Silke Lucke scite author profile

The lipid diacylglycerol (DAG) analogue 1‐oleoyl‐2‐acetyl‐sn‐glycerol (OAG) was used to verify the existence of DAG‐sensitive channels in cortical neurons dissociated from E13 mouse embryos. Calcium imaging experiments showed that OAG increased the cytosolic concentration of Ca2+ ([Ca2+]i) in nearly 35% of the KCl‐responsive cells. These Ca2+ responses disappeared in a Ca2+‐free medium supplemented with EGTA. Mn2+ quench experiments showed that OAG activated Ca2+‐conducting channels that were also permeant to Ba2+. The OAG‐induced Ca2+ responses were unaffected by nifedipine or omega‐conotoxin GVIA (Sigma‐Aldrich, Saint‐Quentin Fallavier, France) but blocked by 1‐[β‐(3‐(4‐Methoxyphenyl)propoxy)‐4‐methoxyphenethyl]‐1H‐imidazole hydrochloride (SKF)‐96365 and Gd3+. Replacing Na+ ions with N‐methyl‐d‐glucamine diminished the amplitude of the OAG‐induced Ca2+ responses showing that the Ca2+ entry was mediated via Na+‐dependent and Na+‐independent mechanisms. Experiments carried out with the fluorescent Na+ indicator CoroNa Green showed that OAG elevated [Na+]i. Like OAG, the DAG lipase inhibitor RHC80267 increased [Ca2+]i but not the protein kinase C activator phorbol 12‐myristate 13‐acetate. Moreover, the OAG‐induced Ca2+ responses were not regulated by protein kinase C activation or inhibition but they were augmented by flufenamic acid which increases currents through C‐type transient receptor potential protein family (TRPC) 6 channels. In addition, application of hyperforin, a specific activator of TRPC6 channels, elevated [Ca2+]i. Whole‐cell patch‐clamp recordings showed that hyperforin activated non‐selective cation channels. They were blocked by SKF‐96365 but potentiated by flufenamic acid. Altogether, our data show the presence of hyperforin‐ and OAG‐sensitive Ca2+‐permeable channels displaying TRPC6‐like properties. This is the first report revealing the existence of second messenger‐operated channels in cortical neurons.

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Morphometric immunohistochemical examination of the inflammatory tissue reaction after implantation of calcium phosphate-coated titanium plates in rats

Walschus

Hoene

Neumann

et al. 2009

Acta Biomaterialia

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In vivoevaluation of copper release and acute local tissue reactions after implantation of copper-coated titanium implants in rats

Hoene

Prinz²,

Walschus

et al. 2013

Biomed. Mater.

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Copper (Cu) based coatings can reduce infections for titanium (Ti) implants. However, Cu is also cytotoxic. To examine the balance of antibacterial versus adverse tissue effects, this study aimed at evaluating a Cu coating regarding in vivo Cu release and local inflammatory reactions for 72 h. TiAl6V4 plates received either plasma electrolytic oxidation only (Ti), or an additional galvanic Cu deposition (Ti-Cu). No Staphylococcus aureus were found in vitro on Ti-Cu after 24 h. Following simultaneous intramuscular implantation of two Ti and two Ti-Cu plates into nine rats, serum Cu was elevated until 48 h and residual Cu on explanted samples reduced accordingly after 48 h. Total and tissue macrophages around implants increased until 72 h for both series, and were increased for Ti-Cu. As numbers of total and tissue macrophages were comparable, macrophages were probably tissue-derived. MHC-class-II-positive cells increased for Ti-Cu only. T-lymphocytes had considerably lower numbers than macrophages, did not increase or differ between both series, and thus had minor importance. Tissue reactions increased beyond Cu release, indicating effects of either surface-bound Cu or more likely the implants themselves. Altogether, Ti-Cu samples possessed antibacterial effectiveness in vitro, released measurable Cu amounts in vivo and caused a moderately increased local inflammatory response, demonstrating anti-infective potential of Cu coatings.

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Silke Lucke

In vivo investigation of the inflammatory response against allylamine plasma polymer coated titanium implants in a rat model

Histological changes in masticatory muscles of mdx mice

Diacylglycerol analogues activate second messenger‐operated calcium channels exhibiting TRPC‐like properties in cortical neurons

Morphometric immunohistochemical examination of the inflammatory tissue reaction after implantation of calcium phosphate-coated titanium plates in rats

In vivoevaluation of copper release and acute local tissue reactions after implantation of copper-coated titanium implants in rats

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