Expression of functional GABAA receptors in cholecystokinin-secreting gut neuroendocrine murine STC-1 cells.

Günter Glassmeier; K H Herzig; M Höpfner; K Lemmer; A Jansen; H Scherubl

Expression of functional GABAA receptors in cholecystokinin-secreting gut neuroendocrine murine STC-1 cells.

Standard

Expression of functional GABAA receptors in cholecystokinin-secreting gut neuroendocrine murine STC-1 cells. / Glassmeier, Günter; Herzig, K H; Höpfner, M; Lemmer, K; Jansen, A; Scherubl, H.

in: J PHYSIOL-LONDON, Jahrgang 510, Nr. 3, 3, 1998, S. 805-814.

Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung

Harvard

Glassmeier, G, Herzig, KH, Höpfner, M, Lemmer, K, Jansen, A & Scherubl, H 1998, 'Expression of functional GABAA receptors in cholecystokinin-secreting gut neuroendocrine murine STC-1 cells.', J PHYSIOL-LONDON, Jg. 510, Nr. 3, 3, S. 805-814. <http://www.ncbi.nlm.nih.gov/pubmed/9660895?dopt=Citation>

APA

Glassmeier, G., Herzig, K. H., Höpfner, M., Lemmer, K., Jansen, A., & Scherubl, H. (1998). Expression of functional GABAA receptors in cholecystokinin-secreting gut neuroendocrine murine STC-1 cells. J PHYSIOL-LONDON, 510(3), 805-814. [3]. http://www.ncbi.nlm.nih.gov/pubmed/9660895?dopt=Citation

Vancouver

Glassmeier G, Herzig KH, Höpfner M, Lemmer K, Jansen A, Scherubl H. Expression of functional GABAA receptors in cholecystokinin-secreting gut neuroendocrine murine STC-1 cells. J PHYSIOL-LONDON. 1998;510(3):805-814. 3.

Bibtex

@article{b34b473d0349472da4d4557ea42fc06c,

title = "Expression of functional GABAA receptors in cholecystokinin-secreting gut neuroendocrine murine STC-1 cells.",

abstract = "1. Gastrointestinal neuroendocrine (NE) cells synthesize, store and secrete gamma-aminobutyric acid (GABA). Recently, an autocrine-paracrine function of GABA has been proposed for secretion from NE cells. 2. To search for functional GABAA receptors in NE gut cells, we performed whole-cell and perforated-patch-clamp studies in the intestinal cholecystokinin (CCK)-secreting NE cell line STC-1. 3. Application of GABA evoked currents in STC-1 cells. These effects were mimicked by muscimol, an agonist of GABAA receptors, and blocked by picrotoxin or bicuculline, antagonists of GABAA receptors. The GABA- or muscimol-activated currents reversed near 0 mV, which under the recording conditions used was consistent with the activation of the GABAA receptor-Cl- channel complex. 4. In contrast to the effect on most neurons, GABA as well as muscimol led to a (reversible) depolarization of the membrane potential of STC-1 cells. Membrane depolarization in turn activated voltage-gated Ca2+ channels and increased intracellular Ca2+ concentrations in STC-1 cells. 5. In accordance with the observed membrane depolarization and activation of voltage-gated Ca2+ channels, both GABA and muscimol stimulated Ca2+-dependent CCK release. In contrast, bicuculline inhibited the GABA-induced secretion of CCK. 6. Using the reverse transcription-polymerase chain reaction (RT-PCR), mRNA of the GABAA receptor subunits alpha2, alpha3, alpha5, beta1, beta3 and delta could be detected in STC-1 cells. 7. In summary, we have shown that the CCK-secreting gut NE cell line STC-1 expresses functional GABAA receptors and that GABA stimulates CCK release. Thus, GABA is involved in the fine tuning of CCK secretion from the gut NE cell line STC-1.",

author = "G{\"u}nter Glassmeier and Herzig, {K H} and M H{\"o}pfner and K Lemmer and A Jansen and H Scherubl",

year = "1998",

language = "Deutsch",

volume = "510",

pages = "805--814",

journal = "J PHYSIOL-LONDON",

issn = "0022-3751",

publisher = "Wiley-Blackwell",

number = "3",

}

RIS

TY - JOUR

T1 - Expression of functional GABAA receptors in cholecystokinin-secreting gut neuroendocrine murine STC-1 cells.

