#  Bernardo Sabatini Lab 

 



       ![collage.jpg](/sites/g/files/omnuum4056/files/styles/hwp_28_10__1920x685/public/sabatinilab/files/collage.jpg?itok=-I7MuGiK) 

 

 



 

 



 

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.

We seek to uncover the mechanisms of synapse and circuit plasticity that permit new behaviors to be learned and refined. We are interested in both 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. We examine how perturbations of these processes contribute to neuropsychiatric disorders with disordered learning or action selection.

Understanding learning and computation in the brain requires both experimental and theoretical approaches. On the experimental side, we rely heavily on optical and electrophysiological methods to both monitor and perturb synapses, neural activity, and plasticity-related intracellular pathways. We develop new technologies as needed for these studies. On the computation side, we employ a tight back-and-forth between computational neurobiology and machine learning. We are studying the contribution of dendritic processing to neural computation, the nature of "biologically plausible" learning learns used by the brain, and features of computation and learning in the brain that may have the capacity to enhance the power of artificial neural networks.

The lab is supported by the [Howard Hughes Medical Institute](https://www.hhmi.org/scientists/bernardo-l-sabatini) and is comprised of an experimental group in the [Department of Neurobiology](https://neuro.hms.harvard.edu/) at Harvard Medical School and a computational/machine learning group at the [Kempner Institute](https://kempnerinstitute.harvard.edu/) for the Study of Natural and Artificial Intelligence at Harvard University.



 

##  Recent Publications 

Full list of publications on [Pubmed](https://pubmed.ncbi.nlm.nih.gov/?term=sabatini+bl%2C+harvard&sort=date) and[ Google Scholar](https://scholar.google.com/scholar?hl=en&as_sdt=0,22&q=bernardo+sabatini&scisbd=1)

 

 



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### 2024

Lawton R, Sabatini B, Hochbaum D. [Longevity, demographic characteristics, and socio-economic status are linked to triiodothyronine levels in the general population](/publications/longevity-demographic-characteristics-and-socio-economic-status-are-linked). Proc Natl Acad Sci U S A. 2024;121(2):e2308652121. doi:10.1073/pnas.2308652121



 

 

Lawton R, Sabatini B, Hochbaum D. [Longevity, demographic characteristics, and socio-economic status are linked to triiodothyronine levels in the general population](/publications/longevity-demographic-characteristics-and-socio-economic-status-are-linked). Proc Natl Acad Sci U S A. 2024;121(2):e2308652121. doi:10.1073/pnas.2308652121



 

 

 

- add\_circle do\_not\_disturb\_on Abstract
 
 The hypothalamic-pituitary-thyroid (HPT) axis is fundamental to human biology, exerting central control over energy expenditure and body temperature. However, the consequences of normal physiologic HPT-axis variation in populations without diagnosed... 

 

 

 

Hochbaum D, Hulshof L, Urke A, Wang W, Dubinsky A, Farnsworth H, Hakim R, Lin S, Kleinberg G, Robertson K, et al. [Thyroid hormone remodels cortex to coordinate body-wide metabolism and exploration](/publications/thyroid-hormone-remodels-cortex-coordinate-body-wide-metabolism-and). Cell. 2024. doi:10.1016/j.cell.2024.07.041



 

 

Hochbaum D, Hulshof L, Urke A, Wang W, Dubinsky A, Farnsworth H, Hakim R, Lin S, Kleinberg G, Robertson K, et al. [Thyroid hormone remodels cortex to coordinate body-wide metabolism and exploration](/publications/thyroid-hormone-remodels-cortex-coordinate-body-wide-metabolism-and). Cell. 2024. doi:10.1016/j.cell.2024.07.041



 

 

 

- add\_circle do\_not\_disturb\_on Abstract
 
 Animals adapt to 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... 

 

 

 

Hsieh A, Ganesh S, Kula T, Irshad M, Ferenczi EA, Wang W, Chen Y-C, Hu S-H, Li Z, Joshi S, et al. [Widespread Neuroanatomical Integration and Distinct Electrophysiological Properties of Glioma-Innervating Neurons](/publications/widespread-neuroanatomical-integration-and-distinct-electrophysiological). bioRxiv. 2024. doi:10.1101/2024.08.25.609573



 

 

Hsieh A, Ganesh S, Kula T, Irshad M, Ferenczi EA, Wang W, Chen Y-C, Hu S-H, Li Z, Joshi S, et al. [Widespread Neuroanatomical Integration and Distinct Electrophysiological Properties of Glioma-Innervating Neurons](/publications/widespread-neuroanatomical-integration-and-distinct-electrophysiological). bioRxiv. 2024. doi:10.1101/2024.08.25.609573



 

 

 

- add\_circle do\_not\_disturb\_on Abstract
 
 UNLABELLED: Gliomas are the most common malignant primary brain tumors and are often associated with severe neurological deficits and mortality. Unlike many cancers, gliomas rarely metastasize outside the brain, indicating a possible dependency on unique... 

 

 

 

 



 

 

 

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