Reduced inhibition in depression impairs stimulus processing in human cortical microcircuits

Yao, Heng Kang; Guet-McCreight, Alexandre; Mazza, Frank; Chameh, Homeira Moradi; Prevot, Thomas D.; Griffiths, John; Tripathy, Shreejoy J.; Valiante, Taufik A.; Sibille, Etienne; Hay, Etay

doi:10.1016/j.celrep.2021.110232

Cited by 38 publications

(67 citation statements)

References 90 publications

(143 reference statements)

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“…We used our previous detailed models of human cortical L2/3 microcircuits[32] (Fig 1a) as canonical cortical microcircuit models for simulating resting state spiking and EEG signals. The model microcircuits included the four key neuron types: Pyr neurons, SST interneurons, Parvalbumin-expressing interneurons (PV), and Vasoactive intestinal polypeptide-expressing interneurons (VIP).…”

Section: Resultsmentioning

confidence: 99%

“…Human cortical microcircuit models. We used our previous models of human cortical L2/3 microcircuits [32], consisting of 1000 neurons distributed in a 500x500x950μm 3 volume (250 to 1200μm below pia [93]). The model microcircuits included the four key neuron types in cortical L2/3: Pyramidal (Pyr), Somatostatin-expressing (SST), Parvalbumin-expressing (PV), and Vasoactive Intestinal Peptide-expressing (VIP) neurons.…”

Section: Methodsmentioning

confidence: 99%

“…The background input was generated by random Orstein-Uhlenbeck (OU) point processes [99] placed on all neurons at the halfway point of each dendritic arbor, and 5 additional OU processes placed along the apical trunk of Pyr neurons in equal intervals, from 10% to 90% apical dendritic length. This enabled the circuit to generate recurrent activity with neuronal firing rates as measured in vivo [31,32,100,101]. For both healthy and depression microcircuit models (see below) we simulated 60 randomized microcircuits, for 28 seconds each.…”

Section: Methodsmentioning

confidence: 99%

“…We used our previous detailed models of human cortical L2/3 microcircuits [32] (Fig 1a ) as canonical cortical microcircuit models for simulating resting state spiking and EEG signals.…”

Section: Human Cortical Microcircuit Models Reproduce Resting-state E...mentioning

confidence: 99%

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EEG biomarkers of reduced inhibition in human cortical microcircuits in depression

Mazza

Griffiths

Hay

2021

Preprint

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Major depressive disorder (depression) is a complex condition that involves multiple physiological mechanisms, spanning a range of spatial scales. Altered cortical inhibition is associated with treatment-resistant depression, and reduced dendritic inhibition by somatostatin-expressing (SST) interneurons has been strongly implicated in this aspect of the pathology. However, whether the effects of reduced SST inhibition on microcircuit activity have signatures detectible in electroencephalography (EEG) signals remains unknown. We used detailed models of human cortical layer 2/3 microcircuits with normal or reduced SST inhibition to simulate resting-state activity together with EEG signals in health and depression. We first show that the healthy microcircuit models exhibit emergent key features of resting-state EEG. We then simulated EEG from depression microcircuits and found a significant power increase in theta, alpha and low beta frequencies (4 - 15 Hz). Following spectral decomposition, we show that the power increase involved a combination of aperiodic broadband component, and a periodic theta and low beta components. Neuronal spiking showed a spike preference for the phase preceding the EEG trough, which did not differ between conditions. Our study thus used detailed computational models to identify EEG biomarkers of reduced SST inhibition in human cortical microcircuits in depression, which may serve to improve the diagnosis and stratification of depression subtypes, and in monitoring the effects of pharmacological modulation of inhibition for treating depression.

