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Wiktoria Podolecka

Nencki Institute of Experimental Biology of Polish Academy of Sciences, 3 Pasteur Street, Warsaw, 02-093, Poland.

1 paper in the library · publishing 2026

Papers

Olfactory bulb circuits drive ketamine-enhanced high-frequency oscillations via kainate and GABAergic mechanisms.

Neuropharmacology September 15, 2026 Taisiia Prosvirova, Wiktoria Podolecka, Jacek Wrobel et al.

Ketamine rapidly reorganizes fast brain rhythms differently across cortical networks. In freely moving rats, neocortical gamma power increased broadly, while the olfactory bulb showed suppressed gamma alongside robust high-frequency oscillations (HFO; 130-180 Hz). Local blockade of non-NMDA glutamate receptors in the olfactory bulb suppressed ketamine-enhanced HFO in the bulb, ventral striatum, and prefrontal cortex without affecting neocortical gamma, indicating separate circuit mechanisms. Within the bulb, a kainate receptor antagonist markedly reduced HFO, while AMPA receptor blockade had minimal effect. Blocking GABA-A receptors reduced HFO power while increasing gamma power, showing that fast inhibition is necessary for HFO expression. The findings suggest that tonic kainate-dependent depolarization recruits interneurons to generate an inhibitory network rhythm that drives HFO propagation through olfactory-limbic circuits.