Hypoosmolar conditions reduce extracellular volume fraction and enhance epileptiform activity in the CA3 region of the immature rat hippocampus

Kilb, Werner; Dierkes, Paul Wilhelm; Syková, Eva; Vargová, Lýdia; Luhmann, Heiko J.

doi:10.1002/jnr.20871

Cited by 53 publications

(56 citation statements)

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“…Several in vitro studies have shown that application of hyperosmolar solutions containing impermeable substances elevates the seizure threshold in rat hippocampus (Traynelis and Dingledine, 1989;Dudek et al, 1990;Pan and Stringer, 1996;Kilb et al, 2006). Hyperosmolar solutions should increase ␣ by shrinking cells, and Traynelis and Dingledine (1989) confirmed this through impedance measurements.…”

Section: Implications Of the Increased Volume Fraction In Aqp4mentioning

confidence: 85%

Aquaporin-4-Deficient Mice Have Increased Extracellular Space without Tortuosity Change

Yao¹,

Hrabětová²,

Nicholson³

et al. 2008

J. Neurosci.

137

113

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Aquaporin-4 (AQP4) isϪ/Ϫ mice, and no differences in and k between the two genotypes. This is the first direct comparison of ECS properties in adult mice lacking AQP4 water channels with wild-type animals and demonstrates a significant enlargement of the volume fraction but no difference in hindrance to TMA ϩ diffusion, expressed as tortuosity. These findings provide direct evidence for involvement of AQP4 in modulation of the ECS volume fraction and provide a basis for future modeling of water and ion transport in the CNS.

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Section: Implications Of the Increased Volume Fraction In Aqp4mentioning

confidence: 85%

Aquaporin-4-Deficient Mice Have Increased Extracellular Space without Tortuosity Change

Yao¹,

Hrabětová²,

Nicholson³

et al. 2008

J. Neurosci.

137

113

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“…Interestingly, at resting state, ECS volume in AQP4 or a-syn knockout mice (AQP4 2/2 or a-syn 2/2 , respectively) is larger than that found in control animals [42,53]. The higher initial value of a was proposed to be a protective mechanism against the fast increase in concentration of neurotoxic substances [54], and thus may contribute to a better outcome in AQP4 swelling, Dmytrenko et al [42] showed that AQP4-mediated water influx plays a role predominantly during pathological states (global ischaemia and strong hypotonic stress) or in states associated with increased potassium concentration, but not during milder stimuli modelling physiological neuronal activity (figure 2).…”

Section: (A) Transient Changesmentioning

confidence: 96%

Astrocytes and extracellular matrix in extrasynaptic volume transmission

Vargová

Syková

2014

Phil. Trans. R. Soc. B

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Volume transmission is a form of intercellular communication that does not require synapses; it is based on the diffusion of neuroactive substances across the brain extracellular space (ECS) and their binding to extrasynaptic high-affinity receptors on neurons or glia. Extracellular diffusion is restricted by the limited volume of the ECS, which is described by the ECS volume fraction a, and the presence of diffusion barriers, reflected by tortuosity l, that are created, for example, by fine astrocytic processes or extracellular matrix (ECM) molecules. Organized astrocytic processes, ECM scaffolds or myelin sheets channel the extracellular diffusion so that it is facilitated in a certain direction, i.e. anisotropic. The diffusion properties of the ECS are profoundly influenced by various processes such as the swelling and morphological rebuilding of astrocytes during either transient or persisting physiological or pathological states, or the remodelling of the ECM in tumorous or epileptogenic tissue, during Alzheimer's disease, after enzymatic treatment or in transgenic animals. The changing diffusion properties of the ECM influence neuron -glia interaction, learning abilities, the extent of neuronal damage and even cell migration. From a clinical point of view, diffusion parameter changes occurring during pathological states could be important for diagnosis, drug delivery and treatment.

