Mishra, P and Narayanan, R (2020) Heterogeneities in intrinsic excitability and frequency-dependent response properties of granule cells across the blades of the rat dentate gyrus. In: Journal of Neurophysiology, 123 (2). pp. 755-772.
|
PDF
jou_neu_123-2_755-772_2020.pdf - Published Version Download (6MB) | Preview |
Abstract
The dentate gyrus (DG), the input gate to the hippocampus proper, is anatomically segregated into three different sectors, namely, the suprapyramidal blade, the crest region, and the infrapyramidal blade. Although there are well-established differences between these sectors in terms of neuronal morphology, connectivity patterns, and activity levels, differences in electrophysiological properties of granule cells within these sectors have remained unexplored. Here, employing somatic whole cell patch-clamp recordings from the rat DG, we demonstrate that granule cells in these sectors manifest considerable heterogeneities in their intrinsic excitability, temporal summation, action potential characteristics, and frequency-dependent response properties. Across sectors, these neurons showed positive temporal summation of their responses to inputs mimicking excitatory postsynaptic currents and showed little to no sag in their voltage responses to pulse currents. Consistently, the impedance amplitude profile manifested low-pass characteristics and the impedance phase profile lacked positive phase values at all measured frequencies and voltages and for all sectors. Granule cells in all sectors exhibited class I excitability, with broadly linear firing rate profiles, and granule cells in the crest region fired significantly fewer action potentials compared with those in the infrapyramidal blade. Finally, we found weak pairwise correlations across the 18 different measurements obtained individually from each of the three sectors, providing evidence that these measurements are indeed reporting distinct aspects of neuronal physiology. Together, our analyses show that granule cells act as integrators of afferent information and emphasize the need to account for the considerable physiological heterogeneities in assessing their roles in information encoding and processing. NEW & NOTEWORTHY We employed whole cell patch-clamp recordings from granule cells in the three subregions of the rat dentate gyrus to demonstrate considerable heterogeneities in their intrinsic excitability, temporal summation, action potential characteristics, and frequency-dependent response properties. Across sectors, granule cells did not express membrane potential resonance, and their impedance profiles lacked inductive phase leads at all measured frequencies. Our analyses also show that granule cells manifest class I excitability characteristics, categorizing them as integrators of afferent information.
| Item Type: | Journal Article |
|---|---|
| Publication: | Journal of Neurophysiology |
| Publisher: | American Physiological Society |
| Additional Information: | The copyright for this article belongs to the Author. |
| Keywords: | animal cell; animal experiment; article; controlled study; dentate gyrus; excitability; excitatory postsynaptic potential; firing rate; granule cell; hippocampus; impedance; male; membrane potential; nonhuman; rat; temporal summation; whole cell patch clamp; animal; cytology; dentate gyrus; electrophysiology; nerve cell; patch clamp technique; physiology; Sprague Dawley rat, Animals; Dentate Gyrus; Electrophysiological Phenomena; Male; Neurons; Patch-Clamp Techniques; Rats; Rats, Sprague-Dawley |
| Department/Centre: | Division of Biological Sciences > Molecular Biophysics Unit |
| Date Deposited: | 07 Jan 2023 10:38 |
| Last Modified: | 07 Jan 2023 10:38 |
| URI: | https://eprints.iisc.ac.in/id/eprint/79451 |
Actions (login required)
 |
View Item |
