Ca2+ imaging of synaptic compartments using subcellularly targeted GCaMP8f in Drosophila

GCaMP8f is a sensitive genetically encoded Ca2+ indicator that enables imaging of neuronal activity. Here, we present a protocol to perform Ca2+ imaging of the Drosophila neuromuscular junction using GCaMP8f targeted to pre- or postsynaptic compartments. We describe ratiometric Ca2+ imaging using GCaMP8f fused to mScarlet and synaptotagmin that reveals Ca2+ dynamics at presynaptic terminals. We then detail “quantal” imaging of miniature transmission events using GCaMP8f targeted to postsynaptic compartments by fusion to a PDZ-binding motif. For complete details on the use and execution of this protocol, please refer to Li et al.,1 Han et al.,2 Perry et al.,3 and Han et al.4 [Display omitted] •Ca2+ imaging to assess single-action-potential presynaptic signals at the fly NMJ•Image and quantify “quantal” postsynaptic Ca2+ signals at the Drosophila NMJ•Sub-synaptically targeted GCaMP8 indicators for ratiometric and quantitative imaging Publisher’s note: Undertaking any experimental protocol requires adherence to local institutional guidelines for laboratory safety and ethics. GCaMP8f is a sensitive genetically encoded Ca2+ indicator that enables imaging of neuronal activity. Here, we present a protocol to perform Ca2+ imaging of the Drosophila neuromuscular junction using GCaMP8f targeted to pre- or postsynaptic compartments. We describe ratiometric Ca2+ imaging using GCaMP8f fused to mScarlet and synaptotagmin that reveals Ca2+ dynamics at presynaptic terminals. We then detail “quantal” imaging of miniature transmission events using GCaMP8f targeted to postsynaptic compartments by fusion to a PDZ-binding motif.