Bernardo Sabatini

Bernardo Sabatini, MD, PhD

Alice and Rodman W. Moorhead III Professor of Neurobiology
Investigator, Howard Hughes Medical Institute
Co-Director, Kempner Institute
Sabatini Lab Website

Synapse Function and Animal Behavior

In the first few years of life, humans tremendously expand their behavioral repertoire and gain the ability to engage in complex, learned, and reward-driven actions. Similarly, within a few weeks after birth mice can perform sophisticated spatial navigation, forage independently for food, and engage in reward reinforcement learning.

The Sabatini lab seeks to uncover the mechanisms of synapse and circuit plasticity that permit new behaviors to be learned and refined. We are interested in the developmental changes that occur after birth that make learning possible as well as in the circuit changes that are triggered by the process of learning.  Lastly, we examine how perturbations of these processes contribute to human neuropsychiatric disorders such as Tuberous Sclerosis Complex and Parkinson’s Disease.

Publications View
Neurophotonic tools for microscopic measurements and manipulation: status report.
Authors: Authors: Abdelfattah AS, Ahuja S, Akkin T, Allu SR, Brake J, Boas DA, Buckley EM, Campbell RE, Chen AI, Cheng X, Cižmár T, Costantini I, De Vittorio M, Devor A, Doran PR, El Khatib M, Emiliani V, Fomin-Thunemann N, Fainman Y, Fernandez-Alfonso T, Ferri CGL, Gilad A, Han X, Harris A, Hillman EMC, Hochgeschwender U, Holt MG, Ji N, Kiliç K, Lake EMR, Li L, Li T, Mächler P, Miller EW, Mesquita RC, Nadella KMNS, Nägerl UV, Nasu Y, Nimmerjahn A, Ondrácková P, Pavone FS, Perez Campos C, Peterka DS, Pisano F, Pisanello F, Puppo F, Sabatini BL, Sadegh S, Sakadzic S, Shoham S, Shroff SN, Silver RA, Sims RR, Smith SL, Srinivasan VJ, Thunemann M, Tian L, Tian L, Troxler T, Valera A, Vaziri A, Vinogradov SA, Vitale F, Wang LV, Uhlírová H, Xu C, Yang C, Yang MH, Yellen G, Yizhar O, Zhao Y.
Neurophotonics
View full abstract on Pubmed
Analytical approaches to examine gamma-aminobutyric acid and glutamate vesicular co-packaging.
Authors: Authors: Kim S, Sabatini BL.
Front Synaptic Neurosci
View full abstract on Pubmed
Analysis of Thermogenesis Experiments with CalR.
Authors: Authors: Cortopassi MD, Ramachandran D, Rubio WB, Hochbaum D, Sabatini BL, Banks AS.
Methods Mol Biol
View full abstract on Pubmed
Striatal indirect pathway mediates exploration via collicular competition.
Authors: Authors: Lee J, Sabatini BL.
Nature
View full abstract on Pubmed
Bombesin-like peptide recruits disinhibitory cortical circuits and enhances fear memories.
Authors: Authors: Melzer S, Newmark ER, Mizuno GO, Hyun M, Philson AC, Quiroli E, Righetti B, Gregory MR, Huang KW, Levasseur J, Tian L, Sabatini BL.
Cell
View full abstract on Pubmed
Real-Time, In Vivo Measurement of Protein Kinase A Activity in Deep Brain Structures Using Fluorescence Lifetime Photometry (FLiP).
Authors: Authors: Lodder B, Lee SJ, Sabatini BL.
Curr Protoc
View full abstract on Pubmed
Comparative study of autofluorescence in flat and tapered optical fibers towards application in depth-resolved fluorescence lifetime photometry in brain tissue.
Authors: Authors: Bianco M, Balena A, Pisanello M, Pisano F, Sileo L, Spagnolo B, Montinaro C, Sabatini BL, Vittorio M, Pisanello F.
Biomed Opt Express
View full abstract on Pubmed
Social isolation uncovers a circuit underlying context-dependent territory-covering micturition.
Authors: Authors: Hyun M, Taranda J, Radeljic G, Miner L, Wang W, Ochandarena N, Huang KW, Osten P, Sabatini BL.
Proc Natl Acad Sci U S A
View full abstract on Pubmed
The Kinase Specificity of Protein Kinase Inhibitor Peptide.
Authors: Authors: Chen Y, <a href="https://connects.catalyst.harvard.edu/Profiles/profile/1244683">Sabatini BL</a>.
Front Pharmacol
View full abstract on Pubmed
Cell-type-specific asynchronous modulation of PKA by dopamine in learning.
Authors: Authors: Lee SJ, Lodder B, Chen Y, Patriarchi T, Tian L, Sabatini BL.
Nature
View full abstract on Pubmed