Search results for "Ion transport"

showing 2 items of 162 documents

Release of non-neuronal acetylcholine from the isolated human placenta is affected by antidepressants.

2007

Non-neuronal acetylcholine (ACh) is released from the human placenta into the extracellular space via organic cation transporters (OCTs). The present experiments investigated whether ACh release from epithelial cells is affected by drugs which are substrates of OCTs. The antidepressant drugs amitriptyline and doxepine were tested as both substances are not approved for pregnant women but frequently used. Release of ACh was measured in 10 min intervals over a period of 100 min. Test substances were added from t=50 min of incubation onwards. The effect was calculated by comparing the ACh release of the last three samples (t=70-100 min; B2) with that immediately before the application of the t…

medicine.medical_specialtyTime FactorsAmitriptylinePlacentaVasodilator AgentsPharmacologyIn Vitro TechniquesGeneral Biochemistry Genetics and Molecular BiologyTheophyllinePregnancyInternal medicinemedicineExtracellularHumansHypoglycemic AgentsAmitriptylineGeneral Pharmacology Toxicology and PharmaceuticsIncubationNeuronsOrganic cation transport proteinsbiologyDose-Response Relationship DrugChemistryHuman placentaGeneral MedicineAcetylcholineAntidepressive AgentsMetforminNon neuronal acetylcholineEndocrinologybiology.proteinMinoxidilAntidepressantFemaleDoxepinAcetylcholinemedicine.drugLife sciences
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Secretagogues Modulate the Calcium Concentration in the Endoplasmic Reticulum of Insulin-secreting Cells

1999

The precise regulation of the Ca2+ concentration in the endoplasmic reticulum ([Ca2+]er) is important for protein processing and signal transduction. In the pancreatic beta-cell, dysregulation of [Ca2+]er may cause impaired insulin secretion. The Ca2+-sensitive photoprotein aequorin mutated to lower its Ca2+ affinity was stably expressed in the endoplasmic reticulum (ER) of rat insulinoma INS-1 cells. The steady state [Ca2+]er was 267 +/- 9 microM. Both the Ca2+-ATPase inhibitor cyclopiazonic acid and 4-chloro-m-cresol, an activator of ryanodine receptors, caused an almost complete emptying of ER Ca2+. The inositol 1,4,5-trisphosphate generating agonists, carbachol, and ATP, reduced [Ca2+]e…

medicine.medical_specialtybiologyRyanodine receptorEndoplasmic reticulumAequorinDepolarizationCell BiologyBiochemistryCell biologychemistry.chemical_compoundEndocrinologychemistryInternal medicinebiology.proteinmedicineInositolCyclopiazonic acidMolecular BiologyIon transporterHomeostasisJournal of Biological Chemistry
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