Signature morphoelectric properties of diverse GABAergic interneurons in the human neocortex.

Brian R Lee ,Michelle Maxwell ,Ryder P Gwinn ,Emily Gelfand ,Tim S Heistek ,Hongkui Zeng ,Erica J Melief ,Andrew L Ko ,Jacob Ruzevick ,Marty Mortrud ,Anna A Galakhova ,Rusty Mann ,Trygve E Bakken ,Amanda Gary ,Nelson Johansen ,Gábor Molnár ,Ximena Opitz-Araya ,Rachel Dalley ,Susan M Sunkin ,Bargavi Thyagarajan ,Anders Rosendal Korshoej ,De Kock ,Jason S Hauptman ,Jeffrey G Ojemann ,Kaare Meier ,Lydia Potekhina ,Jessica Trinh ,Staci A Sorensen ,Jennie Close ,Daniel L Silbergeld ,Nicholas Donadio ,Lisa Kim ,Michael Kunst ,Delissa Mcmillen ,Femke Waleboer ,Natalia A Goriounova ,Dakota Newman ,Jack Waters ,Tiantong Zhou ,Natalie Weed ,Jeff Goldy ,Tamara Casper ,Brian Kalmbach ,David Vumbaco ,Michael Tieu ,Rebecca D Hodge ,Manuel Ferreira ,Attila Ozsvár ,Nathan W Gouwens ,Richard G Ellenbogen ,Nick Dee ,Julia Wilson ,C Dirk Keene ,Lindsay Ng ,Lauren Alfiler ,Benjamin L Grannan ,Anoop P Patel ,Grace Williams ,Alice Mukora ,Mary Mcgraw ,Gábor Tamás ,Naz Taskin ,Tim Jarsky ,Augustin Ruiz ,Sarah Walling-Bell ,Stan L.w Driessens ,Pál Barzó ,Huibert D Mansvelder ,Rachel Enstrom ,Gabriela León ,Charles Cobbs ,Krissy Brouner ,Lauren Kruse ,Alice Pom ,Trangthanh Pham ,Darren Bertagnolli ,Wen Chi Hou ,Julie Nyhus ,Jens Sörensen ,Ed Lein ,Jim Berg ,Kimberly A Smith ,Shenqin Yao ,Jeremy A Miller ,Ildikó Szöts ,Matthew Mallory ,Luke Esposito ,Ram Rajanbabu ,Éva Csajbók ,Brian Long ,Boaz P Levi ,Tom Egdorf ,Marco Capogna ,Katherine Baker ,Kristen Hadley ,Nikolas L Jorstad ,Agnes Katalin Kocsis ,Thomas Chartrand ,Sara Vargas ,Dijon Hill ,Jonathan T Ting

doi:10.1126/science.adf6484

Abstract

Human cortex transcriptomic studies have revealed a hierarchical organization of γ-aminobutyric acid-producing (GABAergic) neurons from subclasses to a high diversity of more granular types. Rapid GABAergic neuron viral genetic labeling plus Patch-seq (patch-clamp electrophysiology plus single-cell RNA sequencing) sampling in human brain slices was used to reliably target and analyze GABAergic neuron subclasses and individual transcriptomic types. This characterization elucidated transitions between PVALB and SST subclasses, revealed morphological heterogeneity within an abundant transcriptomic type, identified multiple spatially distinct types of the primate-specialized double bouquet cells (DBCs), and shed light on cellular differences between homologous mouse and human neocortical GABAergic neuron types. These results highlight the importance of multimodal phenotypic characterization for refinement of emerging transcriptomic cell type taxonomies and for understanding conserved and specialized cellular properties of human brain cell types.

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