h-Channels Contribute to Divergent Intrinsic Membrane Properties of Supragranular Pyramidal Neurons in Human versus Mouse Cerebral Cortex.

Authors

Brian E Kalmbach
Anatoly Buchin
Brian Long
Jennie Close
Anirban Nandi
Jeremy A Miller
Trygve E Bakken
Rebecca D Hodge
Peter Chong
Rebecca de Frates
Kael Dai
Zoe Maltzer
Philip R Nicovich
C Dirk Keene
Daniel L Silbergeld
Ryder P Gwinn, Epilepsy Surgery and Functional Neurosurgery, Swedish Neuroscience Institute, Seattle, WA
Charles Cobbs, The Ben and Catherine Ivy Center for Advanced Brain Tumor Treatment, Swedish Neuroscience InstituteFollow
Andrew L Ko
Jeffrey G Ojemann
Christof Koch
Costas A Anastassiou
Ed S Lein
Jonathan T Ting

Document Type

Article

Publication Date

12-5-2018

Publication Title

Neuron

Keywords

Human; gene expression; h-channel; intrinsic membrane properties; mouse; neuron model; oscillations; patch-clamp physiology; pyramidal neuron

Abstract

Gene expression studies suggest that differential ion channel expression contributes to differences in rodent versus human neuronal physiology. We tested whether h-channels more prominently contribute to the physiological properties of human compared to mouse supragranular pyramidal neurons. Single-cell/nucleus RNA sequencing revealed ubiquitous HCN1-subunit expression in excitatory neurons in human, but not mouse, supragranular layers. Using patch-clamp recordings, we found stronger h-channel-related membrane properties in supragranular pyramidal neurons in human temporal cortex, compared to mouse supragranular pyramidal neurons in temporal association area. The magnitude of these differences depended upon cortical depth and was largest in pyramidal neurons in deep L3. Additionally, pharmacologically blocking h-channels produced a larger change in membrane properties in human compared to mouse neurons. Finally, using biophysical modeling, we provide evidence that h-channels promote the transfer of theta frequencies from dendrite-to-soma in human L3 pyramidal neurons. Thus, h-channels contribute to between-species differences in a fundamental neuronal property.

Clinical Institute

Neurosciences (Brain & Spine)

Department

Neurosciences

Recommended Citation

Kalmbach, Brian E; Buchin, Anatoly; Long, Brian; Close, Jennie; Nandi, Anirban; Miller, Jeremy A; Bakken, Trygve E; Hodge, Rebecca D; Chong, Peter; de Frates, Rebecca; Dai, Kael; Maltzer, Zoe; Nicovich, Philip R; Keene, C Dirk; Silbergeld, Daniel L; Gwinn, Ryder P; Cobbs, Charles; Ko, Andrew L; Ojemann, Jeffrey G; Koch, Christof; Anastassiou, Costas A; Lein, Ed S; and Ting, Jonathan T, "h-Channels Contribute to Divergent Intrinsic Membrane Properties of Supragranular Pyramidal Neurons in Human versus Mouse Cerebral Cortex." (2018). Articles, Abstracts, and Reports. 935.
https://digitalcommons.providence.org/publications/935