Cross-talk of vitamin D and glucocorticoids in hippocampal cells

There is growing evidence for a role of vitamin D3 signalling in the brain. In this study, we investigated the influence of vitamin D3, in combination with glucocorticoids, on differentiation of the hippocampal progenitor line HIB5, as well as survival of rat primary hippocampal cells. In HIB5, pre-treatment with dexamethasone (Dex) alone inhibited neurite outgrowth and abolished activation of the mitogen-activated protein kinase (MAPK) pathway during platelet-derived growth factor (PDGF)-induced differentiation, consistent with previous findings. Interestingly, pre-treating HIB5 with vitamin D3 significantly reduced these effects of Dex and, in addition, lowered the transactivational function of the glucocorticoid receptor (GR) in transient reporter gene assays. A further impact of vitamin D3 on glucocorticoid effects was observed in a rat primary hippocampal culture known to be particularly sensitive to prolonged GR activation. In this model, Dex induced considerable cell death after 72 h of exposure in vitro. However, 24 h of pre-treatment with low doses of vitamin D3 substantially reduced the degree of Dex-induced apoptosis in primary hippocampal cells. Taken together, our experiments demonstrate a cross-talk between vitamin D3 and glucocorticoids in two hippocampal models, a feature that may have important implications in disorders with dysregulated glucocorticoid signalling, including major depression.     

Tracking of human Y receptors in living cells--a fluorescence approach

Non-invasive methods for studying biological processes in living cells have become very important, also in the field of GPCR biochemistry. Great advancements in the application of fluorescence techniques as well as in the development and improvement of novel fluorophores allow the visualization of dynamic processes. Using these technologies, problems concerning receptor biosynthesis, internalization, recycling and degradation can be investigated. Here we compare the application of the different fluorescent tags EYFP, Lumiotrade mark and SNAPtrade mark to track hY(1) and hY(5) receptors in living cells.     

Surface-plasmon-resonance-based biosensor with immobilized bisubstrate analog inhibitor for the determination of affinities of ATP- and protein-competitive ligands of cAMP-dependent protein kinase

Interactions between adenosine-oligoarginine conjugates (ARC), bisubstrate analog inhibitors of protein kinases, and catalytic subunits of cAMP-dependent protein kinase (cAPK Calpha) were characterized with surface-plasmon-resonance-based biosensors. ARC-704 bound to the immobilized kinase with subnanomolar affinity. The immobilization of ARC-704 to the chip surface via streptavidin-biotin complex yielded a high-affinity surface (K(D)=16nM). The bisubstrate character of ARC-704 was demonstrated with various ligands targeted to ATP-binding pocket (ATP and inhibitors H89 and H1152P) and protein-substrate-binding domain of Calpha (RIIalpha and GST-PKIalpha) in competition assays. The experiments performed on surfaces with different immobilization levels of ARC-704 produced similar results. The closeness of the obtained affinities of the tested compounds to the inhibitory potencies and affinities of the compounds measured with other methods demonstrates the applicability of the chip with the immobilized biligand inhibitor for the characterization of both ATP- and substrate protein-competitive ligands of basophilic protein kinases.