Bryan Higashikubo scite author profile

SUMMARY Integrative brain functions depend on widely distributed, rhythmically coordinated computations. Through its long-ranging connections with cortex and most senses, the thalamus orchestrates the flow of cognitive and sensory information. Essential in this process, the nucleus reticularis thalami (nRT) gates different information streams through its extensive inhibition onto other thalamic nuclei; however, we lack an understanding of how different inhibitory neuron subpopulations in nRT function as gatekeepers. We dissociated the connectivity, physiology, and circuit functions of neurons within rodent nRT, based on parvalbumin (PV) and somatostatin (SOM) expression, and validated the existence of such populations in human nRT. We found that PV but not SOM cells are rhythmogenic, and that PV and SOM neurons are connected to and modulate distinct thalamocortical circuits. Notably, PV but not SOM neurons modulate somatosensory behavior and disrupt seizures. These results provide a conceptual framework for how nRT may gate incoming information to modulate brain-wide rhythms.

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A novel p53‐inducible apoptogenic gene, PRG3, encodes a homologue of the apoptosis‐inducing factor (AIF)

Ohiro

et al. 2002

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The p53 tumor suppressor protein induces cell cycle arrest or apoptosis in response to cellular stresses. We have identi¢ed PRG3 (p53-responsive gene 3), which is induced speci¢cally under p53-dependent apoptotic conditions in human colon cancer cells, and encodes a novel polypeptide of 373 amino acids with a predicted molecular mass of 40.5 kDa. PRG3 has signi¢cant homology to bacterial oxidoreductases and the apoptosis-inducing factor, AIF, and the gene was assigned to chromosome 10q21.3^q22.1. Expression of PRG3 was induced by the activation of endogenous p53 and it contains a p53-responsive element. Unlike AIF, PRG3 localizes in the cytoplasm and its ectopic expression induces apoptosis. An amino-terminal deletion mutant of PRG3 that lacks a putative oxidoreductase activity retains its apoptotic activity, suggesting that the oxidoreductase activity is dispensable for the apoptotic function of PRG3. The PRG3 gene is thus a novel p53 target gene in a p53-dependent apoptosis pathway. ß

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Complement factor C1q mediates sleep spindle loss and epileptic spikes after mild brain injury

Holden

Grandi

Aboubakr

et al. 2021

Science

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Neuroinflammation after brain injury Traumatic brain injury affects millions of people every year and is a major cause of disability worldwide. Most of the maladaptive outcomes develop months or years later and are thought to be caused by secondary injuries that are indirect and long-term effects after the initial impact. Holden et al . found that secondary and chronic neuroinflammation and neurodegeneration are caused by the C1q molecule, a mediator of the complement pathway. C1q is responsible for chronic inflammation and secondary neuronal loss specifically in the cortico-thalamo-cortical circuit. Traumatic brain injury also leads to altered brain states that are caused by the C1q complement pathway. —PRS

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Diamond electrodes for neurodynamic studies in Aplysia californica

Halpern

Xie

Sutton

et al. 2006

Diamond and Related Materials

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