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1. Oxygen and seizure dynamics: I. Experiments.

Author

Ingram, Justin, Chunfeng Zhang, Cressman, John R., Hazra, Anupam, Yina Wei, Yong-Eun Koo, Žiburkus, Jokuūbas, Jian Xu, and Schiff, Steven J.

Subjects

FLUORESCENCE resonance energy transfer, QUANTUM dots, OPTICAL sensors, NEUROPHYSIOLOGY, HIPPOCAMPUS (Brain), SPASMS, PHYSIOLOGICAL effects of oxygen

Abstract

We utilized a novel ratiometric nanoquantum dot fluorescence resonance energy transfer (NQD-FRET) optical sensor to quantitatively measure oxygen dynamics from single cell microdomains during hypoxic episodes as well as during 4-aminopyridine (4-AP)-induced spontaneous seizure-like events in rat hippocampal slices. Coupling oxygen sensing with electrical recordings, we found the greatest reduction in the O2 concentration ([O2]) in the densely packed cell body stratum (st.) pyramidale layer of the CA1 and differential layer-specific O2 dynamics between the st. pyramidale and st. oriens layers. These hypoxic decrements occurred up to several seconds before seizure onset could be electrically measured extracellularly. Without 4-AP, we quantified a narrow range of [O2], similar to the endogenous hypoxia found before epileptiform activity, which permits a quiescent network to enter into a seizure-like state. We demonstrated layer-specific patterns of O2 utilization accompanying layer-specific neuronal interplay in seizure. None of the oxygen overshoot artifacts seen with polarographic measurement techniques were observed.We therefore conclude that endogenously generated hypoxia may be more than just a consequence of increased cellular excitability but an influential and critical factor for orchestrating network dynamics associated with epileptiform activity. [ABSTRACT FROM AUTHOR]

Published

2014