Transcriptomic and morphophysiological evidence for a specialized human cortical GABAergic cell type

Boldog, Eszter; Bakken, Trygve E.; Hodge, Rebecca D.; Novotny, M. A.; Aevermann, Brian D.; Baka, Judith; Bordé, Sándor; Close, Jennie; Díez-Fuertes, Francisco; Ding, Shilei; Faragó, Nóra; Kocsis, Ágnes Katalin; Kovács, Balázs; McCorrison, Jamison; Miller, Jeremy A.; Molnár, Gábor; Oláh, Gáspár; Ozsvár, Attila; Rózsa, Márton; Shehata, Soraya I.; Smith, Kimberly A.; Sunkin, Susan M.; Tran, Danny N.; Venepally, Pratap; Wall, Abigail; Puskás, László G.; Barzó, Pál; Steemers, Frank J.; Schork, Nicholas J.; Scheuermann, Richard H.; Lasken, Roger S.; Lein, Ed; Tamás, Gábor

doi:10.1101/216085

Cited by 8 publications

(22 citation statements)

References 78 publications

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“…4E), consistent with previous reports demonstrating SST expression in layer 1 of human MTG 19 and different from mouse Lamp5 and Pax6 interneurons 26,27 , which do not express SST . The Inh L1-4 LAMP5 LCP2 type expressed marker genes of rosehip cells, a type of interneuron with characteristic large axonal boutons that we described in a previous study of layer 1 MTG interneurons 19 . With whole cortex coverage, it is clear that this type is not restricted to layer 1 but rather present across all cortical layers.…”

Section: Resultssupporting

confidence: 92%

“…Rather, they expressed SST , consistent with expression of this gene in layer 1 and 2 interneurons as discussed above (Fig. 4A, C, E) 19 . The Inh L1-2 GAD1 MC4R type also lacked expression of VIP (Fig.…”

Section: Resultssupporting

confidence: 82%

“…For example, the supragranular layers of cortex, involved in cortico-cortical communication, are differentially expanded in mammalian evolution 18 . Furthermore, certain cell types show highly specialized features in human and non-human primate compared to mouse, such as the interlaminar astrocytes 17 , and the recently described rosehip cell 19 , a type of inhibitory interneuron in cortical layer 1 with distinctive morpho-electrical properties. All of these cellular properties are a function of the genes that are actively used in each cell type, and transcriptomic methods provide a powerful method to understand the molecular underpinnings of cellular phenotypes as well as a means for mechanistic understanding of species-specialized phenotypes.…”

Section: Introductionmentioning

confidence: 99%

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Conserved cell types with divergent features between human and mouse cortex

Hodge

Bakken

Miller

et al. 2018

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33Elucidating the cellular architecture of the human neocortex is central to understanding our 34 cognitive abilities and susceptibility to disease. Here we applied single nucleus RNA-35 sequencing to perform a comprehensive analysis of cell types in the middle temporal gyrus of 36 human cerebral cortex. We identify a highly diverse set of excitatory and inhibitory neuronal 37 types that are mostly sparse, with excitatory types being less layer-restricted than expected. 38Comparison to a similar mouse cortex single cell RNA-sequencing dataset revealed a 39 surprisingly well-conserved cellular architecture that enables matching of homologous types and 40 predictions of human cell type properties. Despite this general conservation, we also find 41 extensive differences between homologous human and mouse cell types, including dramatic 42 alterations in proportions, laminar distributions, gene expression, and morphology. These 43 species-specific features emphasize the importance of directly studying human brain. 44 Introduction 45 The cerebral cortex, responsible for most of our higher cognitive abilities, is the most complex 46 structure known to biology and is comprised of approximately 16 billion neurons and 61 billion 47 non-neuronal cells organized into approximately 200 distinct anatomical or functional 48 regions 1,2,3,4 . The human cortex is greatly expanded relative to the mouse, the dominant model 49 organism in basic and translational research, with a 1200-fold increase in cortical neurons 50 compared to only a 60-fold increase in sub-cortical neurons (excluding cerebellum) 5,6 . The 51 general principles of neocortical development and the basic multilayered cellular 52 cytoarchitecture of the neocortex appear relatively conserved across mammals 7,8 . However, 53 whether the cellular and circuit architecture of cortex is fundamentally conserved across 54 mammals, with a massive evolutionary areal expansion of a canonical columnar architecture in 55 human, or is qualitatively and quantitatively specialized in human, remains an open question 56long debated in the field 9,10 . Addressing this question has been challenging due to a lack of 57 tools to broadly characterize cell type diversity in complex brain regions, particularly in human 58 brain tissues. 59Prior studies have described differences in the cellular makeup of the cortex in human and 60 specialized features of specific cell types 11,12,13,14,15,16,17 , although the literature is remarkably 61 limited. For example, the supragranular layers of cortex, involved in cortico-cortical 62 communication, are differentially expanded in mammalian evolution 18 . Furthermore, certain cell 63 types show highly specialized features in human and non-human primate compared to mouse, 64 such as the interlaminar astrocytes 17 , and the recently described rosehip cell 19 , a type of 65 inhibitory interneuron in cortical layer 1 with distinctive morpho-electrical properties. All of these 66 cellular properties are a function of the genes that are actively used in ...

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Section: Resultssupporting

confidence: 92%

Section: Resultssupporting

confidence: 82%

Section: Introductionmentioning

confidence: 99%

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Conserved cell types with divergent features between human and mouse cortex

Hodge

Bakken

Miller

et al. 2018

Preprint

Self Cite

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show abstract

“…In the past decade, increasing attention has been put on special features of the human neocortex microcircuits comparing them to those of other mammals such as non-human primates, carnivores, and rodents (Boldog et al, 2017;Komlósi et al, 2012;Mohan et al, 2015;Molnár et al, 2008;Oláh et al, 2007;Prince and Wong, 1981;Schwartzkroin and Knowles, 1984;Verhoog et al, 2013;Wang et al, 2015;Yáñez et al, 2005). Species-specific differences evidently exist in various anatomical features of the neocortex including the layering, some long-range connections and some intrinsic electrical and morphological properties of nerve cells (Boldog et al, 2017;Mohan et al, 2015;Wang et al, 2015).…”

Section: Unique Features Of the Human Neocortexmentioning

confidence: 99%

“…Species-specific differences evidently exist in various anatomical features of the neocortex including the layering, some long-range connections and some intrinsic electrical and morphological properties of nerve cells (Boldog et al, 2017;Mohan et al, 2015;Wang et al, 2015). Yet,it has been thought that basic cellular elements and local synaptic circuits are fairly stereotyped among mammalian species and largely similar for instance between a rodent and a human.…”

Section: Unique Features Of the Human Neocortexmentioning

confidence: 99%