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Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

“…We used our previous detailed models of human cortical L2/3 microcircuits [32] (Fig 1a ) as canonical cortical microcircuit models for simulating resting state spiking and EEG signals.…”

Section: Human Cortical Microcircuit Models Reproduce Resting-state E...mentioning

confidence: 99%

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EEG biomarkers of reduced inhibition in human cortical microcircuits in depression

Mazza

Griffiths

Hay

2021

Preprint

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“…But more recent work has shown inhibitory neurons are tuned to specific external stimuli ( Okun and Lampl, 2008 ; Xue et al, 2014 ), have specific associations with behavior ( Dudok et al, 2021 ), have a large diversity of forms and functions within and across brain areas ( Gouwens et al, 2020 ; Burns and Rajan, 2021 ), and form inhibitory assemblies ( Zhang et al, 2017 ), often jointly with excitatory subnetworks ( Otsuka and Kawaguchi, 2009 ; Koolschijn et al, 2019 ). A hallmark of many neuropathologies is inhibitory dysfunction ( Amieva et al, 2004 ; Baroncelli et al, 2011 ; Burns and Rajan, 2022 ; Yao et al, 2022 ). If specific inhibitory dysfunction alone is sufficient for explaining these pathologies, then we could expect subtle inhibitory changes to cause dramatic changes in global function in complex tasks like those involving learning and memory.…”

Section: Introductionmentioning

confidence: 99%

Multiscale and Extended Retrieval of Associative Memory Structures in a Cortical Model of Local-Global Inhibition Balance

Burns

Haga

Fukai

2022

eNeuro

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Inhibitory neurons take on many forms and functions. How this diversity contributes to memory function is not completely known. Previous formal studies indicate inhibition differentiated by local and global connectivity in associative memory networks functions to rescale the level of retrieval of excitatory assemblies. However, such studies lack biological details such as a distinction between types of neurons (excitatory and inhibitory), unrealistic connection schemas, and nonsparse assemblies. In this study, we present a rate-based cortical model where neurons are distinguished (as excitatory, local inhibitory, or global inhibitory), connected more realistically, and where memory items correspond to sparse excitatory assemblies. We use this model to study how local-global inhibition balance can alter memory retrieval in associative memory structures, including naturalistic and artificial structures. Experimental studies have reported inhibitory neurons and their subtypes uniquely respond to specific stimuli and can form sophisticated, joint excitatory-inhibitory assemblies. Our model suggests such joint assemblies, as well as a distribution and rebalancing of overall inhibition between two inhibitory subpopulations, one connected to excitatory assemblies locally and the other connected globally, can quadruple the range of retrieval across related memories. We identify a possible functional role for local-global inhibitory balance to, in the context of choice or preference of relationships, permit and maintain a broader range of memory items when local inhibition is dominant and conversely consolidate and strengthen a smaller range of memory items when global inhibition is dominant. This model, while still theoretical, therefore highlights a potentially biologically-plausible and behaviorally-useful function of inhibitory diversity in memory.

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Gene Expression has Distinct Associations with Brain Structure and Function in Major Depressive Disorder

et al. 2023

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Major depressive disorder (MDD) is associated with structural and functional brain abnormalities. MDD as well as brain anatomy and function are influenced by genetic factors, but the role of gene expression remains unclear. Here, this work investigates how cortical gene expression contributes to structural and functional brain abnormalities in MDD. This work compares the gray matter volume and resting-state functional measures in a Chinese sample of 848 MDD patients and 749 healthy controls, and these case-control differences are then associated with cortical variation of gene expression. While whole gene expression is positively associated with structural abnormalities, it is negatively associated with functional abnormalities. This work observes the relationships of expression levels with brain abnormalities for individual genes, and found that transcriptional correlates of brain structure and function show opposite relations with gene dysregulation in postmortem cortical tissue from MDD patients. This work further identifies genes that are positively or negatively related to structural abnormalities as well as functional abnormalities. The MDD-related genes are enriched for brain tissue, cortical cells, and biological pathways. These findings suggest that distinct genetic mechanisms underlie structural and functional brain abnormalities in MDD, and highlight the importance of cortical gene expression for the development of cortical abnormalities.

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Reduced inhibition in depression impairs stimulus processing in human cortical microcircuits

Cited by 38 publications

References 90 publications

EEG biomarkers of reduced inhibition in human cortical microcircuits in depression

EEG biomarkers of reduced inhibition in human cortical microcircuits in depression

Multiscale and Extended Retrieval of Associative Memory Structures in a Cortical Model of Local-Global Inhibition Balance

Gene Expression has Distinct Associations with Brain Structure and Function in Major Depressive Disorder

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