Your search keyword '"Mazza, Frank"' showing total 2 results

1. Reduced inhibition in depression impairs stimulus processing in human cortical microcircuits.

Author

Yao HK, Guet-McCreight A, Mazza F, Moradi Chameh H, Prevot TD, Griffiths JD, Tripathy SJ, Valiante TA, Sibille E, and Hay E

Subjects

Cognitive Dysfunction metabolism, Computational Biology methods, Databases, Factual, Depression metabolism, Depressive Disorder, Major metabolism, Depressive Disorder, Major physiopathology, Depressive Disorder, Treatment-Resistant metabolism, Depressive Disorder, Treatment-Resistant physiopathology, Female, Humans, Male, Models, Theoretical, Nerve Net physiology, Neural Inhibition, Neurons physiology, Somatostatin genetics, Depression physiopathology, Interneurons metabolism, Somatostatin metabolism

Abstract

Cortical processing depends on finely tuned excitatory and inhibitory connections in neuronal microcircuits. Reduced inhibition by somatostatin-expressing interneurons is a key component of altered inhibition associated with treatment-resistant major depressive disorder (depression), which is implicated in cognitive deficits and rumination, but the link remains to be better established mechanistically in humans. Here we test the effect of reduced somatostatin interneuron-mediated inhibition on cortical processing in human neuronal microcircuits using a data-driven computational approach. We integrate human cellular, circuit, and gene expression data to generate detailed models of human cortical microcircuits in health and depression. We simulate microcircuit baseline and response activity and find a reduced signal-to-noise ratio and increased false/failed detection of stimuli due to a higher baseline activity in depression. We thus apply models of human cortical microcircuits to demonstrate mechanistically how reduced inhibition impairs cortical processing in depression, providing quantitative links between altered inhibition and cognitive deficits., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2021 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2022

2. In-silico testing of new pharmacology for restoring inhibition and human cortical function in depression.

Author

Guet-McCreight, Alexandre, Chameh, Homeira Moradi, Mazza, Frank, Prevot, Thomas D., Valiante, Taufik A., Sibille, Etienne, and Hay, Etay

Subjects

PHARMACOLOGY, INTERNEURONS, DRUG efficacy, MENTAL depression, GLUTAMATE receptors, PSYCHOLOGICAL stress, TREATMENT effectiveness

Abstract

Reduced inhibition by somatostatin-expressing interneurons is associated with depression. Administration of positive allosteric modulators of α5 subunit-containing GABAA receptor (α5-PAM) that selectively target this lost inhibition exhibit antidepressant and pro-cognitive effects in rodent models of chronic stress. However, the functional effects of α5-PAM on the human brain in vivo are unknown, and currently cannot be assessed experimentally. We modeled the effects of α5-PAM on tonic inhibition as measured in human neurons, and tested in silico α5-PAM effects on detailed models of human cortical microcircuits in health and depression. We found that α5-PAM effectively recovered impaired cortical processing as quantified by stimulus detection metrics, and also recovered the power spectral density profile of the microcircuit EEG signals. We performed an α5-PAM dose-response and identified simulated EEG biomarker candidates. Our results serve to de-risk and facilitate α5-PAM translation and provide biomarkers in non-invasive brain signals for monitoring target engagement and drug efficacy. Using data-driven models of human neurons and microcircuits, the authors tested in-silico a compound for treating depression via boosting cell-specific inhibition, and identified EEG biomarker candidates for monitoring treatment efficacy. [ABSTRACT FROM AUTHOR]

Published

2024