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CyDAP-A fluorescent probe for cytosolic dopamine detection

Jeng, J.-Y.; Sun, L.; Wang, J.-C.; Lin, C.-Y.; Hung, C.-P.; Chu, L.-A.; Chang, H.-Y.; Chiang, A.-S.; Sang, T.-K.

2020-09-04 neuroscience
10.1101/2020.09.04.283911 bioRxiv
Show abstract

Dopamine (DA) is an essential neurotransmitter modulating motor and cognitive functions. Several neurological disorders, including Parkinsons disease (PD) and drug addiction, are the result of DA system dysfunction; however, it remains incomplete understood of why DA neuron is selectively more vulnerable than other neurons. Here we utilize the spectral feature of human MAO B (monoamine oxidase B) to design a genetic-amenable, GFP-based fluorescent probe CyDAP. Upon genetic and pharmacological manipulations to elevate the cytosolic DA levels in cells and Drosophila models, CyDAP shows enhanced GFP emission, suggesting this probe is feasible for DA detection. Furthermore, we observe that expressing human -Synuclein in Drosophila elicited GFP emission from CyDAP, suggesting a link between cytosolic DA imbalance and regional vulnerability in PD context. Importantly, CyDAP can detect the change of cytosolic DA in live Drosophila brains, as demonstrated by time-lapse and the 4D light-sheet confocal recording. CyDAP may serve as a tool for evaluating metabolic deregulation of DA in brain models of PD and other DA system-related psychiatric disorders.

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