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Brain “Relay” Also Key to Holding Thoughts in Mind

Thalamus eyed as potential treatment target for schizophrenia’s working memory deficits

Press Release

Long assumed to be a mere "relay," an often-overlooked egg-like structure in the middle of the brain also turns out to play a pivotal role in tuning-up thinking circuity. A trio of studies in mice funded by the National Institutes of Health (NIH) are revealing that the thalamus  sustains the ability to distinguish categories and hold thoughts in mind.

By manipulating activity of thalamus neurons, scientists were able to control an animal’s ability to remember how to find a reward. In the future, the thalamus might even become a target for interventions to reduce cognitive deficits in psychiatric disorders such as schizophrenia, researchers say.

"If the brain works like an orchestra, our results suggest the thalamus may be its conductor," explained Michael Halassa, M.D., Ph.D. , of New York University (NYU) Langone Medical Center, a BRAINS Award grantee of the NIH’s National Institute of Mental Health (NIMH), and also a grantee of the National Institute of Neurological Disorders and Stroke (NINDS). "It helps ensembles play in-sync by boosting their functional connectivity."

Three independent teams of investigators led by Halassa, Joshua Gordon, M.D., Ph.D., formerly of Columbia University, New York City, now NIMH director, in collaboration with Christoph Kellendonk, Ph.D.  of Columbia, and Karel Svoboda, Ph.D. , at Howard Hughes Medical Institute Janelia Research Campus, Ashburn, Virginia, in collaboration with Charles Gerfen, Ph.D., of the NIMH Intramural Research Program, report on the newfound role for the thalamus online May 3, 2017 in the journals Nature and Nature Neuroscience.

The prevailing notion of the thalamus as a relay was based on its connections with parts of the brain that process inputs from the senses. But the thalamus has many connections with other parts of the brain that have yet to be explored, say the researchers.

Two of the groups investigated a circuit that connects the mid/upper (mediodorsal) thalamus with the prefrontal cortex (PFC), the brain’s thinking and decision making center. Brain imaging studies have detected decreased connectivity in this circuit in patients with schizophrenia, who often experience working memory problems.

Halassa and colleagues found that neurons in the thalamus and PFC appear to talk back and forth with each other. They monitored neural activity in mice performing a task that required them to hold in mind information about categories, so that they could act on cues indicating which of two doors hid a milk reward.

Optogenetically suppressing neuronal activity in the thalamus blocked the mice’s ability to choose the correct door, while optogenetically stimulating thalamus neural activity improved the animals’ performance on the working memory task. This confirmed a previously known role for the structure, extending it to the specialized tasks Halassa and colleagues used and demonstrating for the first time a specific role in the maintenance of information in working memory.

What kind of information was the thalamus helping to maintain? The researchers found sets of neurons in the PFC that held in memory the specific category of information required in order to choose the correct door. They determined that the thalamus did not (at least in this case) relay such specific category information, but instead broadly provided amplification that was crucial in sustaining memory of the category in the PFC. It accomplished this by boosting the synchronous activity, or functional connectivity, of these sets of PFC neurons.

"Our study may have uncovered the key circuit elements underlying how the brain represents categories," suggested Halassa.

Gordon and colleagues saw similar results when they tested how the same circuit controlled a mouse’s ability to find milk in a maze. The animals had to remember whether they had turned left or right to get their reward prior to a brief delay – and do the opposite. Also using optogenetics, the study teased apart differing roles for subgroups of PFC neurons and interactions with the brain’s memory hub, the hippocampus.

Thalamus inputs to the PFC sustained the maintenance of working memory by stabilizing activity there during the delay. "Top-down" signals from the PFC back to the thalamus supported memory retrieval and taking action. Consistent with previous findings, inputs from the hippocampus were required to encode in PFC neurons the location of the reward – analogous to the correct door in the Halassa experiment.

"Strikingly, we found two separate populations of neurons in the PFC. One encoded for spatial location and required hippocampal input; the other was active during memory maintenance and required thalamic input," noted Gordon. "Our findings should have translational relevance, particularly to schizophrenia. Further study of how this circuit might go awry and cause working memory deficits holds promise for improved diagnosis and more targeted therapeutic approaches."

In their study, the Janelia team and Gerfen similarly showed that the thalamus plays a crucial role in sustaining short-term memory, by cooperating with the cortex through bi-directional interactions. Mice needed to remember where to move after a delay of seconds, to gather a reward. In this case, the thalamus was found to be in conversation with a part of the motor cortex during planning of those movements. Neuronal electrical monitoring revealed activity in both structures, indicating that they together sustain information held in the cortex that predicted in which direction the animal would subsequently move. Optogenetic probing revealed that the conversation was bidirectional, with cortex activity dependent on thalamus and vice versa.

"Our results show that cortex circuits alone can’t sustain the neural activity required to prepare for movement," explained Gerfen. "It also requires reciprocal participation across multiple brain areas, including the thalamus as a critical hub in the circuit."

Mice thalamus neuron and PFC communications

Halassa and colleagues studied communications between neurons (left) in the thalamus and the prefrontal cortex in mice.

Source: Michael Halassa, M.D., Ph.D., NYU Langone Medical Center

References

Schmitt LI, Wimmer RD, Nakajima M, Happ M, Mofakham S, Halassa MM. Thalamic amplification of cortical connectivity sustains attentional control. Nature, May 3, 2017. doi:10.1038/nature22073.

Bolkan SS , Stujenske JM, Parnaudeau S, Spellman TJ, Rauffenbart C, Abbas AI, Harris AZ, Gordon JA, Kellendonk C, Thalamic projections sustain prefrontal activity during working memory maintenance. Nature Neuroscience, May 3, 3017. doi:10.1038/nn.4568

Guo ZV, Inagaki HK, Daie K, Druckmann S, Gerfen CR, Svoboda K. Maintenance of persistent activity in a frontal thalamocortical loop. Nature, May 3, 2017. doi:10.1038/nature22324

Grants

MH105779, NS098505, MH096274, MH102041, MH107204

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About the National Institute of Mental Health (NIMH): The mission of the NIMH  is to transform the understanding and treatment of mental illnesses through basic and clinical research, paving the way for prevention, recovery and cure. For more information, visit the NIMH website.

The National Institute of Neurological Disorders and Stroke (NINDS ) is the nation’s leading funder of research on the brain and nervous system. The mission of NINDS is to seek fundamental knowledge about the brain and nervous system and to use that knowledge to reduce the burden of neurological disease.

About the National Institutes of Health (NIH): NIH, the nation's medical research agency, includes 27 Institutes and Centers and is a component of the U.S. Department of Health and Human Services. NIH is the primary federal agency conducting and supporting basic, clinical, and translational medical research, and is investigating the causes, treatments, and cures for both common and rare diseases. For more information about NIH and its programs, visit the NIH website .

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