The Ca2+ activated SK3 channel is expressed in microglia in the rat striatum and contributes to microglia-mediated neurotoxicity in vitro

Schlichter, Lyanne C.; Kaushal, Vikas; Moxon‐Emre, Iska; Sivagnanam, Vishanthan; Colot, Vincent

doi:10.1186/1742-2094-7-4

Cited by 56 publications

(73 citation statements)

References 79 publications

(115 reference statements)

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“…We found that some ion channels in microglia contribute to their neurotoxic capacity, and identified roles of three K + channel types (K v 1.3, K Ca 2.3, K Ca 3.1) in production of nitric oxide, superoxide and peroxynitrite. [7][8][9] After acute CNS injury (e.g., stroke, trauma), the excitatory amino acid, glutamate, causes neuronal injury; thus, a crucial finding was that I Clswell channels in microglia are significantly permeable to glutamate (and . When the bath was perfused with the hypo-osmotic solution 5, the cell swelled (inset) and an outward-rectifying current activated, increased with time (vertical arrow) and reached a quasi-stationary plateau.…”

Section: Resultsmentioning

confidence: 99%

“…Furthermore, after injury, microglia migrate to the site of injury, as shown in our recent studies of K + channels in rat models of optic nerve transection, ischemic stroke and intracerebral hemorrhage. [8][9][10] In addition, glutamate is involved in signaling between neurons, astrocytes and microglia; thus, potential outcomes of activating I Clswell include trans-activating NMDA receptors to evoke excitotoxic neuronal injury; 11 activating microglia through their metabotropic glutamate receptors, leading to production of other neurotoxic mediators; 12,13 and mediating glia-to-neuron signaling under inflammatory conditions. 14 Here, we first show that the biophysical and pharmacological properties of I Clswell in MLS-9 cells are as previously determined for primary rat microglia.…”

Section: Swelling Activated CL -Channels In Microgliamentioning

confidence: 99%

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Swelling activated Cl- channels in microglia

2011

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Section: Resultsmentioning

confidence: 99%

Section: Swelling Activated CL -Channels In Microgliamentioning

confidence: 99%

Swelling activated Cl- channels in microglia

2011

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“…The messages for KCNN1/SK1, KCNN2/SK2, and KCNN3/SK3 channels were identified in rat cultured microglia; the KCNN3/SK3 showed predominant expression, which increased ϳ1.7 times following LPS stimulation (807). The immunoreactivity for KCNN3/ SK3 was found in microglial cells in healthy adult rat striatum; this immunoreactivity substantially increased after ischemic lesion (807). Finally, inhibition of KCNN3/ SK3 channels by 100 nM apamin or by 5 nM tamapin reduced microglial neurotoxicity and somewhat ameliorated microglial activation (807).…”

Section: Ca 2ϩ -Dependent Potassium Channelsmentioning

confidence: 97%

“…The K Ca channels are also involved in controlling the microglial respiratory burst; the treatment of microglial cells with apamin (selective blocker of KCNN2/SK2 channels) or with clotrimazole (KCNN4/SK4 channels inhibitors) markedly inhibited the respiratory burst (446). The messages for KCNN1/SK1, KCNN2/SK2, and KCNN3/SK3 channels were identified in rat cultured microglia; the KCNN3/SK3 showed predominant expression, which increased ϳ1.7 times following LPS stimulation (807). The immunoreactivity for KCNN3/ SK3 was found in microglial cells in healthy adult rat striatum; this immunoreactivity substantially increased after ischemic lesion (807).…”

Section: Ca 2ϩ -Dependent Potassium Channelsmentioning

confidence: 99%

Physiology of Microglia

Kettenmann

Hanisch

Нода

et al. 2011

Physiological Reviews

2,999

2,943

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Microglial cells are the resident macrophages in the central nervous system. These cells of mesodermal/mesenchymal origin migrate into all regions of the central nervous system, disseminate through the brain parenchyma, and acquire a specific ramified morphological phenotype termed “resting microglia.” Recent studies indicate that even in the normal brain, microglia have highly motile processes by which they scan their territorial domains. By a large number of signaling pathways they can communicate with macroglial cells and neurons and with cells of the immune system. Likewise, microglial cells express receptors classically described for brain-specific communication such as neurotransmitter receptors and those first discovered as immune cell-specific such as for cytokines. Microglial cells are considered the most susceptible sensors of brain pathology. Upon any detection of signs for brain lesions or nervous system dysfunction, microglial cells undergo a complex, multistage activation process that converts them into the “activated microglial cell.” This cell form has the capacity to release a large number of substances that can act detrimental or beneficial for the surrounding cells. Activated microglial cells can migrate to the site of injury, proliferate, and phagocytose cells and cellular compartments.

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“…In particular, it produces enhanced pain transmission in the spinal dorsal horn after spinal cord injury (Gwak & Hulsebosch, 2011). Recently, the SK3 ion channel has gained attention as a new therapeutic target for disorders involving neuron hyper-excitability (Schlichter et al, 2010). Results from the present study suggest direct interactions between Na-ASP-2 and extracellular SK3 peptides, thus raising the hope that this hookworm protein may hold promise as a new SK3 channel modulator with therapeutic potential.…”

Section: Potential Host Receptors Of Na-asp-2mentioning

confidence: 62%

Probing the equatorial groove of the hookworm protein and vaccine candidate antigen, Na-ASP-2

Mason

Tribolet

Simon

et al. 2014

The International Journal of Biochemistry & Cell Biology

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Hookworm activation-associated secreted proteins can be structurally classified into at least three different groups. The hallmark feature of Group 1 activation-associated secreted proteins is a prominent equatorial groove, which is inferred to form a ligand binding site. Furthermore, a conserved tandem histidine motif is located in the centre of the groove and believed to provide or support a yet to be determined catalytic activity. Here, we report three-dimensional crystal structures of Na-ASP-2, an L3-secreted activationassociated secreted protein from the human hookworm Necator americanus, which demonstrate transition metal binding ability of the conserved tandem histidine motif. We further identified moderate phosphohydrolase activity of recombinant Na-ASP-2, which relates to the tandem histidine motif. By panning a random 12-mer peptide phage library, we identified a peptide with high similarity to the human calcium-activated potassium channel SK3, and confirm binding of the synthetic peptide to recombinant Na-ASP-2 by differential scanning fluorimetry. Potential binding modes of the peptide to Na-ASP-2 were studied by molecular dynamics simulations which clearly identify a preferred topology of the Na-ASP-2:SK3 peptide complex. KeywordsActivation-associated secreted proteins, Host-parasite interactions, Pathogenesis-related proteins, Protein structure, SCP/TAPS proteins Database Coordinates and structure factors have been deposited with the PDB, accession numbers 4nui, 4nuk, 4nun and 4nuo.

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The Ca2+ activated SK3 channel is expressed in microglia in the rat striatum and contributes to microglia-mediated neurotoxicity in vitro

Cited by 56 publications

References 79 publications

Swelling activated Cl- channels in microglia

Swelling activated Cl- channels in microglia

Physiology of Microglia

Probing the equatorial groove of the hookworm protein and vaccine candidate antigen, Na-ASP-2

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