Co-localization of different neurotransmitter transporters on synaptic vesicles is sparse except of VGLUT1 and ZnT3

Upmanyu, N.; Jin, Jialin; Ganzella, Marcelo; Boesche, L.; Malviya, Viveka Nand; Zhuleku, Evi; Politi, Antonio Z.; Ninov, Momchil; Silbern, Ivan; Urlaub, Henning; Riedel, Dietmar; Preobraschenski, Julia; Milošević, Ira; Jahn, Reinhard; Sambandan, Sivakumar

doi:10.1101/2021.06.30.449903

2021

DOI: 10.1101/2021.06.30.449903

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Co-localization of different neurotransmitter transporters on synaptic vesicles is sparse except of VGLUT1 and ZnT3

N. Upmanyu

Jialin Jin

Marcelo Ganzella

et al.

Abstract: Vesicular transporters (VTs) define the type of neurotransmitter that synaptic vesicles (SVs) store and release. While certain neurons in mammalian brain release multiple transmitters, the prevalence, physiology of such pluralism and if the release occurs from same or distinct vesicle pools is not clear. Using quantitative imaging and biochemical approaches, we show that only a small population of neuronal SVs contain different VTs to accomplish corelease. Surprisingly, a highly diverse SV population (27 types… Show more

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2024

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References 98 publications

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Prevalent co-release of glutamate and GABA throughout the mouse brain

Ceballos,

Ma,

Qin

et al. 2024

Preprint

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Several neuronal populations in the brain transmit both the excitatory and inhibitory neurotransmitters, glutamate, and GABA, to downstream neurons. However, it remains largely unknown whether these opposing neurotransmitters are co-released onto the same postsynaptic neuron simultaneously or are independently transmitted at different time and locations (called co-transmission). Here, using whole-cell patch-clamp recording on acute mouse brain slices, we observed biphasic miniature postsynaptic currents, i.e., minis with time-locked excitatory and inhibitory currents, in striatal spiny projection neurons (SPNs). This observation cannot be explained by accidental coincidence of monophasic miniature excitatory and inhibitory postsynaptic currents (mEPSCs and mIPSCs, respectively), arguing for the co-release of glutamate and GABA. Interestingly, these biphasic minis could either be an mEPSC leading an mIPSC or vice versa. Although dopaminergic axons release both glutamate and GABA in the striatum, deletion of dopamine neurons did not eliminate biphasic minis, indicating that the co-release originates from another neuronal type. Importantly, we found that both types of biphasic minis were detected in other neuronal subtypes in the striatum as well as in nine out of ten additionally tested brain regions. Our results suggest that co-release of glutamate and GABA is a prevalent mode of neurotransmission in the brain.

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Prevalent co-release of glutamate and GABA throughout the mouse brain

Ceballos,

Ma,

Qin

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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Co-localization of different neurotransmitter transporters on synaptic vesicles is sparse except of VGLUT1 and ZnT3

Cited by 1 publication

References 98 publications

Prevalent co-release of glutamate and GABA throughout the mouse brain

Prevalent co-release of glutamate and GABA throughout the mouse brain

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