Neuronal Platelet-Activating Factor Receptor Signal Transduction Involves a Pertussis Toxin-Sensitive G-Protein

被引:0
|
作者
Gary D. Clark
Charles F. Zorumski
Robert S. McNeil
Leo T. Happel
Ty Ovella
Shannon McGuire
Gregory J. Bix
John W. Swann
机构
[1] The Cain Foundation Laboratories,Depts. of Pediatrics. Neurology. Neuroscience
[2] Baylor College of Medicine,Depts. of Psychiatry
[3] Washington University School of Medicine,Anatomy and Neurobiology
[4] Louisiana State University Medical School,Dept. of Neurology
[5] The Cain Foundation Laboratories,Neuroscience
[6] The Cain Foundation Laboratories,Depts. of Pediatrics
来源
Neurochemical Research | 2000年 / 25卷
关键词
Platelet-activating factor; PAF; growth cone collapse; axonal growth cone; presynaptic nerve terminal; miniature excitatory post-synaptic currents (MESCS); synaptic plasticity; G-protein; metabotropic receptor; pertussis toxin;
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中图分类号
学科分类号
摘要
In most nonneural systems, platelet-activating factor (PAF) receptor effects are mediated by G-proteins that are often pertussis toxin-sensitive. The activation of pertussis toxin-sensitive G-proteins linked to PAF receptors results in the mobilization of intracellular calcium, at least in part, through the second messenger inositol triphosphate. We have sought to determine if a pertussis toxin-sensitive G-protein is involved in the PAF receptor-mediated phenomena of growth cone collapse and of synaptic enhancement in primary neuronal culture. Using infrared differential interference contrast microscopy and patch-clamp recording techniques, pertussis toxin, but not the inactive B oligomer of the toxin, was found to block both the growth cone collapse and the enhanced synaptic release of excitatory transmitter induced by a nonhydrolyzable PAF receptor agonist, making it likely that Go, Gq, or Gi is the G-protein transducer of PAF receptors in primary neurons. We believe that PAF acts directly on neuronal receptors, which are linked to pertussis toxin-sensitive G-proteins, on the tips of developing neurites, and on presynaptic nerve terminals, leading to growth cone collapse and enhanced synaptic release of transmitter.
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页码:603 / 611
页数:8
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