Synapse formation: from cellular and molecular mechanisms to neurodevelopmental and neurodegenerative disorders

Synapse formation: from cellular and molecular mechanisms to neurodevelopmental and neurodegenerative disorders

The precise patterns of neuronal assembly during development determine all functional outputs of a nervous system; these may range from simple reflexes to learning, memory, cognition, etc. To understand how brain functions and how best to repair it after injury, disease, or trauma, it is imperative...

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Published in:Journal of neurophysiology Vol. 121; no. 4; pp. 1381 - 1397
Main Authors: Batool, Shadab, Raza, Hussain, Zaidi, Jawwad, Riaz, Saba, Hasan, Sean, Syed, Naweed I
Format: Journal Article
Language:English
Published: United States 01-04-2019
Subjects:
Animals
Humans
Neurodegenerative Diseases - etiology
Neurodevelopmental Disorders - etiology
Neurogenesis
Neuronal Plasticity
Synapses - pathology
Synapses - physiology
synaptic proteins
neuronal network
synaptic transmission
synaptic plasticity
growth cones
neurodevelopment and neurodegeneration
epigenetics
synapse formation
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Summary:The precise patterns of neuronal assembly during development determine all functional outputs of a nervous system; these may range from simple reflexes to learning, memory, cognition, etc. To understand how brain functions and how best to repair it after injury, disease, or trauma, it is imperative that we first seek to define fundamental steps mediating this neuronal assembly. To acquire the sophisticated ensemble of highly specialized networks seen in a mature brain, all proliferated and migrated neurons must extend their axonal and dendritic processes toward targets, which are often located at some distance. Upon contact with potential partners, neurons must undergo dramatic structural changes to become either a pre- or a postsynaptic neuron. This connectivity is cemented through specialized structures termed synapses. Both structurally and functionally, the newly formed synapses are, however, not static as they undergo consistent changes in order for an animal to meet its behavioral needs in a changing environment. These changes may be either in the form of new synapses or an enhancement of their synaptic efficacy, referred to as synaptic plasticity. Thus, synapse formation is not restricted to neurodevelopment; it is a process that remains active throughout life. As the brain ages, either the lack of neuronal activity or cell death render synapses dysfunctional, thus giving rise to neurodegenerative disorders. This review seeks to highlight salient steps that are involved in a neuron's journey, starting with the establishment, maturation, and consolidation of synapses; we particularly focus on identifying key players involved in the synaptogenic program. We hope that this endeavor will not only help the beginners in this field to understand how brain networks are assembled in the first place but also shed light on various neurodevelopmental, neurological, neurodegenerative, and neuropsychiatric disorders that involve synaptic inactivity or dysfunction.
Bibliography:ObjectType-Article-2
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ISSN:0022-3077
1522-1598
DOI:10.1152/jn.00833.2018