Andrew R. Calver scite author profile

Oligodendrocyte progenitors originate near the floor plate of the spinal cord, then proliferate and migrate throughout the cord before giving rise to oligodendrocytes. Progenitor cell proliferation stops before birth because the cell cycle slows down, linked to an increase in differentiation and death. Experiments with transgenic mice show that platelet-derived growth factor (PDGF) drives progenitor cell division and suggest that slowing of and exit from the cycle reflects a decline in PDGF signaling. Overexpressing PDGF induces hyperproliferation of progenitor cells and excessive, ectopic production of oligodendrocytes. However, the superfluous oligodendrocytes die at an immature stage of differentiation, leaving a normal complement of myelin-forming cells. Therefore, cell survival controls override proliferation controls for determining the final number and distribution of mature oligodendrocytes.

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Natural killer cell trafficking in vivo requires a dedicated sphingosine 1-phosphate receptor

Walzer

et al. 2007

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Consistent with their function in immune surveillance, natural killer (NK) cells are distributed throughout lymphoid and nonlymphoid tissues. However, the mechanisms governing the steady-state trafficking of NK cells remain unknown. The lysophospholipid sphingosine 1-phosphate (S1P), by binding to its receptor S1P1, regulates the recirculation of T and B lymphocytes. In contrast, S1P5 is detected in the brain and regulates oligodendrocyte migration and survival in vitro. Here we show that S1P5 was also expressed in NK cells in mice and humans and that S1P5-deficient mice had aberrant NK cell homing during steady-state conditions. In addition, we found that S1P5 was required for the mobilization of NK cells to inflamed organs. Our data emphasize distinct mechanisms regulating the circulation of various lymphocyte subsets and raise the possibility that NK cell trafficking may be manipulated by therapies specifically targeting S1P5.

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Edg8/S1P5: An Oligodendroglial Receptor with Dual Function on Process Retraction and Cell Survival

Jaillard

Harrison²,

Stankoff³

et al. 2005

J. Neurosci.

312

276

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Endothelial differentiation gene (Edg) proteins are G-protein-coupled receptors activated by lysophospholipid mediators: sphingosine-1-phosphate (S1P) or lysophosphatidic acid. We show that in the CNS, expression of Edg8/S1P5, a high-affinity S1P receptor, is restricted to oligodendrocytes and expressed throughout development from the immature stages to the mature myelin-forming cell. S1P activation of Edg8/S1P5 on O4-positive pre-oligodendrocytes induced process retraction via a Rho kinase/collapsin response-mediated protein signaling pathway, whereas no retraction was elicited by S1P on these cells derived from Edg8/S1P5-deficient mice. Edg8/S1P5-mediated process retraction was restricted to immature cells and was no longer observed at later developmental stages. In contrast, S1P activation promoted the survival of mature oligodendrocytes but not of pre-oligodendrocytes. The S1P-induced survival of mature oligodendrocytes was mediated through a pertussis toxin-sensitive, Akt-dependent pathway. Our data demonstrate that Edg8/S1P5 activation on oligodendroglial cells modulates two distinct functional pathways mediating either process retraction or cell survival and that these effects depend on the developmental stage of the cell.

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GSK189254, a Novel H₃Receptor Antagonist That Binds to Histamine H₃Receptors in Alzheimer's Disease Brain and Improves Cognitive Performance in Preclinical Models

Medhurst

Atkins²,

Beresford³

et al. 2007

J Pharmacol Exp Ther

282

234

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6-[(3-Cyclobutyl-2,3,4,5-tetrahydro-1H-3-benzazepin-7-yl)oxy]-N-methyl-3-pyridinecarboxamide hydrochloride (GSK189254) is a novel histamine H 3 receptor antagonist with high affinity for human (pK i ϭ 9.59 -9.90) and rat (pK i ϭ 8.51-9.17) H 3 receptors. GSK189254 is Ͼ10,000-fold selective for human H 3 receptors versus other targets tested, and it exhibited potent functional antagonism (pA 2 ϭ 9.06 versus agonist-induced changes in cAMP) and inverse agonism [pIC 50 Progressive decline in cognitive performance is a key characteristic of Alzheimer's disease (AD) and related dementias, and improving cognitive function in these diseases represents a complex challenge, given the involvement of numerous neurotransmitter systems and brain regions (CoreyBloom, 2002). Current therapies, such as cholinesterase inhibitors, provide only minimal benefit to a subset of patients and for a limited period, so a number of alternative Article, publication date, and citation information can be found at

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Andrew R. Calver

Oligodendrocyte Population Dynamics and the Role of PDGF In Vivo

Natural killer cell trafficking in vivo requires a dedicated sphingosine 1-phosphate receptor

Edg8/S1P5: An Oligodendroglial Receptor with Dual Function on Process Retraction and Cell Survival

GSK189254, a Novel H₃Receptor Antagonist That Binds to Histamine H₃Receptors in Alzheimer's Disease Brain and Improves Cognitive Performance in Preclinical Models

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Andrew R. Calver

Oligodendrocyte Population Dynamics and the Role of PDGF In Vivo

Natural killer cell trafficking in vivo requires a dedicated sphingosine 1-phosphate receptor

Edg8/S1P5: An Oligodendroglial Receptor with Dual Function on Process Retraction and Cell Survival

GSK189254, a Novel H3Receptor Antagonist That Binds to Histamine H3Receptors in Alzheimer's Disease Brain and Improves Cognitive Performance in Preclinical Models

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Product

Resources

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GSK189254, a Novel H₃Receptor Antagonist That Binds to Histamine H₃Receptors in Alzheimer's Disease Brain and Improves Cognitive Performance in Preclinical Models