Search results for " Mouse colon"

showing 4 items of 4 documents

Novel evidences for a role of dopamine as modulator of intestinal motility: a study on mouse distal colon

2014

Parkinson’s disease (PD) is the second most common neurodegenerative disease after Alzheimer’s disease. It has been classically considered that the pathological hallmarks of PD affect primarily the substantia nigra. Nevertheless, it has become increasingly evident that PD is a multicentric neurodegenerative process that affects several neuronal structures outside the substantia nigra, among which is the enteric nervous system (ENS). Pathological alterations within the ENS could be involved in the gastrointestinal (GI) dysfunction frequently encountered by PD patients. Dopamine (DA) seems to be a major candidate for the impairment of GI function in PD since its levels were found to be decrea…

dopamine mouse colon cholinergic modulation ENS
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Arginine vasopressin, via activation of post-junctional V1 receptors, induces contractile effects in mouse distal colon

2013

The aim of this study was to analyze whether arginine vasopressin (AVP) may be considered a modulator of intestinal motility. In this view, we evaluated, in vitro, the effects induced by exogenous administration of AVP on the contractility of mouse distal colon, the subtype(s) of receptor(s) activated and the action mechanism. Isometric recordings were performed on longitudinal and circular muscle strips of mouse distal colon. AVP (0.001 nM-100 nM) caused concentration-dependent contractile effects only on the longitudinal muscle, antagonized by the V1 receptor antagonist, V-1880. AVP-induced effect was not modified by tetrodotoxin, atropine and indomethacin. Contractile response to AVP was…

AtropineMaleReceptors Vasopressinmedicine.medical_specialtyVasopressinCarbacholNifedipineColonPhysiologyIndomethacinClinical BiochemistryMuscarinic AntagonistsTetrodotoxinCholinergic AgonistsIn Vitro TechniquesBiologyBiochemistryContractilityMiceCellular and Molecular Neurosciencechemistry.chemical_compoundPhosphoinositide Phospholipase CEndocrinologyInternal medicinemedicineAnimalsCyclooxygenase InhibitorsReceptorVasopressin receptorPhospholipase CArginine vasopressin receptor 1AMuscle SmoothCalcium Channel BlockersArginine vasopressinIntestinalcontractility V1 receptorsPhospholipase C Mouse colonArginine VasopressinEnzyme ActivationMice Inbred C57BLEndocrinologychemistryCarbacholGastrointestinal MotilityCyclopiazonic acidhormones hormone substitutes and hormone antagonistsMuscle ContractionSignal Transductionmedicine.drugRegulatory Peptides
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Angiotensin II contractile effects in mouse colon: role for pre- and post-junctional AT1A receptors

2013

Aim This study investigates whether a local renin–angiotensin system (RAS) exists in mouse colon and whether angiotensin II (Ang II) may play a role in the regulation of the contractile activity. Methods Isometric recordings were performed in vitro on the longitudinal muscle of mouse proximal and distal colon. Transcripts encoding for RAS components were investigated by RT-PCR. Results Ang II caused, in both preparations, a concentration-dependent contractile effect, antagonized by losartan, AT1 receptor antagonist, but not by PD123319, AT2 receptor antagonist. The combination of losartan plus PD123319 caused no change on the Ang II-induced contraction than losartan alone. Tetrodotoxin, neu…

Malemedicine.medical_specialtyColonPhysiologymedicine.drug_classMuscarinic AntagonistsBiologyReceptor Angiotensin Type 1Renin-Angiotensin SystemMicechemistry.chemical_compoundOrgan Culture TechniquesInternal medicineMuscarinic acetylcholine receptormedicineAnimalsReceptorAngiotensin II receptor type 1Reverse Transcriptase Polymerase Chain ReactionAngiotensin IIAntagonistMuscle Smoothangiotensin II AT1 receptors AT2 receptors enteric neurones mouse colon muscle contraction.Receptor antagonistAngiotensin IIElectrophysiologyMice Inbred C57BLEndocrinologyLosartanchemistryHexamethoniumhormones hormone substitutes and hormone antagonistsMuscle Contractionmedicine.drug
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Guanine-based purines affects the enteric cholinergic neurotransmission via a mechanism not involving membrane receptors

2011

Increasing evidence indicate that guanine-based purines, known as modulators of intracellular processes, can exert extracellular effects, raising the possibility of the existence of specific receptors for these compounds. We investigated if guaninebased purine receptors may be present in the rodent gastrointestinal tract modulating intestinal contractility, as the well known adenine-based purine receptors. Experiments were performed in vitro recording spontaneous and neurally-evoked contractile activity, as changes in isometric tension, in mouse distal colon circular muscle. Guanosine up to 3 mM or guanine up to 1 mM, did not affect the spontaneous mechanical activity, but they significantl…

guanine based purine mouse colon enteric transmission
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