Inhibitory interneurons play a number of key roles in normal neocortical function. For example, they shape sensory receptive fields and drive high frequency gamma oscillations. On the other hand, defects in their function can lead to seizures. We have examined the properties of two major functional interneuronal subclasses: fast spiking (FS) and low-threshold spike firing (ITS) neurons of rat neocortical layer V. Data indicate that each group expresses a novel form of self inhibition, namely autaptic inhibitory responses in FS cells and an endocannabinoid-mediated slow self-inhibition in ITS interneurons. We will address two major questions relevant to self-inhibition of neocortical interneurons: 1) What are the roles of FS cell autapses in regulating precision of spike timing and in coordinating fast network synchrony? 2) What are the mechanisms leading to long-lasting inhibition in ITS neurons, and the physiological conditions necessary for its induction? Overall these two experimental aims will address the central themes of this grant, the mechanisms that modulate and control neocortical interneuronal activities and the functional consequences of such modulation on neocortical circuit function. Experimental approaches will include: single and paired whole cell voltage- and current-clamp recordings and perforated-patch recordings from visualized interneurons in rat neocortical slices; intracellular labeling with biocytin; intracellular and extracellular application of ions and pharmaceutical agents to affect transmitter release and receptor function; and use of dynamic clamp. Results will lead to a better understanding of synaptic modulation of two major subclasses of neocortical interneurons and provide information regarding GABAergic regulation of neocortical excitability relevant to both normal and pathophysiological cortical function.

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
5R01NS039579-06
Application #
7014062
Study Section
Clinical Neuroscience and Disease Study Section (CND)
Program Officer
Fureman, Brandy E
Project Start
1999-12-01
Project End
2010-03-31
Budget Start
2006-04-01
Budget End
2007-03-31
Support Year
6
Fiscal Year
2006
Total Cost
$318,008
Indirect Cost
Name
Stanford University
Department
Neurology
Type
Schools of Medicine
DUNS #
009214214
City
Stanford
State
CA
Country
United States
Zip Code
94305
Gu, Feng; Parada, Isabel; Shen, Fran et al. (2017) Structural alterations in fast-spiking GABAergic interneurons in a model of posttraumatic neocortical epileptogenesis. Neurobiol Dis 108:100-114
Brill, Julia; Mattis, Joanna; Deisseroth, Karl et al. (2016) LSPS/Optogenetics to Improve Synaptic Connectivity Mapping: Unmasking the Role of Basket Cell-Mediated Feedforward Inhibition. eNeuro 3:
Takahashi, D Koji; Gu, Feng; Parada, Isabel et al. (2016) Aberrant excitatory rewiring of layer V pyramidal neurons early after neocortical trauma. Neurobiol Dis 91:166-81
Prince, David A (2014) How do we make models that are useful in understanding partial epilepsies? Adv Exp Med Biol 813:233-41
Jin, Xiaoming; Jiang, Kewen; Prince, David A (2014) Excitatory and inhibitory synaptic connectivity to layer V fast-spiking interneurons in the freeze lesion model of cortical microgyria. J Neurophysiol 112:1703-13
Mantoan Ritter, Laura; Golshani, Peyman; Takahashi, Koji et al. (2014) WONOEP appraisal: optogenetic tools to suppress seizures and explore the mechanisms of epileptogenesis. Epilepsia 55:1693-702
Ma, Yunyong; Ramachandran, Anu; Ford, Naomi et al. (2013) Remodeling of dendrites and spines in the C1q knockout model of genetic epilepsy. Epilepsia 54:1232-9
Mao, Rong; Schummers, James; Knoblich, Ulf et al. (2012) Influence of a subtype of inhibitory interneuron on stimulus-specific responses in visual cortex. Cereb Cortex 22:493-508
Ma, Yunyong; Prince, David A (2012) Functional alterations in GABAergic fast-spiking interneurons in chronically injured epileptogenic neocortex. Neurobiol Dis 47:102-13
Faria, Leonardo C; Parada, Isabel; Prince, David A (2012) Interneuronal calcium channel abnormalities in posttraumatic epileptogenic neocortex. Neurobiol Dis 45:821-8

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