Neural Adhesion Molecules—from Development to Adult Synaptic Plasticity
A special issue of International Journal of Molecular Sciences (ISSN 1422-0067). This special issue belongs to the section "Molecular Biology".
Deadline for manuscript submissions: 31 July 2024 | Viewed by 3129
Special Issue Editor
Interests: nervous system; cell adhesion molecules; development; synaptic function and plasticity; recovery after trauma; spinal cord injury; traumatic brain injury; neurodegenerative diseases; microglia; mitochondria
Special Issues, Collections and Topics in MDPI journals
Special Issue Information
Dear Colleagues,
Since the discovery of the first neural cell adhesion molecule in Gerald Edelman's group about 50 years ago, the neural cell adhesion molecule NCAM was introduced as a 'glue' that prevents the brain from falling apart. Soon thereafter, L1CAM (L1 in short) was described as contributing to neuronal cell migration along radial glial fibers in the developing murine cerebellum. Sequence analysis revealed that they belong to the immunoglobulin superfamily. Furthermore, their covalently attached carbohydrates were shown to be functionally important. These carbohydrates formed the basis for the discovery of new adhesion molecules (CAMs) that do not belong to the immunoglobulin superfamily: integrins, selectins, and cadherins, to name only a few. Transmembrane CAMs signal to the cell interior, thereby shaping a cell's response to ligand triggering. Depending on the ligand, responses can lead to agonistic or antagonistic effects on cell migration, neurite outgrowth, neuronal survival, synapse formation, synaptic plasticity, and overall regeneration after trauma. As well as neurons, glia also express CAMs. Of note, many such molecules are present in the extracellular space, where they react with each other or bind to their receptors at the cell surface. CAMs also determine the functions of tumors. Last, but not least, mutations in CAMs lead to neural and non-neural diseases, since non-neural cells also express CAMs that were initially characterized in the nervous system. The aim of this Special Issue is to illustrate the manifold features of CAMs.
Prof. Dr. Melitta Schachner
Guest Editor
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Keywords
- neural cell adhesion
- radial glial fiber
- CAMs
