Hakim, Richard,Robertson, Keira,Park, Canaria,Solberg, Alyssa,Yang, Yechan,Baynard, Caroline,Nadaf, Naeem M.,Beron, Celia C.,Girasole, Allison E.,Chantranupong, Lynne,Cortopassi, Marissa,Prouty, Shannon,Geistlinger, Ludwig,Banks, Alexander,Scanlan, Thomas,Greenberg, Michael E.,Boulting, Gabriella L.,Macosko, Evan Z.,Sabatini, Bernardo L., 2023, Thyroid hormone rewires cortical circuits to coordinate body-wide metabolism and exploratory drive , Cold Spring Harbor Laboratory
High-Frequency Repetitive Magnetic Stimulation at the Sacrum Alleviates Chronic Constipation in Parkinson’s Patients
magnetic stimulation parkinson’s significant patients scale sacrum pd hf-rms chronic constipation scores
