Claus Bruehl scite author profile

Changes of neuronal excitability and gamma-aminobutyric acid (GABAA)-receptor expression were studied in the surround of photothrombotic infarcts, which were produced in the sensorimotor cortex of the rat by using the rose bengal technique. In a first series of experiments, multiunit recordings were performed on anesthetized animals 2-3 mm lateral from the lesion. Mean discharge frequency was considerably higher in recordings from lesioned animals (> 100 Hz in the first postlesional week) compared with control animals (mean, 15 Hz). These alterations were already present after 1 day but were most pronounced 3 to 7 days after lesion induction. Thereafter the hyperexcitability declined again, although it remained visible up to 4 months. In a second series of experiments, the GABAA-receptor expression was studied autoradiographically. This revealed a reduction of GABAA receptors in widespread brain areas ipsilateral to the lesion. The reduction was most pronounced in the first days after lesion induction and declined with longer intervals. It is concluded that cortical infarction due to photothrombosis leads to a long-lasting and widespread reduction of GABAA-receptor expression in the surround of the lesion, which is associated with an increased neuronal excitability. Such alterations may be responsible for epileptic seizures that can be observed in some patients after stroke and may contribute to neurologic deficits after stroke.

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Polyunsaturated fatty acids modulate sodium and calcium currents in CA1 neurons.

Vreugdenhil

Bruehl²,

Voskuyl³

et al. 1996

Proc. Natl. Acad. Sci. U.S.A.

276

175

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Recent evidence indicates that long-chain polyunsaturated fatty acids (PUFAs) can prevent cardiac arrhythmias by a reduction of cardiomyocyte excitability. This was shown to be due to a modulation of the voltage-dependent inactivation of both sodium (INa) and calcium (ICa) currents. To establish whether PUFAs also regulate neuronal excitability, the effects of PUFAs on INa and ICa were assessed in CAl neurons freshly isolated from the rat hippocampus. Extracellular application of PUFAs produced a concentrationdependent shift of the voltage dependence of inactivation of both INa and ICa to more hyperpolarized potentials. Consequently, they accelerated the inactivation and retarded the recovery from inactivation. The EC50 for the shift of the INa steady-state inactivation curve was 2.1 + 0.4 ,uM for docosahexaenoic acid (DHA) and 4 + 0.4 ,uM for eicosapentaenoic acid (EPA). The EC50 for the shift on the ICa inactivation curve was 2.1 + 0.4 for DHA and >15 ,uM for EPA. Additionally, DHA

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Amyloid β Oligomers (Aβ_1–42Globulomer) Suppress Spontaneous Synaptic Activity by Inhibition of P/Q-Type Calcium Currents

Nimmrich¹,

Grimm²,

Draguhn³

et al. 2008

J. Neurosci.

226

160

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Abnormal accumulation of soluble oligomers of amyloid ␤ (A␤) is believed to cause malfunctioning of neurons in Alzheimer's disease. It has been shown that A␤ oligomers impair synaptic plasticity, thereby altering the ability of the neuron to store information. We examined the underlying cellular mechanism of A␤ oligomer-induced synaptic modifications by using a recently described stable oligomeric A␤ preparation called "A␤ 1-42 globulomer." Synthetically prepared A␤ 1-42 globulomer has been shown to localize to neurons and impairs long-term potentiation (Barghorn et al., 2005). Here, we demonstrate that A␤ 1-42 globulomer does not affect intrinsic neuronal properties, as assessed by measuring input resistance and discharge characteristics, excluding an unspecific alteration of membrane properties. We provide evidence that A␤ 1-42 globulomer, at concentrations as low as 8 nM, specifically suppresses spontaneous synaptic activity resulting from a reduction of vesicular release at terminals of both GABAergic and glutamatergic synapses. EPSCs and IPSCs were primarily unaffected. A detailed search for the precise molecular target of A␤ 1-42 globulomer revealed a specific inhibition of presynaptic P/Q calcium currents, whereas other voltage-activated calcium currents remained unaltered. Because intact P/Q calcium currents are needed for synaptic plasticity, the disruption of such currents by A␤ 1-42 globulomer may cause deficits in cellular mechanisms of information storage in brains of Alzheimer's disease patients. The inhibitory effect of A␤ 1-42 globulomer on synaptic vesicle release could be reversed by roscovitine, a specific enhancer of P/Q currents. Selective enhancement of the P/Q calcium current may provide a promising strategy in the treatment of Alzheimer's disease.

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The Symptom Complex of Familial Sinus Node Dysfunction and Myocardial Noncompaction Is Associated With Mutations in the HCN4 Channel

Schweizer

Schröter

Greiner

et al. 2014

Journal of the American College of Cardiology

131

118

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Synaptic Glutamate Release Is Modulated by the Na⁺-Driven Cl⁻/HCO₃⁻Exchanger Slc4a8

Sinning

Liebmann²,

Kougioumtzes³

et al. 2011

J. Neurosci.

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On the one hand, neuronal activity can cause changes in pH; on the other hand, changes in pH can modulate neuronal activity. Consequently, the pH of the brain is regulated at various levels. Here we show that steady-state pH and acid extrusion were diminished in cultured hippocampal neurons of mice with a targeted disruption of the Na ϩ -driven Cl Ϫ /HCO 3 Ϫ exchanger Slc4a8. Because Slc4a8 was found to predominantly localize to presynaptic nerve endings, we hypothesize that Slc4a8 is a key regulator of presynaptic pH. Supporting this hypothesis, spontaneous glutamate release in the CA1 pyramidal layer was reduced but could be rescued by increasing the intracellular pH. The reduced excitability in vitro correlated with an increased seizure threshold in vivo. Together with the altered kinetics of stimulated synaptic vesicle release, these data suggest that Slc4a8 modulates glutamate release in a pH-dependent manner.

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Claus Bruehl

Neuronal Hyperexcitability and Reduction of GABA_A-Receptor Expression in the Surround of Cerebral Photothrombosis

Polyunsaturated fatty acids modulate sodium and calcium currents in CA1 neurons.

Amyloid β Oligomers (Aβ_1–42Globulomer) Suppress Spontaneous Synaptic Activity by Inhibition of P/Q-Type Calcium Currents

The Symptom Complex of Familial Sinus Node Dysfunction and Myocardial Noncompaction Is Associated With Mutations in the HCN4 Channel

Synaptic Glutamate Release Is Modulated by the Na⁺-Driven Cl⁻/HCO₃⁻Exchanger Slc4a8

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Claus Bruehl

Neuronal Hyperexcitability and Reduction of GABAA-Receptor Expression in the Surround of Cerebral Photothrombosis

Polyunsaturated fatty acids modulate sodium and calcium currents in CA1 neurons.

Amyloid β Oligomers (Aβ1–42Globulomer) Suppress Spontaneous Synaptic Activity by Inhibition of P/Q-Type Calcium Currents

The Symptom Complex of Familial Sinus Node Dysfunction and Myocardial Noncompaction Is Associated With Mutations in the HCN4 Channel

Synaptic Glutamate Release Is Modulated by the Na+-Driven Cl−/HCO3−Exchanger Slc4a8

Contact Info

Product

Resources

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Neuronal Hyperexcitability and Reduction of GABA_A-Receptor Expression in the Surround of Cerebral Photothrombosis

Amyloid β Oligomers (Aβ_1–42Globulomer) Suppress Spontaneous Synaptic Activity by Inhibition of P/Q-Type Calcium Currents

Synaptic Glutamate Release Is Modulated by the Na⁺-Driven Cl⁻/HCO₃⁻Exchanger Slc4a8