Electrophysiological evidence that dentate hilar mossy cells are excitatory and innervate both granule cells and interneurons

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Electrophysiological evidence that dentate hilar mossy cells are excitatory and innervate both granule cells and interneurons

H. E. Scharfman
Neurology Research Center, Helen Hayes Hospital, West Haverstraw 10993-1195, USA.

1. The hypothesis that dentate hilar "mossy" cells are excitatory was tested by simultaneous intracellular recording in rat hippocampal slices. Mossy cells were recorded simultaneously with their potential targets, granule cells and interneurons. The gamma-amino-butyric acid-A (GABAA) receptor antagonist bicuculline was used in most experiments to block the normally strong inhibitory inputs to granule cells that could mask excitatory effects of mossy cells. Some cells were recorded with electrodes containing the marker Neurobiotin so that their identity could be confirmed morphologically. 2. A mossy cell action potential was immediately followed by a brief depolarization in a granule cell in 20 of 1,316 pairs (1.5%) that were recorded in the presence of bicuculline. The mean amplitude of depolarizations was 1.99 +/- 0.24 (SE) mV when the postsynaptic membrane potential was -55 to -65 mV. Depolarizations could trigger an action potential if the granule cell was depolarized from its resting potential so that its membrane potential was -50 to -60 mV. These data suggest that mossy cells excite granule cells monosynaptically. 3. Monosynaptic excitation of an interneuron by a mossy cell was recorded in 4 of 47 (8.5%) simultaneously recorded mossy cells and interneurons, also in the presence of bicuculline. The mean interneuron depolarization was 1.64 +/- 0.29 mV when the interneuron membrane potential was approximately -60 mV. When an interneuron was at its resting potential (-52 to -63 mV), action potentials were often triggered by the depolarizations. 4. Without bicuculline present, mossy cells had no apparent monosynaptic effects on granule cells, as has been previously reported. However, effects that appeared to be polysynaptic were observed in 5 of 92 pairs (5.4%). Specifically, a small, brief hyperpolarization occurred in granule cells 2.5-7.3 ms after the peak of a mossy cell action potential. Given the results indicating that mossy cells excite interneurons, and the long latency to onset of the hyperpolarization, one possible explanation for the hyperpolarization is that mossy cells excited interneurons that inhibited granule cells. 5. The results suggest that mossy cells are excitatory neurons. In addition, mossy cells appear to innervate both granule cells and interneurons that are located within several hundred micrometers of the mossy cell soma. The only detectable effect on granule cells in this area under normal conditions appears to be disynaptic and inhibitory. However, when GABAA-receptor-mediated inhibition is blocked, monosynaptic excitation of granule cells by mossy cells can be detected.

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				A. M. Kerr and M. Capogna Unitary IPSPs enhance hilar mossy cell gain in the rat hippocampus J. Physiol., January 15, 2007; 578(2): 451 - 470. [Abstract] [Full Text] [PDF]

				M. E. Hofmann, B. Nahir, and C. J. Frazier Endocannabinoid-Mediated Depolarization-Induced Suppression of Inhibition in Hilar Mossy Cells of the Rat Dentate Gyrus J Neurophysiol, November 1, 2006; 96(5): 2501 - 2512. [Abstract] [Full Text] [PDF]

				V. Santhakumar, I. Aradi, and I. Soltesz Role of Mossy Fiber Sprouting and Mossy Cell Loss in Hyperexcitability: A Network Model of the Dentate Gyrus Incorporating Cell Types and Axonal Topography J Neurophysiol, January 1, 2005; 93(1): 437 - 453. [Abstract] [Full Text] [PDF]

				A. d. H. Ratzliff, A. L. Howard, V. Santhakumar, I. Osapay, and I. Soltesz Rapid Deletion of Mossy Cells Does Not Result in a Hyperexcitable Dentate Gyrus: Implications for Epileptogenesis J. Neurosci., March 3, 2004; 24(9): 2259 - 2269. [Abstract] [Full Text] [PDF]

				C. A. Zappone and R. S. Sloviter Translamellar Disinhibition in the Rat Hippocampal Dentate Gyrus after Seizure-Induced Degeneration of Vulnerable Hilar Neurons J. Neurosci., January 28, 2004; 24(4): 853 - 864. [Abstract] [Full Text] [PDF]

				H. E. Scharfman, A. L. Sollas, R. E. Berger, and J. H. Goodman Electrophysiological Evidence of Monosynaptic Excitatory Transmission Between Granule Cells After Seizure-Induced Mossy Fiber Sprouting J Neurophysiol, October 1, 2003; 90(4): 2536 - 2547. [Abstract] [Full Text] [PDF]

				A. Kimura and C. Pavlides Long-Term Potentiation/Depotentiation Are Accompanied by Complex Changes in Spontaneous Unit Activity in the Hippocampus J Neurophysiol, October 1, 2000; 84(4): 1894 - 1906. [Abstract] [Full Text] [PDF]

