Journal
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
Volume 22, Issue 10, Pages -Publisher
MDPI
DOI: 10.3390/ijms22105143
Keywords
axonal guidance; glycosylation; glycosaminoglycan; hyaluronan; heparan sulfate proteoglycan; chondroitin sulfate; repulsion; attraction; chemotaxis; haptotaxis
Funding
- NIGMS [R35GM135160]
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Research reveals that axonal pathfinding involves multiple guidance molecules and signaling mechanisms, with dynamic transitions between attractive and repulsive cues. The differential expression of receptors and spatial distribution of guidance cues are key mechanisms diversifying axonal guidance responses.
How millions of axons navigate accurately toward synaptic targets during development is a long-standing question. Over decades, multiple studies have enriched our understanding of axonal pathfinding with discoveries of guidance molecules and morphogens, their receptors, and downstream signalling mechanisms. Interestingly, classification of attractive and repulsive cues can be fluid, as single guidance cues can act as both. Similarly, guidance cues can be secreted, chemotactic cues or anchored, adhesive cues. How a limited set of guidance cues generate the diversity of axonal guidance responses is not completely understood. Differential expression and surface localization of receptors, as well as crosstalk and spatiotemporal patterning of guidance cues, are extensively studied mechanisms that diversify axon guidance pathways. Posttranslational modification is a common, yet understudied mechanism of diversifying protein functions. Many proteins in axonal guidance pathways are glycoproteins and how glycosylation modulates their function to regulate axonal motility and guidance is an emerging field. In this review, we discuss major classes of glycosylation and their functions in axonal pathfinding. The glycosylation of guidance cues and guidance receptors and their functional implications in axonal outgrowth and pathfinding are discussed. New insights into current challenges and future perspectives of glycosylation pathways in neuronal development are discussed.
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