A multilayer network model of neuron-astrocyte populations in vitro reveals mGluR5 inhibition is protective following traumatic injury

Schroeder, Margaret E.; Bassett, Danielle S.; Meaney, David F.

doi:10.1162/netn_a_00227

Cited by 2 publications

(1 citation statement)

References 119 publications

(194 reference statements)

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“…In addition, on the one hand, astrocytes are stimulated to create glutamate as a result of the release of endocannabinoids from neurons, which allows them to communicate with neurons located further away [ 103 ]. On the other hand, ATP produced by astrocytes not only works as a bridge for communication between astrocytes and neurons, it also acts as a bridge for neurons to transmit information extrasynaptically [ 104 ] ( Figure 3 ). This implies that information may also be transmitted to far-off synapses through interactions between astrocytes and neurons.…”

Section: Astrocyte–neuron Interactionsmentioning

confidence: 99%

A Review of Research on the Association between Neuron–Astrocyte Signaling Processes and Depressive Symptoms

Yao

Chen

Guo

et al. 2023

IJMS

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Depression is a mental illness that has a serious negative impact on physical and mental health. The pathophysiology of depression is still unknown, and therapeutic medications have drawbacks, such as poor effectiveness, strong dependence, adverse drug withdrawal symptoms, and harmful side effects. Therefore, the primary purpose of contemporary research is to understand the exact pathophysiology of depression. The connection between astrocytes, neurons, and their interactions with depression has recently become the focus of great research interest. This review summarizes the pathological changes of neurons and astrocytes, and their interactions in depression, including the alterations of mid-spiny neurons and pyramidal neurons, the alterations of astrocyte-related biomarkers, and the alterations of gliotransmitters between astrocytes and neurons. In addition to providing the subjects of this research and suggestions for the pathogenesis and treatment techniques of depression, the intention of this article is to more clearly identify links between neuronal–astrocyte signaling processes and depressive symptoms.

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Section: Astrocyte–neuron Interactionsmentioning

confidence: 99%

A Review of Research on the Association between Neuron–Astrocyte Signaling Processes and Depressive Symptoms

Yao

Chen

Guo

et al. 2023

IJMS

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From calcium imaging to graph topology

Blevins

Bassett

Scott

et al. 2022

Network Neuroscience

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Systems neuroscience is facing an ever-growing mountain of data. Recent advances in protein engineering and microscopy have together led to a paradigm shift in neuroscience; using fluorescence, we can now image the activity of every neuron through the whole brain of behaving animals. Even in larger organisms, the number of neurons that we can record simultaneously is increasing exponentially with time. This increase in the dimensionality of the data is being met with an explosion of computational and mathematical methods, each using disparate terminology, distinct approaches, and diverse mathematical concepts. Here we collect, organize, and explain multiple data analysis techniques that have been, or could be, applied to whole brain imaging, using larval zebrafish as an example model. We begin with methods such as linear regression, that are designed to detect relations between two variables. Next, we progress through network science and applied topological methods, which focus on the patterns of relations among many variables. Finally, we highlight the potential of generative models that could provide testable hypotheses on wiring rules and network progression through time, or disease progression. While we use examples of imaging from larval zebrafish, these approaches are suitable for any population-scale neural network modeling, and indeed, to applications beyond systems neuroscience. Computational approaches from network science and applied topology are not limited to larval zebrafish, or even to systems neuroscience, and we therefore conclude with a discussion of how such methods can be applied to diverse problems across the biological sciences.

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A multilayer network model of neuron-astrocyte populations in vitro reveals mGluR5 inhibition is protective following traumatic injury

Cited by 2 publications

References 119 publications

A Review of Research on the Association between Neuron–Astrocyte Signaling Processes and Depressive Symptoms

A Review of Research on the Association between Neuron–Astrocyte Signaling Processes and Depressive Symptoms

From calcium imaging to graph topology

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