Intercellular action of nitric oxide increases cGMP in cerebellar Purkinje cells

Nick A. Hartell; Shigeki Furuya; Sonja Jacoby; Daisuke Okada

doi:10.1097/00001756-200101220-00013

Intercellular action of nitric oxide increases cGMP in cerebellar Purkinje cells

Nick A. Hartell, Shigeki Furuya, Sonja Jacoby, Daisuke Okada

Research output: Contribution to journal › Article › peer-review

38 Citations (Scopus)

Abstract

cGMP is thought to play a role in cerebellar signalling yet its production within Purkinje cells has never been detected. In the present study, the hydrolysis of a fluorescent substrate analogue, 2′-O-anthranyloyl cyclic GMP, by type 5 phosphodiesterase was monitored within Purkinje cells in slices and in culture. Nitric oxide, either endogenous released from adjacent neurons or pharmacologically applied, accelerated the rate of hydrolysis in a manner that was dependent on soluble guanylyl cyclase, demonstrating that nitric oxide triggers cyclic GMP production in Purkinje cells, which in turn activates type 5 phosphodiesterase. We conclude that NO acts as an intercellular messenger in the cerebellar cortex and that parallel fibre terminals are a probable source of nitric oxide.

Original language	English
Pages (from-to)	25-28
Number of pages	4
Journal	NeuroReport
Volume	12
Issue number	1
DOIs	https://doi.org/10.1097/00001756-200101220-00013
Publication status	Published - Jan 22 2001
Externally published	Yes

All Science Journal Classification (ASJC) codes

Neuroscience(all)

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10.1097/00001756-200101220-00013

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abstract = "cGMP is thought to play a role in cerebellar signalling yet its production within Purkinje cells has never been detected. In the present study, the hydrolysis of a fluorescent substrate analogue, 2′-O-anthranyloyl cyclic GMP, by type 5 phosphodiesterase was monitored within Purkinje cells in slices and in culture. Nitric oxide, either endogenous released from adjacent neurons or pharmacologically applied, accelerated the rate of hydrolysis in a manner that was dependent on soluble guanylyl cyclase, demonstrating that nitric oxide triggers cyclic GMP production in Purkinje cells, which in turn activates type 5 phosphodiesterase. We conclude that NO acts as an intercellular messenger in the cerebellar cortex and that parallel fibre terminals are a probable source of nitric oxide.",

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AU - Hartell, Nick A.

AU - Furuya, Shigeki

AU - Jacoby, Sonja

AU - Okada, Daisuke

PY - 2001/1/22

Y1 - 2001/1/22

N2 - cGMP is thought to play a role in cerebellar signalling yet its production within Purkinje cells has never been detected. In the present study, the hydrolysis of a fluorescent substrate analogue, 2′-O-anthranyloyl cyclic GMP, by type 5 phosphodiesterase was monitored within Purkinje cells in slices and in culture. Nitric oxide, either endogenous released from adjacent neurons or pharmacologically applied, accelerated the rate of hydrolysis in a manner that was dependent on soluble guanylyl cyclase, demonstrating that nitric oxide triggers cyclic GMP production in Purkinje cells, which in turn activates type 5 phosphodiesterase. We conclude that NO acts as an intercellular messenger in the cerebellar cortex and that parallel fibre terminals are a probable source of nitric oxide.

AB - cGMP is thought to play a role in cerebellar signalling yet its production within Purkinje cells has never been detected. In the present study, the hydrolysis of a fluorescent substrate analogue, 2′-O-anthranyloyl cyclic GMP, by type 5 phosphodiesterase was monitored within Purkinje cells in slices and in culture. Nitric oxide, either endogenous released from adjacent neurons or pharmacologically applied, accelerated the rate of hydrolysis in a manner that was dependent on soluble guanylyl cyclase, demonstrating that nitric oxide triggers cyclic GMP production in Purkinje cells, which in turn activates type 5 phosphodiesterase. We conclude that NO acts as an intercellular messenger in the cerebellar cortex and that parallel fibre terminals are a probable source of nitric oxide.

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Intercellular action of nitric oxide increases cGMP in cerebellar Purkinje cells

Abstract

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