				H. E. Scharfman, J. H. Goodman, and A. L. Sollas Granule-Like Neurons at the Hilar/CA3 Border after Status Epilepticus and Their Synchrony with Area CA3 Pyramidal Cells: Functional Implications of Seizure-Induced Neurogenesis J. Neurosci., August 15, 2000; 20(16): 6144 - 6158. [Abstract] [Full Text] [PDF]

				G. W. Terman, C. T. Drake, M. L. Simmons, T. A. Milner, and C. Chavkin Opioid Modulation of Recurrent Excitation in the Hippocampal Dentate Gyrus J. Neurosci., June 15, 2000; 20(12): 4379 - 4388. [Abstract] [Full Text] [PDF]

				K. J. CANNING, K. WU, P. PELOQUIN, F. KLOOSTERMAN, and L. S. LEUNG Physiology of the Entorhinal and Perirhinal Projections to the Hippocampus Studied by Current Source Density Analysis Ann. N.Y. Acad. Sci., June 1, 2000; 911(1): 55 - 72. [Abstract] [Full Text] [PDF]

				A. LORINCZ and G. BUZSAKI Two-Phase Computational Model Training Long-Term Memories in the Entorhinal-Hippocampal Region Ann. N.Y. Acad. Sci., June 1, 2000; 911(1): 83 - 111. [Abstract] [Full Text] [PDF]

				S. Doboli, A. A. Minai, and P. J. Best Latent Attractors: A Model for Context-Dependent Place Representations in the Hippocampus Neural Comput., May 1, 2000; 12(5): 1009 - 1043. [Abstract] [Full Text]

				Y. Otsu, E. Maru, H. Ohata, I. Takashima, R. Kajiwara, and T. Iijima Optical Recording Study of Granule Cell Activities in the Hippocampal Dentate Gyrus of Kainate-Treated Rats J Neurophysiol, April 1, 2000; 83(4): 2421 - 2430. [Abstract] [Full Text] [PDF]

				M. Lynch and T. Sutula Recurrent Excitatory Connectivity in the Dentate Gyrus of Kindled and Kainic Acid-Treated Rats J Neurophysiol, February 1, 2000; 83(2): 693 - 704. [Abstract] [Full Text] [PDF]

				P. S. Buckmaster and A. L. Jongen-Relo Highly Specific Neuron Loss Preserves Lateral Inhibitory Circuits in the Dentate Gyrus of Kainate-Induced Epileptic Rats J. Neurosci., November 1, 1999; 19(21): 9519 - 9529. [Abstract] [Full Text] [PDF]

				P. Molnar and J. V. Nadler Mossy Fiber-Granule Cell Synapses in the Normal and Epileptic Rat Dentate Gyrus Studied With Minimal Laser Photostimulation J Neurophysiol, October 1, 1999; 82(4): 1883 - 1894. [Abstract] [Full Text] [PDF]

				M. M. Okazaki, P. Molnar, and J. V. Nadler Recurrent Mossy Fiber Pathway in Rat Dentate Gyrus: Synaptic Currents Evoked in Presence and Absence of Seizure-Induced Growth J Neurophysiol, April 1, 1999; 81(4): 1645 - 1660. [Abstract] [Full Text] [PDF]

				C. R. Bramham Phasic Boosting of Medial Perforant Path-Evoked Granule Cell Output Time-Locked to Spontaneous Dentate EEG Spikes in Awake Rats J Neurophysiol, June 1, 1998; 79(6): 2825 - 2832. [Abstract] [Full Text] [PDF]

				Z. Xiang and T. H. Brown Complex Synaptic Current Waveforms Evoked in Hippocampal Pyramidal Neurons by Extracellular Stimulation of Dentate Gyrus J Neurophysiol, May 1, 1998; 79(5): 2475 - 2484. [Abstract] [Full Text] [PDF]

ARTICLES

Electrophysiological evidence that dentate hilar mossy cells are excitatory and innervate both granule cells and interneurons

				J. Lubke, M. Frotscher, and N. Spruston Specialized Electrophysiological Properties of Anatomically Identified Neurons in the Hilar Region of the Rat Fascia Dentata J Neurophysiol, March 1, 1998; 79(3): 1518 - 1534. [Abstract] [Full Text] [PDF]

				U. Namgung, S. Matsuyama, and A. Routtenberg Long-term potentiation activates the GAP-43 promoter: Selective participation of hippocampal mossy�cells PNAS, October 14, 1997; 94(21): 11675 - 11680. [Abstract] [Full Text] [PDF]

				S. Schurmans, S. N. Schiffmann, H. Gurden, M. Lemaire, H.-P. Lipp, V. Schwam, R. Pochet, A. Imperato, G. A. Bohme, and M. Parmentier Impaired long-term potentiation induction in dentate gyrus of calretinin-deficient�mice PNAS, September 16, 1997; 94(19): 10415 - 10420. [Abstract] [Full Text] [PDF]