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“…voltage-gated potassium channels; hypotonicity; hypertonicity; TRPV4; intracellular signaling pathway; second messenger system Many studies have shown that osmolarity plays an important role in the regulation of neurons excitability and neurotransmitter release (Andrew et al, 1989;Azouz et al, 1997;Baraban and Schwartzkroin, 1998;Kilb et al, 2006;Saly and Andrew, 1993;Traynelis and Dingledine, 1989). Through this regulation, changes in osmolality can cause many disorders, such as Corresponding author: Lieju Liu Department of Physiology, Tongji Medical College, Huazhong University of Science and Technology, No.…”

Section: Introductionmentioning

confidence: 99%

“…epilepsy (Kilb et al, 2006;Schwartzkroin et al, 1998) in the central nerve system and pain in the peripheral nerve system (Alessandri-Haber et al, 2005;Alessandri-Haber et al, 2004;Alessandri-Haber et al, 2003;Suzuki et al, 2003). Recently, there are evidences that both hypo and hypertonic stimuli can activate C-fiber afferent and induce pain (Alessandri-Haber et al, 2005;Alessandri-Haber et al, 2004;Alessandri-Haber et al, 2003;Suzuki et al, 2003).…”

mentioning

confidence: 99%

The modulation of voltage-gated potassium channels by anisotonicity in trigeminal ganglion neurons

Chen¹,

Liu²,

Liu³

2008

Neuroscience

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Voltage-gated potassium channels (VGPCs) play an important role in many physiological functions by controlling the electrical properties and excitability of cells. Changes in tonicity in the peripheral nervous system can activate nociceptors and produce pain. Here, using whole cell patch clamp techniques, we explore how hypo and hypertonicity modulate VGPCs in cultured rat and mouse trigeminal ganglion (TG) neurons. We found that hypo and hypertonicity had different effects on slow-inactivating K + current (I K ) and fast-inactivating K + current (I A ): hypotonicity increased I K but had no effect on I A while hypertonicity depressed both I K and I A . The increase of I K by hypotonicity was mimicked by Transient Receptor Potential Vanilloid 4 (TRPV4) receptor activator (4α-PDD) but hypotonicity did not exhibit increase in TRPV4 −/− mice TG neurons, suggesting that TRPV4 receptor was involved in hypotonicity induced response. We also found that inactivation of PKC selectively reversed the increase of I K by hypotonicity, whereas antagonism of G-protein selectively rescued the inhibitions of I K and I A by hypertonicity, indicating that different intracellular signaling pathways were required for the modulation by hypo and hypertonicity. In summary, changes in osmolality have various effects on I K and I A and different receptors and second messenger systems are selective for the modulation of VGPCs induced by hypo versus hypertonicity. Keywordsvoltage-gated potassium channels; hypotonicity; hypertonicity; TRPV4; intracellular signaling pathway; second messenger system Many studies have shown that osmolarity plays an important role in the regulation of neurons excitability and neurotransmitter release (Andrew et al., 1989;Azouz et al., 1997;Baraban and Schwartzkroin, 1998;Kilb et al., 2006;Saly and Andrew, 1993;Traynelis and Dingledine, 1989). Through this regulation, changes in osmolality can cause many disorders, such as Corresponding author: Lieju Liu Department of Physiology, Tongji Medical College, Huazhong University of Science and Technology, No. 13, Hangkong Road, Wuhan, P.R. China, 430030, Ph: 86-27-8369-2622, FAX: 86-27-8369-2608, E-mail: chenltj@hotmail.com Publisher's Disclaimer: This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final citable form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain. NIH Public Access Author ManuscriptNeuroscience. Author manuscript; available in PMC 2009 June 23. Published in final edited form as:Neuroscience. Kilb et al., 2006;Schwartzkroin et al., 1998) in the central nerve system and pain in the peripheral nerve system (Alessandri-Haber et al., 2005;Alessandri-Haber et al., 2004;Alessandri-Haber et al., 2003;S...

show abstract

Hypoosmolar conditions reduce extracellular volume fraction and enhance epileptiform activity in the CA3 region of the immature rat hippocampus

Cited by 53 publications

References 53 publications

Aquaporin-4-Deficient Mice Have Increased Extracellular Space without Tortuosity Change

Aquaporin-4-Deficient Mice Have Increased Extracellular Space without Tortuosity Change

Astrocytes and extracellular matrix in extrasynaptic volume transmission

The modulation of voltage-gated potassium channels by anisotonicity in trigeminal ganglion neurons

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