Trans-synaptic mechanisms orchestrated by mammalian synaptic cell adhesion molecules
- Title
- Trans-synaptic mechanisms orchestrated by mammalian synaptic cell adhesion molecules
- Author(s)
- Kim, Jinhu ; Wulschner, Luis E. Gomez ; Oh, Won Chan ; Ko, Jaewon
- Issued Date
- 2022-11
- Citation
- BioEssays, v.44, no.11
- Type
- Article
- Author Keywords
- amyloid precursor protein ; latrophilin ; LRRTM ; MDGA ; neurexin ; synaptic adhesion ; transsynaptic signaling
- Keywords
- RELEASE PROBABILITY ; HIPPOCAMPAL ; SPECIFICITY ; NEUREXINS ; LAR-RPTPS ; TRANSMISSION ; INHIBITION ; ORGANIZERS ; AMYLOID PRECURSOR PROTEIN ; STRUCTURAL BASIS
- ISSN
- 0265-9247
- Abstract
- Bidirectional trans-synaptic signaling is essential for the formation, maturation, and plasticity of synaptic connections. Synaptic cell adhesion molecules (CAMs) are prime drivers in shaping the identities of trans-synaptic signaling pathways. A series of recent studies provide evidence that diverse presynaptic cell adhesion proteins dictate the regulation of specific synaptic properties in postsynaptic neurons. Focusing on mammalian synaptic CAMs, this article outlines several exemplary cases supporting this notion and highlights how these trans-synaptic signaling pathways collectively contribute to the specificity and diversity of neural circuit architecture.
- Publisher
- John Wiley & Sons Inc.
- Related Researcher
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Ko, Jaewon
- Research Interests Synapse Formation and Function; Neural Circuits; 뇌질환; animal model
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- Appears in Collections:
- Department of Brain Sciences Laboratory of Synapse Formation and Function 1. Journal Articles
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