AU - Glassmeier, Günter

AU - Herzig, K H

AU - Höpfner, M

AU - Lemmer, K

AU - Jansen, A

AU - Scherubl, H

PY - 1998

Y1 - 1998

N2 - 1. Gastrointestinal neuroendocrine (NE) cells synthesize, store and secrete gamma-aminobutyric acid (GABA). Recently, an autocrine-paracrine function of GABA has been proposed for secretion from NE cells. 2. To search for functional GABAA receptors in NE gut cells, we performed whole-cell and perforated-patch-clamp studies in the intestinal cholecystokinin (CCK)-secreting NE cell line STC-1. 3. Application of GABA evoked currents in STC-1 cells. These effects were mimicked by muscimol, an agonist of GABAA receptors, and blocked by picrotoxin or bicuculline, antagonists of GABAA receptors. The GABA- or muscimol-activated currents reversed near 0 mV, which under the recording conditions used was consistent with the activation of the GABAA receptor-Cl- channel complex. 4. In contrast to the effect on most neurons, GABA as well as muscimol led to a (reversible) depolarization of the membrane potential of STC-1 cells. Membrane depolarization in turn activated voltage-gated Ca2+ channels and increased intracellular Ca2+ concentrations in STC-1 cells. 5. In accordance with the observed membrane depolarization and activation of voltage-gated Ca2+ channels, both GABA and muscimol stimulated Ca2+-dependent CCK release. In contrast, bicuculline inhibited the GABA-induced secretion of CCK. 6. Using the reverse transcription-polymerase chain reaction (RT-PCR), mRNA of the GABAA receptor subunits alpha2, alpha3, alpha5, beta1, beta3 and delta could be detected in STC-1 cells. 7. In summary, we have shown that the CCK-secreting gut NE cell line STC-1 expresses functional GABAA receptors and that GABA stimulates CCK release. Thus, GABA is involved in the fine tuning of CCK secretion from the gut NE cell line STC-1.

AB - 1. Gastrointestinal neuroendocrine (NE) cells synthesize, store and secrete gamma-aminobutyric acid (GABA). Recently, an autocrine-paracrine function of GABA has been proposed for secretion from NE cells. 2. To search for functional GABAA receptors in NE gut cells, we performed whole-cell and perforated-patch-clamp studies in the intestinal cholecystokinin (CCK)-secreting NE cell line STC-1. 3. Application of GABA evoked currents in STC-1 cells. These effects were mimicked by muscimol, an agonist of GABAA receptors, and blocked by picrotoxin or bicuculline, antagonists of GABAA receptors. The GABA- or muscimol-activated currents reversed near 0 mV, which under the recording conditions used was consistent with the activation of the GABAA receptor-Cl- channel complex. 4. In contrast to the effect on most neurons, GABA as well as muscimol led to a (reversible) depolarization of the membrane potential of STC-1 cells. Membrane depolarization in turn activated voltage-gated Ca2+ channels and increased intracellular Ca2+ concentrations in STC-1 cells. 5. In accordance with the observed membrane depolarization and activation of voltage-gated Ca2+ channels, both GABA and muscimol stimulated Ca2+-dependent CCK release. In contrast, bicuculline inhibited the GABA-induced secretion of CCK. 6. Using the reverse transcription-polymerase chain reaction (RT-PCR), mRNA of the GABAA receptor subunits alpha2, alpha3, alpha5, beta1, beta3 and delta could be detected in STC-1 cells. 7. In summary, we have shown that the CCK-secreting gut NE cell line STC-1 expresses functional GABAA receptors and that GABA stimulates CCK release. Thus, GABA is involved in the fine tuning of CCK secretion from the gut NE cell line STC-1.

M3 - SCORING: Zeitschriftenaufsatz

VL - 510

SP - 805

EP - 814

JO - J PHYSIOL-LONDON

JF - J PHYSIOL-LONDON

SN - 0022-3751

IS - 3

M1 - 3

ER -