Jan Niklas Lüke scite author profile

Jan Niklas Lüke

4Publications

75Citation Statements Received

94Citation Statements Given

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University Hospital Cologne, University of Cologne, Centrum für Integrierte Onkologie

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Reciprocal modulation of Ca_v2.3 voltage‐gated calcium channels by copper(II) ions and kainic acid

Neumaier

Akhtar-Schäfer

Lüke

et al. 2018

Journal of Neurochemistry

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Kainic acid (KA) is a potent agonist at non-N-methyl-D-aspartate (non-NMDA) ionotropic glutamate receptors and commonly used to induce seizures and excitotoxicity in animal models of human temporal lobe epilepsy. Among other factors, Ca 2.3 voltage-gated calcium channels have been implicated in the pathogenesis of KA-induced seizures. At physiologically relevant concentrations, endogenous trace metal ions (Cu , Zn ) occupy an allosteric binding site on the domain I gating module of these channels and interfere with voltage-dependent gating. Using whole-cell patch-clamp recordings in human embryonic kidney (HEK-293) cells stably transfected with human Ca 2.3d and β -subunits, we identified a novel, glutamate receptor-independent mechanism by which KA can potently sensitize these channels. Our findings demonstrate that KA releases these channels from the tonic inhibition exerted by low nanomolar concentrations of Cu and produces a hyperpolarizing shift in channel voltage-dependence by about 10 mV, thereby reconciling the effects of Cu chelation with tricine. When tricine was used as a surrogate to study the receptor-independent action of KA in electroretinographic recordings from the isolated bovine retina, it selectively suppressed a late b-wave component, which we have previously shown to be enhanced by genetic or pharmacological ablation of Ca 2.3 channels. Although the pathophysiological relevance remains to be firmly established, we speculate that reversal of Cu -induced allosteric suppression, presumably via formation of stable kainate-Cu complexes, could contribute to the receptor-mediated excitatory effects of KA. In addition, we discuss experimental implications for the use of KA in vitro, with particular emphasis on the seemingly high incidence of trace metal contamination in common physiological solutions.

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Outcomes of deep anterior lamellar keratoplasty and penetrating keratoplasty in keratoconic eyes with and without previous hydrops

Händel

Lüke

Siebelmann

et al. 2022

Graefes Arch Clin Exp Ophthalmol

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Non-invasive evaluation of neurovascular coupling in the murine retina by dynamic retinal vessel analysis

et al. 2018

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BackgroundImpairment of neurovascular coupling (NVC) was recently reported in the context of subarachnoid hemorrhage and may correlate with disease severity and outcome. However, previous techniques to evaluate NVC required invasive procedures. Retinal vessels may represent an alternative option for non-invasive assessment of NVC.MethodsA prototype of an adapted retinal vessel analyzer was used to assess retinal vessel diameter in mice. Dynamic vessel analysis (DVA) included an application of monochromatic flicker light impulses in predefined frequencies for evaluating NVC. All retinae were harvested after DVA and electroretinograms were performed.ResultsA total of 104 retinal scans were conducted in 21 male mice (90 scans). Quantitative arterial recordings were feasible only in a minority of animals, showing an emphasized reaction to flicker light impulses (8 mice; 14 scans). A characteristic venous response to flicker light, however, could observed in the majority of animals. Repeated measurements resulted in a significant decrease of baseline venous diameter (7 mice; 7 scans, p < 0.05). Ex-vivo electroretinograms, performed after in-vivo DVA, demonstrated a significant reduction of transretinal signaling in animals with repeated DVA (n = 6, p < 0.001).ConclusionsTo the best of our knowledge, this is the first non-invasive study assessing murine retinal vessel response to flicker light with characteristic changes in NVC. The imaging system can be used for basic research and enables the investigation of retinal vessel dimension and function in control mice and genetically modified animals.

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Modulation of Cav2.3 channels by unconjugated bilirubin (UCB) – Candidate mechanism for UCB-induced neuromodulation and neurotoxicity

Albanna

Lüke

Schubert

et al. 2019

Molecular and Cellular Neuroscience

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Jan Niklas Lüke

Reciprocal modulation of Ca_v2.3 voltage‐gated calcium channels by copper(II) ions and kainic acid

Outcomes of deep anterior lamellar keratoplasty and penetrating keratoplasty in keratoconic eyes with and without previous hydrops

Non-invasive evaluation of neurovascular coupling in the murine retina by dynamic retinal vessel analysis

Modulation of Cav2.3 channels by unconjugated bilirubin (UCB) – Candidate mechanism for UCB-induced neuromodulation and neurotoxicity

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Jan Niklas Lüke

Reciprocal modulation of Cav2.3 voltage‐gated calcium channels by copper(II) ions and kainic acid

Outcomes of deep anterior lamellar keratoplasty and penetrating keratoplasty in keratoconic eyes with and without previous hydrops

Non-invasive evaluation of neurovascular coupling in the murine retina by dynamic retinal vessel analysis

Modulation of Cav2.3 channels by unconjugated bilirubin (UCB) – Candidate mechanism for UCB-induced neuromodulation and neurotoxicity

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Reciprocal modulation of Ca_v2.3 voltage‐gated calcium channels by copper(II) ions and kainic acid