Grace O. Mizuno scite author profile

Genetically encoded dopamine sensors based on green fluorescent protein (GFP) enable high-resolution imaging of dopamine dynamics in behaving animals. However, these GFP-based variants cannot be readily combined with commonly used optical sensors and actuators, due to spectral overlap. We therefore engineered red-shifted variants of dopamine sensors called RdLight1, based on mApple. RdLight1 can be combined with GFP-based sensors with minimal interference, and shows high photostability permitting prolonged continuous imaging. We demonstrate the utility of RdLight1 for receptor-specific pharmacological analysis in cell culture, simultaneous assessment of dopamine release and cell type-specific neuronal activity, and simultaneous subsecond monitoring of multiple neurotransmitters in freely behaving rats. Dual-color photometry revealed that dopamine release in the nucleus accumbens evoked by reward-predictive cues is accompanied by a rapid suppression of glutamate release. By enabling multiplexed imaging of dopamine with other circuit components in vivo , RdLight1 opens avenues for understanding many aspects of dopamine biology.

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Directed Evolution of a Selective and Sensitive Serotonin Sensor via Machine Learning

Unger

Keller

Altermatt

et al. 2020

Cell

125

116

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Temporally and Spatially Distinct Thirst Satiation Signals

Augustine

Ebisu

Zhao

et al. 2019

Neuron

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Aberrant Calcium Signaling in Astrocytes Inhibits Neuronal Excitability in a Human Down Syndrome Stem Cell Model

et al. 2018

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Down syndrome (DS) is a genetic disorder that causes cognitive impairment. The staggering effects associated with an extra copy of human chromosome 21 (HSA21) complicates mechanistic understanding of DS pathophysiology. We examined the neuron-astrocyte interplay in a fully recapitulated HSA21 trisomy cellular model differentiated from DS-patient-derived induced pluripotent stem cells (iPSCs). By combining calcium imaging with genetic approaches, we discovered the functional defects of DS astroglia and their effects on neuronal excitability. Compared with control isogenic astroglia, DS astroglia exhibited more-frequent spontaneous calcium fluctuations, which reduced the excitability of co-cultured neurons. Furthermore, suppressed neuronal activity could be rescued by abolishing astrocytic spontaneous calcium activity either chemically by blocking adenosine-mediated signaling or genetically by knockdown of inositol triphosphate (IP) receptors or S100B, a calcium binding protein coded on HSA21. Our results suggest a mechanism by which DS alters the function of astrocytes, which subsequently disturbs neuronal excitability.

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Release of endogenous dynorphin opioids in the prefrontal cortex disrupts cognition

Abraham

Casello

Schattauer

et al. 2021

Neuropsychopharmacol.

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Bombesin-like peptide recruits disinhibitory cortical circuits and enhances fear memories

Melzer¹,

Newmark²,

Mizuno³

et al. 2021

Cell

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Directed Evolution of a Selective and Sensitive Serotonin Biosensor Via Machine Learning

et al. 2019

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Real Time Monitoring of Neuromodulators in Behaving Animals Using Genetically Encoded Indicators

Mizuno

Unger

Tian³

2019

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Grace O. Mizuno

An expanded palette of dopamine sensors for multiplex imaging in vivo

Directed Evolution of a Selective and Sensitive Serotonin Sensor via Machine Learning

Temporally and Spatially Distinct Thirst Satiation Signals

Aberrant Calcium Signaling in Astrocytes Inhibits Neuronal Excitability in a Human Down Syndrome Stem Cell Model

Release of endogenous dynorphin opioids in the prefrontal cortex disrupts cognition

Bombesin-like peptide recruits disinhibitory cortical circuits and enhances fear memories

Directed Evolution of a Selective and Sensitive Serotonin Biosensor Via Machine Learning

Real Time Monitoring of Neuromodulators in Behaving Animals Using Genetically Encoded Indicators

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