by Keyword: Synapse formation

Gil, Vanessa, del Río, José Antonio, (2019). Functions of plexins/neuropilins and their ligands during hippocampal development and neurodegeneration Cells 8, (3), 206

There is emerging evidence that molecules, receptors, and signaling mechanisms involved in vascular development also play crucial roles during the development of the nervous system. Among others, specific semaphorins and their receptors (neuropilins and plexins) have, in recent years, attracted the attention of researchers due to their pleiotropy of functions. Their functions, mainly associated with control of the cellular cytoskeleton, include control of cell migration, cell morphology, and synapse remodeling. Here, we will focus on their roles in the hippocampal formation that plays a crucial role in memory and learning as it is a prime target during neurodegeneration.

JTD Keywords: PlexinD1, Sema3E, Neuropilins, Neuronal migration, Synapse formation

Llorens, Franc, Gil, Vanessa, Antonio del Rio, Jose, (2011). Emerging functions of myelin-associated proteins during development, neuronal plasticity, and neurodegeneration FASEB Journal , 25, (2), 463-475

Adult mammalian central nervous system (CNS) axons have a limited regrowth capacity following injury. Myelin-associated inhibitors (MAIs) limit axonal outgrowth, and their blockage improves the regeneration of damaged fiber tracts. Three of these proteins, Nogo-A, MAG, and OMgp, share two common neuronal receptors: NgR1, together with its coreceptors [p75(NTR), TROY, and Lingo-1]; and the recently described paired immunoglobulin-like receptor B (PirB). These proteins impair neuronal regeneration by limiting axonal sprouting. Some of the elements involved in the myelin inhibitory pathways may still be unknown, but the discovery that blocking both PirB and NgR1 activities leads to near-complete release from myelin inhibition, sheds light on one of the most competitive and intense fields of neuroregeneration study in recent decades. In parallel with the identification and characterization of the roles and functions of these inhibitory molecules in axonal regeneration, data gathered in the field strongly suggest that most of these proteins have roles other than axonal growth inhibition. The discovery of a new group of interacting partners for myelin-associated receptors and ligands, as well as functional studies within or outside the CNS environment, highlights the potential new physiological roles for these proteins in processes, such as development, neuronal homeostasis, plasticity, and neurodegeneration.-Llorens, F., Gil, V., del Rio, J. A. Emerging functions of myelin-associated proteins during development, neuronal plasticity, and neurodegeneration.

JTD Keywords: MAIs, Neural stem cells, Synapse formation