Coordinate regulation of RARgamma2, TBP, and TAFII135 by targeted proteolysis during retinoic acid-induced differentiation of F9 embryonal carcinoma cells

Background  

Treatment of mouse F9 embryonal carcinoma cells with all-trans retinoic acid (T-RA) induces differentiation into primitive endodermal type cells. Differentiation requires the action of the receptors for all trans, and 9cis-retinoic acid (RAR and RXR, respectively) and is accompanied by growth inhibition, changes in cell morphology, increased apoptosis, proteolytic degradation of the RARγ2 receptor, and induction of target genes.     

Dual role of the IL-12/IFN-gamma axis in the development of autoimmune myocarditis: induction by IL-12 and protection by IFN-gamma.

IL-12 and IFN-gamma positively regulate each other and type 1 inflammatory responses, which are believed to cause tissue damage in autoimmune diseases. We investigated the role of the IL-12/IFN-gamma (Th1) axis in the development of autoimmune myocarditis. IL-12p40-deficient mice on a susceptible background resisted myocarditis. In the absence of IL-12, autospecific CD4(+) T cells proliferated poorly and showed increased Th2 cytokine responses. However, IFN-gamma-deficient mice developed fatal autoimmune disease, and blockade of IL-4R signaling did not confer susceptibility to myocarditis in IL-12p40-deficient mice, demonstrating that IL-12 triggers autoimmunity by a mechanism independent of the effector cytokines IFN-gamma and IL-4. In conclusion, our results suggest that the IL-12/IFN-gamma axis is a double-edged sword for the development of autoimmune myocarditis. Although IL-12 mediates disease by induction/expansion of Th1-type cells, IFN-gamma production from these cells limits disease progression.     

Schistosoma mansoni: IL-4 is necessary for concomitant immunity in mice.

To ask whether type-2 immune responses serve an essential role in concomitant immunity, that is the prevention of superinfection with Schistosoma mansoni, we compared resistance to a challenge infection in infected wild-type (WT) mice and in infected IL-4-/- mice, which are unable to mount Th2 responses during schistosomiasis. Although WT mice are protected from superinfection, resistance is abrogated in the absence of interleukin (IL)-4. We conclude that IL-4 or IL-4-dependent responses, or both, are necessary for resistance to S. mansoni superinfection in mice.     

Rapid,nonradioactive, and quantitative method to analyze zona pellucida modifications in single mouse eggs

A rapid, nonradioactive method to monitor the ZP2 to ZP2_f conversion in the zona pellucida of single mouse eggs has been developed. This assay is based on the chemiluminescent detection of biotinylated ZP2 and ZP2_f following electrophoresis under reducing conditions and electrophoretic transfer to Immobilon P. This method is about 10 times faster and detects similar extents of ZP2 to ZP2_f conversion following A23187-induced egg activation, when compared to the commonly used radioiodination procedures. © 1994 Wiley-Liss, Inc.     

Impact of nozzle operation on mass transfer in jet aerated loop reactors. Characterization and comparison to an aerated stirred tank reactor

The impact of mass transfer on productivity can become a crucial aspect in the fermentative production of bulk chemicals. For highly aerobic bioprocesses the oxygen transfer rate (OTR) and productivity are coupled. The achievable space time yields can often be correlated to the mass transfer performance of the respective bioreactor. The oxygen mass transfer capability of a jet aerated loop reactor is discussed in terms of the volumetric oxygen mass transfer coefficient k_La [h^?1] and the energetic oxygen transfer efficiency E [kgO₂ kW^?1 h^?1]. The jet aerated loop reactor (JLR) is compared to the frequently deployed aerated stirred tank reactor. In jet aerated reactors high local power densities in the mixing zone allow higher mass transfer rates, compared to aerated stirred tank reactors. When both reactors are operated at identical volumetric power input and aeration rates, local k_La values up to 1.5 times higher are possible with the JLR. High dispersion efficiencies in the JLR can be maintained even if the nozzle is supplied with pressurized gas. For increased oxygen demands (above 120 mmol L^?1 h^?1) improved energetic oxygen transfer efficiencies of up to 100 % were found for a JLR compared to an aerated stirred tank reactor operating with Rushton turbines.     

Oxidovanadium(IV) complexes containing ligands derived from dithiocarbazates - Models for the interaction of VO with thiofunctional ligands

The tetragonal-pyramidal VO²⁺ complexes [VO{(RSC-S)N-NX}₂] (1-6) were synthesised by the reactions of VO(OCHMe₂)₃ with the dithiocarbazate ligands RSC(S)-NH-NX, where X = cyclo-pentyl, cyclo-hexyl or 4-Me₂N-C₆H₄-CH, and R = CH₃ or CH₂C₆H₅. The compounds were characterised by elemental analysis, IR- and mass spectrometries, and in cases of compounds 1, 3, 4 and 5, by X-ray diffraction. The chiral compound 4 (X = cyclo-hexyl, R = CH₂C₆H₅) crystallises in the C configuration. In compound 5, the VO moiety is disordered (83.3:16.7%) with respect to the plane spanned by the four equatorial ligand functions.     

