Pavel I. Ortinski scite author profile

Reactive astrocytosis develops in many neurologic diseases including epilepsy. Astrocytotic contributions to pathophysiology are poorly understood. Studies examining this are confounded by comorbidities accompanying reactive astrocytosis. We found that high-titer AAV-eGFP astrocyte transduction induced reactive astrocytosis without altering the intrinsic properties or anatomy of neighboring neurons. We used selective astrocytosis induction to examine consequences on synaptic transmission in mouse CA1 pyramidal neurons. Neurons near eGFP-labeled reactive astrocytes exhibited reduction in inhibitory, but not excitatory synaptic currents. This IPSC erosion resulted from failure of the astrocytic glutamate-glutamine cycle. Reactive astrocytes downregulated expression of glutamine synthetase. Blockade of this enzyme normally induces rapid synaptic GABA depletion. In astrocytotic regions, residual inhibition lost sensitivity to glutamine synthetase blockade, while exogenous glutamine administration enhanced IPSCs. Astrocytosis-mediated deficits in inhibition triggered glutamine-reversible hyperexcitability in hippocampal circuits. Reactive astrocytosis may thus generate local synaptic perturbations, leading to broader functional deficits associated with neurologic disease.

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Differential Tonic GABA Conductances in Striatal Medium Spiny Neurons

Ade¹,

Janssen²,

Ortinski³

et al. 2008

J. Neurosci.

150

182

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GABAB-mediated rescue of altered excitatory–inhibitory balance, gamma synchrony and behavioral deficits following constitutive NMDAR-hypofunction

et al. 2012

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Reduced N-methyl-D-aspartate-receptor (NMDAR) signaling has been associated with schizophrenia, autism and intellectual disability. NMDAR-hypofunction is thought to contribute to social, cognitive and gamma (30–80 Hz) oscillatory abnormalities, phenotypes common to these disorders. However, circuit-level mechanisms underlying such deficits remain unclear. This study investigated the relationship between gamma synchrony, excitatory–inhibitory (E/I) signaling, and behavioral phenotypes in NMDA-NR1neo−/− mice, which have constitutively reduced expression of the obligate NR1 subunit to model disrupted developmental NMDAR function. Constitutive NMDAR-hypofunction caused a loss of E/I balance, with an increase in intrinsic pyramidal cell excitability and a selective disruption of parvalbumin-expressing interneurons. Disrupted E/I coupling was associated with deficits in auditory-evoked gamma signal-to-noise ratio (SNR). Gamma-band abnormalities predicted deficits in spatial working memory and social preference, linking cellular changes in E/I signaling to target behaviors. The GABAB-receptor agonist baclofen improved E/I balance, gamma-SNR and broadly reversed behavioral deficits. These data demonstrate a clinically relevant, highly translatable neural-activity-based biomarker for preclinical screening and therapeutic development across a broad range of disorders that share common endophenotypes and disrupted NMDA-receptor signaling.

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The food intake-suppressive effects of glucagon-like peptide-1 receptor signaling in the ventral tegmental area are mediated by AMPA/kainate receptors

Mietlicki‐Baase¹,

Ortinski

Rupprecht³

et al. 2013

American Journal of Physiology-Endocrinology and Metabolism

147

124

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Cognitive side effects of antiepileptic drugs

Ortinski

Meador

2004

Epilepsy & Behavior

260

119

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Pavel I. Ortinski

Selective induction of astrocytic gliosis generates deficits in neuronal inhibition

Differential Tonic GABA Conductances in Striatal Medium Spiny Neurons

GABAB-mediated rescue of altered excitatory–inhibitory balance, gamma synchrony and behavioral deficits following constitutive NMDAR-hypofunction

The food intake-suppressive effects of glucagon-like peptide-1 receptor signaling in the ventral tegmental area are mediated by AMPA/kainate receptors

Cognitive side effects of antiepileptic drugs

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