K. Lemmer scite author profile

Gastrointestinal neuroendocrine (NE) cells synthesize, store and secrete γ‐aminobutyric acid (GABA). Recently, an autocrine‐paracrine function of GABA has been proposed for secretion from NE cells. 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. 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. 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. 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. Using the reverse transcription‐polymerase chain reaction (RT‐PCR), mRNA of the GABAA receptor subunits α2, α3, α5, β1, β3 and δ could be detected in STC‐1 cells. 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.

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Expression of dopamine receptors and transporter in neuroendocrine gastrointestinal tumor cells

Lemmer

Ahnert‐Hilger

Höpfner

et al. 2002

Life Sciences

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Expression of Functional GABA_A Receptors in Isolated Human Insulinoma Cells

Glassmeier

Höpfner

Buhr

et al. 1998

Annals of the New York Academy of Sciences

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Pancreatic islets contain and release high concentrations of GABA. GABA is thought to play a paracrine role in beta-cells. Searching for a paracrine function of GABA in neoplastic beta-cells we performed patch-clamp studies in isolated human insulinoma cells. We show that human insulinoma cells can express functional GABAA receptors. Activation of GABAA receptors caused a reversible membrane depolarization in a subgroup of insulinoma cells. Membrane depolarization resulted in transmembraneous calcium influx through voltage-gated calcium channels and stimulation of insulin secretion. Insulin secretion was increased by the GABAA receptor agonist muscimol (50 microM) by about 280%. Thus, GABAA receptors can be expressed in human insulinoma cells and can regulate their insulin release.

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K. Lemmer

Expression of Functional P2-Purinergic Receptors in Primary Cultures of Human Colorectal Carcinoma Cells

Expression of functional GABA_A receptors in cholecystokinin‐secreting gut neuroendocrine murine STC‐1 cells

Expression of dopamine receptors and transporter in neuroendocrine gastrointestinal tumor cells

Expression of Functional GABA_A Receptors in Isolated Human Insulinoma Cells

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K. Lemmer

Expression of Functional P2-Purinergic Receptors in Primary Cultures of Human Colorectal Carcinoma Cells

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

Expression of dopamine receptors and transporter in neuroendocrine gastrointestinal tumor cells

Expression of Functional GABAA Receptors in Isolated Human Insulinoma Cells

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Product

Resources

About

Expression of functional GABA_A receptors in cholecystokinin‐secreting gut neuroendocrine murine STC‐1 cells

Expression of Functional GABA_A Receptors in Isolated Human Insulinoma Cells