2019
Activation of the Calcium Sensing Receptor Decreases Secretagogue-Induced Fluid Secretion in the Rat Small Intestine
Barahona MJ, Maina RM, Lysyy T, Finotti M, Caturegli G, Baratta V, D’Amico F, Mulligan D, Geibel JP. Activation of the Calcium Sensing Receptor Decreases Secretagogue-Induced Fluid Secretion in the Rat Small Intestine. Frontiers In Physiology 2019, 10: 439. PMID: 31130866, PMCID: PMC6509940, DOI: 10.3389/fphys.2019.00439.Peer-Reviewed Original ResearchPresence of forskolinFluid secretionSmall intestineAC-265347Fluid absorptionIntestinal fluid secretionCalcium-sensing receptorSprague-Dawley ratsNew therapeutic targetsNet fluid absorptionDose-dependent mannerRat small intestineMM CaAbsence of forskolinMammalian gastrointestinal tractFluid hypersecretionDiarrheal illnessIntraluminal perfusionPotent secretagogueDawley ratsGastrointestinal tractCaSR activatorsElectrolyte balanceTherapeutic targetLuminal perfusateDesign and implementation of novel nutraceuticals and derivatives for treating intestinal disorders
Barahona MJ, Baratta V, Ollodart J, Mulligan D, Geibel JP. Design and implementation of novel nutraceuticals and derivatives for treating intestinal disorders. Future Medicinal Chemistry 2019, 11: 847-855. PMID: 30994367, PMCID: PMC8008207, DOI: 10.4155/fmc-2018-0313.Peer-Reviewed Original ResearchConceptsSignificant worldwide disease burdenSpectrum of illnessWorldwide disease burdenIntestinal fluid secretionSystemic side effectsCalcium-sensing receptorNovel therapeutic targetG protein-coupled receptorsSurgical therapyPharmaceutical optionsMucosal integrityDisease burdenIntestinal disordersNutraceutical therapyGastrointestinal diseasesGastrointestinal illnessSide effectsTherapeutic targetFluid secretionIntestinal cellsTherapyAdverse effectsNovel nutraceuticalsCaSRIllness
2010
Evidence for intestinal chloride secretion
Murek M, Kopic S, Geibel J. Evidence for intestinal chloride secretion. Quarterly Journal Of Experimental Physiology And Cognate Medical Sciences 2010, 95: 471-478. PMID: 20233891, DOI: 10.1113/expphysiol.2009.049445.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsChloride ChannelsChloridesCLC-2 Chloride ChannelsCystic Fibrosis Transmembrane Conductance RegulatorDiarrheaEnterocytesHumansIntestinal AbsorptionIntestinal MucosaIntestinal SecretionsPotassium ChannelsSodium-Potassium-Chloride SymportersSodium-Potassium-Exchanging ATPaseTight JunctionsWater-Electrolyte Balance