The Kinase Activity of Rip2 Determines Its Stability and Consequently Nod1- and Nod2-mediated Immune Responses

Rip2 (RICK, CARD3) has been identified as a key effector molecule downstream of the pattern recognition receptors, Nod1 and Nod2; however, its mechanism of action remains to be elucidated. In particular, it is unclear whether its kinase activity is required for signaling or for maintaining protein stability. We have investigated the expression level of different retrovirally expressed kinase-dead Rip2 mutants and the role of Rip2 kinase activity in the signaling events that follow Nod1 and Nod2 stimulation. We show that in primary cells expressing kinase-inactive Rip2, protein levels were severely compromised, and stability could not be reconstituted by the addition of a phospho-mimetic mutation in its autophosphorylation site. Consequently, inflammatory cytokine production in response to Nod1 and Nod2 ligands was abrogated both in vitro and in vivo in the absence of Rip2 kinase activity. Our results highlight the central role that Rip2 kinase activity plays in conferring stability to the protein and thus in the preservation of Nod1- and Nod2-mediated innate immune responses.A key step in the initiation of effector immune responses is the recognition of highly conserved molecules expressed by microbial pathogens. The immune system has developed specific receptors that sense these so-called pathogen-associated molecular patterns and initiate appropriate immune responses. One key family of pattern recognition receptors is the Nod-like receptor (NLR)² family (1–3), of which two members, Nod1 and Nod2, have been implicated in the recognition of bacterial peptidoglycan derivatives released into the cytosol upon bacterial infection (4–6). Several studies have shown that Nod1 plays a role in host defense against invasive pathogens such as Helicobacter pylori and Escherichia coli (7, 8), and Nod2 mutations have been associated with a higher incidence of Crohn disease (9, 10), thus highlighting these NLRs as important regulators of inflammatory immune responses.Rip2, also called CARD3, RICK, or CARDIAK, is a serine/threonine kinase, which was implicated in the induction of NF-κB activation and apoptosis (11–13). Rip2 has been described to be critical for responses against Toll-like receptor ligands such as LPS (14, 15), although findings from recent studies did not support this conclusion (16). Rip2 contains a caspase-recruitment domain (CARD), which mediates interaction with other CARD-containing proteins such as Nod1 and Nod2, in addition to an N-terminal kinase domain and an intermediate domain. Nod1 and Nod2 associate with Rip2 upon peptidoglycan ligation (17) leading to downstream signaling events that culminate in NF-κB and mitogen-activated protein kinase activation (15, 18–20). Recent reports have suggested that the mitogen-activated protein kinase kinase kinase family member TAK1 provides the link between Rip2 and NF-κB activation upon Nod1 and Nod2 stimulation (21–23). However, the exact role of Rip2 and in particular its kinase activity in mediating downstream effector activation in NLR signaling still remains unclear. Notably, in vitro investigations have suggested that Rip2 kinase activity may be dispensable for the induction of immune responses initiated by NLR-ligands (21, 24, 25) and that disruption of Rip2 kinase activity is associated with a loss in protein stability (23); however, such studies utilized protein overexpression in cell lines and are yet to be tested in primary cells or in vivo.In the current investigation we sought to elucidate the role of Rip2 kinase activity in transducing inflammatory signals upon NLR stimulation in vitro and in vivo. To this end, we utilized both Rip2 knock-out (15) and Rip2 kinase-dead knock-in mice (24) in addition to Rip2 deficient primary cells that were retrovirally reconstituted with different kinase-inactive mutants. We show here that in the absence of intact kinase activity, Rip2 protein is not stable and that insertion of a phospho-mimetic mutation is not sufficient to restore stability. Moreover, pharmacological abrogation of Rip2 kinase activity in primary cells similarly leads to destabilization of the molecule. As a consequence, signaling downstream of Nod1 and Nod2 and inflammatory cytokine production is impaired both in vivo and in vitro. Our results highlight Rip2 kinase activity as a central regulator of protein stability and consequently innate immune responses triggered by Nod1 and Nod2 ligands.     

Influence of Fenofibrate Treatment on Triacylglycerides,Diacylglycerides and Fatty Acids in Fructose Fed Rats

Fenofibrate (FF) lowers plasma triglycerides via PPARα activation. Here, we analyzed lipidomic changes upon FF treatment of fructose fed rats. Three groups with 6 animals each were defined as control, fructose-fed and fructose-fed/FF treated. Male Wistar Unilever Rats were subjected to 10% fructose-feeding for 20 days. On day 14, fenofibrate treatment (100 mg/kg p.o.) was initiated and maintained for 7 days. Lipid species in serum were analyzed using mass spectrometry (ESI-MS/MS; LC-FT-MS, GC-MS) on days 0, 14 and 20 in all three groups. In addition, lipid levels in liver and intestine were determined. Short-chain TAGs increased in serum and liver upon fructose-feeding, while almost all TAG-species decreased under FF treatment. Long-chain unsaturated DAG-levels (36:1, 36:2, 36:4, 38:3, 38:4, 38:5) increased upon FF treatment in rat liver and decreased in rat serum. FAs, especially short-chain FAs (12:0, 14:0, 16:0) increased during fructose-challenge. VLDL secretion increased upon fructose-feeding and together with FA-levels decreased to control levels during FF treatment. Fructose challenge of de novo fatty acid synthesis through fatty acid synthase (FAS) may enhance the release of FAs ≤16:0 chain length, a process reversed by FF-mediated PPARα-activation.