Until now, a lack of inhibitors with high potency and selectivity in vivo has hampered investigation of the p38 mitogen-activated protein kinase (MAPK) signaling pathway. We describe the design of skepinone-L, which is, to our knowledge, the first ATP-competitive p38 MAPK inhibitor with excellent in vivo efficacy and selectivity. Therefore, skepinone-L is a valuable probe for chemical biology research, and it may foster the development of a unique class of kinase inhibitors.
The activity of protein kinase B (Akt)-a major kinase promoting cell proliferation and survival-oscillates during the cell cycle. To investigate whether membrane phospholipids may regulate Akt phosphorylation and thus activity, we monitored the lipid profile of nocodazole-synchronized mouse NIH 3T3 fibroblasts during the cell cycle by liquid chromatography electrospray ionization tandem mass spectrometry (LC-MS/MS). The proportion of sn-2-arachidonoylphosphatidylcholine (
Endoplasmic reticulum (ER) homeostasis is regulated by a network of signaling pathways to which stearoyl-CoA desaturase (SCD)-1, p38 mitogen-activated protein kinase (MAPK) and the unfolded protein response (UPR) belong. Because all these pathways are located at the interface of cell cycle control and cell stress, we hypothesized a cross-regulation. Interference with SCD-1, either by small interfering (si)RNA or the specific SCD-1 inhibitor CAY10566 (EC 50 1 mM; ‡ 24 h), specifically induced phosphorylation and thus activation of p38 MAPK in NIH-3T3 mouse fibroblasts (1.5-to 2-fold; 48 hours). During lipotoxic and cell cycle stress, prolonged activation of p38 MAPK due to SCD-1 inhibition induced ER stress, the UPR, and ER/Golgi remodeling as shown by Western blot and immunofluorescence microscopy (1.2-to 3.5-fold). Specific inhibition of p38 MAPK by Skepinone-L [half maximal inhibitory concentration (IC 50 ) 25-50 nM] reversed these effects (at 1 mM; 48 hours). The specificity by which SCD-1 modulates the phospholipid composition and inhibits p38 MAPK signaling (among survival/stress pathways), thereby preventing ER stress (but not other SCD-1-dependent responses), suggests selective proteinlipid interactions. Palmitoleoyl/oleoyl-phosphatidylinositol (PI) was accordingly identified as potential lipid mediator using chromatography-coupled ESI tandem mass spectrometry. We conclude that the negative regulation of p38
Glutathione peroxidase 2 (GPx2) is one of the five selenoprotein GPxs having a selenocysteine in the active center. GPx2 is strongly expressed in the gastrointestinal epithelium, as is another isoform, GPx1, though with a different localization pattern. Both GPxs are redox-active enzymes that are important for the reduction of hydroperoxides.Studies on GPx2-deficient mice and human HT-29 cells with a stable knockdown (kd) of GPx2 revealed higher basal and IL-1β-induced expression of NF-κB target genes in vivo and in vitro. The activation of the IKK–IκBα–NF-κB pathway was increased in cultured GPx2 kd cells. Basal signaling was only restored by re-expressing active GPx2 in GPx2 kd cells but not by redox-inactive GPx2. As it is still not clear if the two isoforms GPx1 and GPx2 have different functions, kd cell lines for either GPx1 or GPx2 were studied in parallel. The inhibitory effect of GPx2 on NF-κB signaling and its target gene expression was stronger than that of GPx1, whereas cyclooxygenase (COX)- and lipoxygenase (LOX)-derived lipid mediator levels increased more strongly in GPx1 kd than in GPx2 kd cells. Under unstimulated conditions, the levels of the COX-derived prostaglandins PGE2 and PGD2 were enhanced in GPx2 as well as in GPx1 kd compared to control cells. Specifically, in GPx1 kd cells IL-1β stimulation led to a dramatic shift of the PGE2/PGD2 ratio towards pro-inflammatory PGE2.Taken together, GPx2 and GPx1 have overlapping functions in controlling inflammatory lipid mediator synthesis and, most probably, exert their anti-inflammatory effects by preventing excessive PGE2 production. In view of the high activity of COX and LOX pathways during inflammatory bowel disease our data therefore provide new insights into the mechanisms of the protective function of GPx1 and GPx2 during colitis as well as inflammation-driven carcinogenesis.
p38α mitogen-activated protein (MAP) kinase is a main target in drug research concerning inflammatory diseases. Nevertheless, no inhibitor of p38α MAP kinase has been introduced to the market. This might be attributed to the fact that there is no inhibitor which combines outstanding activity in biological systems and selectivity. Herein an approach to the development of such inhibitors on the basis of the highly selective molecular probe Skepinone-L is described. Introduction of a "deep pocket" moiety addressing the DFG motif led to an increased activity of the compounds. Hydrophilic moieties, addressing the solvent-exposed area adjacent to hydrophilic region II, conserved a high activity of the compounds in a whole blood assay. Combined with their outstanding selectivity and low ATP competitiveness, these inhibitors are very interesting candidates for use in biological systems and in therapy.
Synthesis, biological testing, structure-activity relationships (SARs), and selectivity of novel disubstituted dibenzosuberone derivatives as p38 MAP kinase inhibitors are described. Hydrophilic moieties were introduced at the 7-, 8-, and 9-position of the 2-phenylamino-dibenzosuberones, improving physicochemical properties as well as potency. Extremely potent inhibitors were obtained, with half-maximal inhibitory concentration (IC(50)) values in the low nM range in a whole blood assay measuring the inhibition of cytokine release. The high potency of the target compounds together with the outstanding selectivity of this novel class of compounds toward p38 mitogen activated protein (MAP) kinase as compared to other kinases indicate them to be most applicable as tools in pharmacological research and eventually they may foster a new generation of anti-inflammatory drugs.
In the last few years, compounds have become more potent and more selective, for example, by induction of the so-called glycine flip. Furthermore, some companies are striving for selectivity with respect to isoforms. The increasing availability of rapid screening services, which include more than 400 kinases, has encouraged companies to reconsider traditional approaches. The most promising approach appears to be the development of linear binding molecules that feature a carbonyl oxygen that can enforce the glycine flip. Furthermore, recent projects increasingly target new fields of application, for example, pulmonary diseases. This might be the most important trend of the past few years.
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