{"id": "package:9fa1f29c-1169-4420-ba5e-a86bca3870f1", "name": "20180220 RoiStream12.zip", "self_uri": "https://services.scicrunch.io/sparc/drs/v1/objects/9fa1f29c-1169-4420-ba5e-a86bca3870f1", "size": 6530, "created_time": "2020-09-28T16:22:49,787142Z", "updated_time": "2022-12-13T15:43:03,032359Z", "version": "1", "mime_type": "application/zip", "checksums": [{"checksum": "cbaa80eb90d4498b495fd9521178326ed60af68016f22bdbb89376726f9cb576", "type": "sha256"}], "access_methods": [{"type": "s3", "access_url": {"url": "s3://prd-sparc-discover50-use1/368/files/primary/sub-71/sam-20180220-12/20180220 RoiStream12.zip"}, "region": "us-east-1"}], "dataset": {"id": "368", "doi": "DOI:10.26275/yv7l-9fst", "title": "Synaptic components function and modulation characterized by GCaMP6f calcium imaging in cholinergic myenteric ganglion neurons", "description": "Synapses and their components on myenteric neurons assessed by GCaMP Ca2+ imaging", "abstract": "Experiments with selective receptor agonists and antagonists reveal that most colonic cholinergic (i.e. GCaMP6f+/ChAT+) MG neurons express nicotinic ACh receptors (nAChRs) and most express ionotropic serotonin receptors (5-HT3Rs). Cholinergic MG neurons also display small, spontaneous Ca2+ transients occurring at ≈ 0.2 Hz.  Experiments with inhibitors of Na+ channel dependent impulses, presynaptic Ca2+ channels and postsynaptic receptor function reveal that the Ca2+ transients arise from impulse-driven presynaptic activity and subsequent activation of postsynaptic nAChRs or 5-HT3Rs.   Electrical stimulation of MP longitudinal connectives evoked Ca2+ responses that similarly depended on nAChRs and/or 5-HT3Rs.  Responses to single connective stimuli had peak amplitudes and rise and decay times that were indistinguishable from the spontaneous Ca2+ transients and the largest fraction had synaptic delays < 4 ms, consistent with activation by monosynaptic inputs.  These results indicate that the spontaneous Ca2+ transients and stimulus evoked Ca2+ responses originate from circuits involving fast chemical synaptic transmission mediated by nAChRs and/or 5-HT3Rs.  Experiments with an 7-nAChR agonist and antagonist, and with pituitary adenylate cyclase activating polypeptide (PACAP) reveal that the same synaptic circuits display extensive capacity for presynaptic modulation.  Our use of non-invasive GCaMP6f/ChAT Ca2+ imaging in colon segments with intrinsic connections preserved, reveals an abundance of direct and modulatory synaptic influences on cholinergic MG neurons."}}