Reciprocal regulation among TRPV1 channels and phosphoi nos itide 3-kinase in response to nerve growth factor
Copyright policy )Reciprocal regulation among TRPV1 channels and phosphoi nos itide 3-kinase in response to nerve growth factor
AbstractAlthough it has been known for over a decade that the inflammatory mediator NGF sensitizes pain-receptor neurons through increased trafficking of TRPV1 channels to the plasma membrane, the mechanism by which this occurs remains mysterious. NGF activates phosphoinositide 3-kinase (PI3K), the enzyme that generates PIP3, and PI3K activity is required for sensitization. One tantalizing hint came from the finding that the N-terminal region of TRPV1 interacts directly with PI3K. Using 2-color total internal reflection fluorescence microscopy, we show that TRPV1 potentiates NGF-induced PI3K activity. A soluble TRPV1 fragment corresponding to the N-terminal Ankyrin repeats domain (ARD) was sufficient to produce this potentiation, indicating that allosteric regulation was involved. Further, other TRPV channels with conserved ARDs also potentiated NGF-induced PI3K activity whereas TRP channels lacking ARDs did not. Our data demonstrate a novel reciprocal regulation of PI3K signaling by the ARD of TRPV channels.
- The University of Texas at Austin United States
- Washington State University United States
- Seattle Children's Research Institute United States
- UNIVERSITY OF WASHINGTON
- University of Mary United States
QH301-705.5, Science, TRPV Cation Channels, Hybrid Cells, Phosphatidylinositols, PI3K, Cell Line, Mice, PIP3, Biochemistry and Chemical Biology, Nerve Growth Factor, Animals, Biology (General), NGF, Q, Cell Membrane, R, Rats, TRPV1, Enzyme Activation, TRPV2, Microscopy, Fluorescence, inflammation, Medicine, Phosphatidylinositol 3-Kinase, Protein Binding
QH301-705.5, Science, TRPV Cation Channels, Hybrid Cells, Phosphatidylinositols, PI3K, Cell Line, Mice, PIP3, Biochemistry and Chemical Biology, Nerve Growth Factor, Animals, Biology (General), NGF, Q, Cell Membrane, R, Rats, TRPV1, Enzyme Activation, TRPV2, Microscopy, Fluorescence, inflammation, Medicine, Phosphatidylinositol 3-Kinase, Protein Binding
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