Deep Survey of GABAergic Interneurons: Emerging Insights From Gene-Isoform Transcriptomics

Que, Lin; Winterer, Jochen; Földy, Csaba

doi:10.3389/fnmol.2019.00115

Cited by 15 publications

(12 citation statements)

References 70 publications

(125 reference statements)

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“…Nevertheless, our data do not exclude the hypothesis that input/output connectivity of these cells is defined by CAMs. First, it is possible that isoform level, non-mRNA, or translational information is instead more predictive of morphology and circuit connectivity 22 . Second, CAMs could specify connections exclusively during earlier development, after which key specification factors are downregulated 64 , and CAM function shifts toward the maintenance and modulation of synaptic transmission.…”

Section: Discussionmentioning

confidence: 99%

“…Recent single-cell RNA-seq assays have facilitated classification efforts 8 – 12 and increased expectations that transcriptomic information could explain the entirety of cell-type-specific features, a crucial step toward understanding the multimodal identity of neural cell types. While several studies have employed single-cell RNA-seq to characterize transcriptomic and physiological features 12 – 21 , the relationship between transcriptomic information and neuronal morphology is the subject of on-going research 14 , 20 – 22 .…”

Section: Introductionmentioning

confidence: 99%

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Transcriptional and morphological profiling of parvalbumin interneuron subpopulations in the mouse hippocampus

et al. 2021

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The diversity reflected by >100 different neural cell types fundamentally contributes to brain function and a central idea is that neuronal identity can be inferred from genetic information. Recent large-scale transcriptomic assays seem to confirm this hypothesis, but a lack of morphological information has limited the identification of several known cell types. In this study, we used single-cell RNA-seq in morphologically identified parvalbumin interneurons (PV-INs), and studied their transcriptomic states in the morphological, physiological, and developmental domains. Overall, we find high transcriptomic similarity among PV-INs, with few genes showing divergent expression between morphologically different types. Furthermore, PV-INs show a uniform synaptic cell adhesion molecule (CAM) profile, suggesting that CAM expression in mature PV cells does not reflect wiring specificity after development. Together, our results suggest that while PV-INs differ in anatomy and in vivo activity, their continuous transcriptomic and homogenous biophysical landscapes are not predictive of these distinct identities.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Transcriptional and morphological profiling of parvalbumin interneuron subpopulations in the mouse hippocampus

et al. 2021

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“…Transcriptional and post-transcriptional control of individual isoforms of genes is crucial for neuronal differentiation [1][2][3][4][5] , and isoforms of genes have been shown to be specific to cell-types in mouse and human brains [6][7][8][9][10][11] . It is therefore not surprising that dysregulation of splicing has been shown to be associated with several neurodevelopmental and neuropsychiatric diseases 3,12,13 .…”

Section: Introductionmentioning

confidence: 99%

Isoform cell type specificity in the mouse primary motor cortex

Booeshaghi

Yao

Velthoven

et al. 2020

Preprint

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Full-length SMART-Seq single-cell RNA-seq can be used to measure gene expression at isoform resolution, making possible the identification of isoform markers for cell types and for an isoform atlas. In a comprehensive analysis of 6,160 mouse primary motor cortex cells assayed with SMART-Seq, we find numerous examples of isoform specificity in cell types, including isoform shifts between cell types that are masked in gene-level analysis. These findings can be used to refine spatial gene expression information to isoform resolution. Our results highlight the utility of full-length single-cell RNA-seq when used in conjunction with other single-cell RNA-seq technologies.

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“…In the CNS, the different types of neurons, which are identified by their neurotransmitters, neurotrophic or neuroprotective factors (Que et al, 2019 ; Sugino et al, 2019 ; Cizeron et al, 2020 ), are accompanied by non-neuronal cells showing similar, or greater levels of heterogeneity. This cellular diversity pertains to glial cells (microglia, astrocytes, cells of the oligodendrocytic lineage) and the peripheral immune cells that can infiltrate the CNS (Oberheim et al, 2012 ; Butt and Verkhratsky, 2018 ; Foerster et al, 2019 ; Stratoulias et al, 2019 ; Dumas and Prinz, 2020 ).…”

Section: A Diversity Of Cell Types Subtypes and Phenotypesmentioning

confidence: 99%

A Diversity of Cell Types, Subtypes and Phenotypes in the Central Nervous System: The Importance of Studying Their Complex Relationships

Tremblay

2020

Front. Cell. Neurosci.

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Deep Survey of GABAergic Interneurons: Emerging Insights From Gene-Isoform Transcriptomics

Cited by 15 publications

References 70 publications

Transcriptional and morphological profiling of parvalbumin interneuron subpopulations in the mouse hippocampus

Transcriptional and morphological profiling of parvalbumin interneuron subpopulations in the mouse hippocampus

Isoform cell type specificity in the mouse primary motor cortex

A Diversity of Cell Types, Subtypes and Phenotypes in the Central Nervous System: The Importance of Studying Their Complex Relationships

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