Postsynaptic activity of inhibitory neurons evokes hemodynamic fMRI responses

A prolonged developmental timeline for GABA (γ-aminobutyric acid)-expressing inhibitory neurons (GABAergic interneurons) is an amplified trait in larger, gyrencephalic animals. In several species, the generation, migration, and maturation of interneurons take place over several months, in some cases persisting after birth. The late integration of GABAergic interneurons occurs in a region-specific pattern, especially during the early postnatal period. These changes can contribute to the formation of functional connectivity and plasticity, especially in the cortical regions responsible for higher cognitive tasks. In this review, we discuss GABAergic interneuron development in the late gestational and postnatal forebrain. We propose the protracted development of interneurons at each stage (neurogenesis, neuronal migration, and network integration), as a mechanism for increased complexity and cognitive flexibility in larger, gyrencephalic brains. This developmental feature of interneurons also provides an avenue for environmental influences to shape neural circuit formation.

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Endocannabinoid system in the neurodevelopment of GABAergic interneurons: implications for neurological and psychiatric disorders

Reviews in the Neurosciences ◽

10.1515/revneuro-2020-0134 ◽

2021 ◽

Vol 0 (0) ◽

Author(s):

Chang-geng Song ◽

Xin Kang ◽

Fang Yang ◽

Wan-qing Du ◽

Jia-jia Zhang ◽

...

Keyword(s):

Psychiatric Disorders ◽

Endocannabinoid System ◽

Autism Spectrum ◽

Network Activity ◽

Inhibitory Neurons ◽

Gabaergic Interneurons ◽

Neural Stem Progenitor Cells ◽

The Central Nervous System ◽

Interneuron Development

Abstract In mature mammalian brains, the endocannabinoid system (ECS) plays an important role in the regulation of synaptic plasticity and the functioning of neural networks. Besides, the ECS also contributes to the neurodevelopment of the central nervous system. Due to the increase in the medical and recreational use of cannabis, it is inevitable and essential to elaborate the roles of the ECS on neurodevelopment. GABAergic interneurons represent a group of inhibitory neurons that are vital in controlling neural network activity. However, the role of the ECS in the neurodevelopment of GABAergic interneurons remains to be fully elucidated. In this review, we provide a brief introduction of the ECS and interneuron diversity. We focus on the process of interneuron development and the role of ECS in the modulation of interneuron development, from the expansion of the neural stem/progenitor cells to the migration, specification and maturation of interneurons. We further discuss the potential implications of the ECS and interneurons in the pathogenesis of neurological and psychiatric disorders, including epilepsy, schizophrenia, major depressive disorder and autism spectrum disorder.

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Efficient Derivation of Excitatory and Inhibitory Neurons from Human Pluripotent Stem Cells Stably Expressing Direct Reprogramming Factors

Current Protocols ◽

10.1002/cpz1.141 ◽

2021 ◽

Vol 1 (6) ◽

Author(s):

Saera Song ◽

Archana Ashok ◽

Damian Williams ◽

Maria Kaufman ◽

Karen Duff ◽

...

Keyword(s):

Stem Cells ◽

Pluripotent Stem Cells ◽

Human Pluripotent Stem Cells ◽

Inhibitory Neurons ◽

Direct Reprogramming ◽

Reprogramming Factors

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Reconstruction scheme for excitatory and inhibitory dynamics with quenched disorder: application to zebrafish imaging

Journal of Computational Neuroscience ◽

10.1007/s10827-020-00774-1 ◽

2021 ◽

Author(s):

Lorenzo Chicchi ◽

Gloria Cecchini ◽

Ihusan Adam ◽

Giuseppe de Vito ◽

Roberto Livi ◽

...

Keyword(s):

Structural Information ◽

Activity Patterns ◽

Synthetic Data ◽

Light Sheet ◽

Time Lapse ◽

Inhibitory Neurons ◽

Mean Field Approximation ◽

Directed Network ◽

Dynamical Regime ◽

Power Law Distribution

AbstractAn inverse procedure is developed and tested to recover functional and structural information from global signals of brains activity. The method assumes a leaky-integrate and fire model with excitatory and inhibitory neurons, coupled via a directed network. Neurons are endowed with a heterogenous current value, which sets their associated dynamical regime. By making use of a heterogenous mean-field approximation, the method seeks to reconstructing from global activity patterns the distribution of in-coming degrees, for both excitatory and inhibitory neurons, as well as the distribution of the assigned currents. The proposed inverse scheme is first validated against synthetic data. Then, time-lapse acquisitions of a zebrafish larva recorded with a two-photon light sheet microscope are used as an input to the reconstruction algorithm. A power law distribution of the in-coming connectivity of the excitatory neurons is found. Local degree distributions are also computed by segmenting the whole brain in sub-regions traced from annotated atlas.

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How inhibitory neurons increase information transmission under threshold modulation

Cell Reports ◽

10.1016/j.celrep.2021.109158 ◽

2021 ◽

Vol 35 (8) ◽

pp. 109158

Author(s):

Wei-Mien M. Hsu ◽

David B. Kastner ◽

Stephen A. Baccus ◽

Tatyana O. Sharpee

Keyword(s):

Information Transmission ◽

Inhibitory Neurons

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Amyloid-β Oligomers Induce Only Mild Changes to Inhibitory Bouton Dynamics

Journal of Alzheimer s Disease Reports ◽

10.3233/adr-200291 ◽

2021 ◽

Vol 5 (1) ◽

pp. 153-160 ◽

Cited By ~ 1

Author(s):

Marvin Ruiter ◽

Christine Lützkendorf ◽

Jian Liang ◽

Corette J. Wierenga

Keyword(s):

Hippocampal Slices ◽

Inhibitory Neuron ◽

Amyloid Β ◽

Inhibitory Neurons ◽

Inhibitory Synapses ◽

Amyloid Β Protein ◽

Protein Precursor ◽

Β Protein ◽

Plaque Load ◽

Early Alzheimer’S Disease

The amyloid-β protein precursor is highly expressed in a subset of inhibitory neuron in the hippocampus, and inhibitory neurons have been suggested to play an important role in early Alzheimer’s disease plaque load. Here we investigated bouton dynamics in axons of hippocampal interneurons in two independent amyloidosis models. Short-term (24 h) amyloid-β (Aβ)-oligomer application to organotypic hippocampal slices slightly increased inhibitory bouton dynamics, but bouton density and dynamics were unchanged in hippocampus slices of young-adult AppNL - F - G-mice, in which Aβ levels are chronically elevated. These results indicate that loss or defective adaptation of inhibitory synapses are not a major contribution to Aβ-induced hyperexcitability.

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