PDE4 Control on cAMP/PKA Compartmentation Revealed by Biosensor Imaging in Neurons

P. Vincent; L. R. V. Castro; N. Gervasi; E. Guiot; M. Brito; D. Paupardin-Tritsch

doi:10.1055/s-0032-1311631

PDE4 Control on cAMP/PKA Compartmentation Revealed by Biosensor Imaging in Neurons

P. Vincent
, L. R. V. Castro
, N. Gervasi
, E. Guiot
, M. Brito
, D. Paupardin-Tritsch

Producción científica: Artículo en revista indizada › Artículo › revisión exhaustiva

10 Citas (Scopus)

Resumen

Electrophysiological recordings (using the slow-AHP potassium current) together with novel biosensor imaging methods (with AKAR and Epac sensors) were used in preparations of rodent brain slices to record PKA activation in real time and in individual neurons. The experiments revealed the propagation of the PKA signal from the membrane to the cytosol and eventually to the nucleus. The experiments show how the geometry of the neurons combined with phosphodiesterase activities (mostly rolipram-sensitive PDE4) contributes to a functional compartmentation of the cAMP in subcellular domains.

Idioma original	Inglés
Páginas (desde-hasta)	786-789
Número de páginas	4
Publicación	Hormone and Metabolic Research
Volumen	44
N.º	10
DOI	https://doi.org/10.1055/s-0032-1311631
Estado	Publicada - sept 2012
Publicado de forma externa	Sí

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abstract = "Electrophysiological recordings (using the slow-AHP potassium current) together with novel biosensor imaging methods (with AKAR and Epac sensors) were used in preparations of rodent brain slices to record PKA activation in real time and in individual neurons. The experiments revealed the propagation of the PKA signal from the membrane to the cytosol and eventually to the nucleus. The experiments show how the geometry of the neurons combined with phosphodiesterase activities (mostly rolipram-sensitive PDE4) contributes to a functional compartmentation of the cAMP in subcellular domains.",

keywords = "Cortex, cyclic AMP, Imaging, Neuron, Phosphodiesterase, Protein kinase",

author = "P. Vincent and Castro, \{L. R. V.\} and N. Gervasi and E. Guiot and M. Brito and D. Paupardin-Tritsch",

year = "2012",

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AU - Vincent, P.

AU - Castro, L. R. V.

AU - Gervasi, N.

AU - Guiot, E.

AU - Brito, M.

AU - Paupardin-Tritsch, D.

PY - 2012/9

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N2 - Electrophysiological recordings (using the slow-AHP potassium current) together with novel biosensor imaging methods (with AKAR and Epac sensors) were used in preparations of rodent brain slices to record PKA activation in real time and in individual neurons. The experiments revealed the propagation of the PKA signal from the membrane to the cytosol and eventually to the nucleus. The experiments show how the geometry of the neurons combined with phosphodiesterase activities (mostly rolipram-sensitive PDE4) contributes to a functional compartmentation of the cAMP in subcellular domains.

AB - Electrophysiological recordings (using the slow-AHP potassium current) together with novel biosensor imaging methods (with AKAR and Epac sensors) were used in preparations of rodent brain slices to record PKA activation in real time and in individual neurons. The experiments revealed the propagation of the PKA signal from the membrane to the cytosol and eventually to the nucleus. The experiments show how the geometry of the neurons combined with phosphodiesterase activities (mostly rolipram-sensitive PDE4) contributes to a functional compartmentation of the cAMP in subcellular domains.

KW - Cortex

KW - cyclic AMP

KW - Imaging

KW - Neuron

KW - Phosphodiesterase

KW - Protein kinase

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JO - Hormone and Metabolic Research

JF - Hormone and Metabolic Research

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PDE4 Control on cAMP/PKA Compartmentation Revealed by Biosensor Imaging in Neurons

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