Heterogeneity of mesencephalic dopaminergic neurons: From molecular classifications, electrophysiological properties to functional connectivity

Lu, Xiaying; Xue, Jinhua; Lai, Yudong; Tang, Xiaolu

doi:10.1096/fj.202302031r

The FASEB Journal

2024

DOI: 10.1096/fj.202302031r

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Heterogeneity of mesencephalic dopaminergic neurons: From molecular classifications, electrophysiological properties to functional connectivity

Xiaying Lu,

Jinhua Xue,

Yudong Lai

et al.

Abstract: The mesencephalic dopamine (DA) system is composed of neuronal subtypes that are molecularly and functionally distinct, are responsible for specific behaviors, and are closely associated with numerous brain disorders. Existing research has made significant advances in identifying the heterogeneity of mesencephalic DA neurons, which is necessary for understanding their diverse physiological functions and disease susceptibility. Moreover, there is a conflict regarding the electrophysiological properties of the d… Show more

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2024

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Cited by 2 publications

References 118 publications

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The mesopontine tegmentum in reward and aversion: From cellular heterogeneity to behaviour

Bastos-Gonçalves,

Coimbra,

Rodrigues

2024

Neuroscience & Biobehavioral Reviews

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The mesopontine tegmentum in reward and aversion: From cellular heterogeneity to behaviour

Bastos-Gonçalves,

Coimbra,

Rodrigues

2024

Neuroscience & Biobehavioral Reviews

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Mapping multi-regional functional connectivity of astrocyte-neuronal networks during behaviors

Wang,

Huang,

Yang

et al. 2024

Neurophoton.

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Diverse behaviors rely on coordinated activity and multi-regional functional connectivity within astrocyte-neuronal networks. However, current techniques for simultaneously measuring astrocytic and neuronal activities across multiple brain regions during behaviors remain limited.Aim: We propose a multi-fiber solution that can simultaneously record activities of astrocyte-neuronal networks across multiple regions during behaviors.Approach: We employed cell-specific dual-color genetically encoded calcium indicators (GECIs) and multi-fiber photometry to simultaneously measure astrocytic and neuronal Ca 2+ transients across multiple brain regions in freely behaving animals.Results: Our findings demonstrate that both movements and sensory stimuli induce synchronized and highly correlated Ca 2+ transients in astrocytes and neurons of freely behaving mice. In addition, we recorded astrocytic and neuronal Ca 2+ transients from multiple brain regions during mouse behaviors. Our observations reveal heightened synchronization of astrocytic and neuronal Ca 2+ transients across different brain regions during movements or sensory stimuli, indicating enhanced functional connectivity within brain-wide astrocyte-neuronal networks.Conclusions: Multi-fiber photometry, combined with cell-specific dual-color GECIs, represents a powerful approach for investigating astrocytic and neuronal activities across different brain regions during behaviors. This technique serves as a versatile tool for analyzing the multi-regional functional connectivity map of astrocyte-neuronal networks associated with specific behaviors.

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Heterogeneity of mesencephalic dopaminergic neurons: From molecular classifications, electrophysiological properties to functional connectivity

Cited by 2 publications

References 118 publications

The mesopontine tegmentum in reward and aversion: From cellular heterogeneity to behaviour

The mesopontine tegmentum in reward and aversion: From cellular heterogeneity to behaviour

Mapping multi-regional functional connectivity of astrocyte-neuronal networks during behaviors

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