Use of ERT2-iCre-ERT2 for conditional transgenesis

We examined the use of ERT2-iCre-ERT2 (Cre2ERT2), a tamoxifen-regulated form of Cre that has been described to have a background activity lower than that of other tamoxifen-regulated Cre constructs, for establishing performant conditional deleter mouse lines. Cre2ERT2 was inserted by homologous recombination into the Rosa26 locus. These mice were mated with R26R Cre-reporter mice. No recombination could be observed in the progenies in the absence of tamoxifen treatment. Tamoxifen treatment at E13-14 led to a high level, albeit variable, recombination in most of the tissues examined: liver, heart, kidney, brain, lung etc. Treatment of adult animals also induced recombination in these tissues, although at a lower level. Northern blot and qPCR studies suggested that these differences are not linked to significant variations of the level of expression of Cre2ERT2. Thus, Cre2ERT2 appears to be a good alternative to existing modulatable Cre systems, displaying a lack of background activity and a high-level inducibility in vivo.     

Synthesis and activity on rat aorta rings and rat pancreatic beta-cells of ring-opened analogues of benzopyran-type potassium channel activators

Ring-opened analogues of dihydrobenzopyran potassium channel openers (PCOs) were prepared and evaluated as putative PCOs on rat aorta rings (myorelaxant effect) and rat pancreatic beta-cells (inhibition of insulin secretion). These derivatives are characterized by the presence of a sulfonylurea, a urea or an amide function. Some compounds bearing an arylurea moiety provoked vasorelaxant effects and a marked inhibition of insulin release. Derivatives bearing a sulfonylurea or an amide function were, however, poorly active on both tissues. Structure-activity relationships and apparent tissue selectivity are discussed.     

Mitochondrial DNA and Alzheimer’s disease: a first case–control study of the Tunisian population

Molecular Biology Reports - Alzheimer’s disease (AD) is the most common neurodegenerative disorder in humans and presents a major health problem throughout the world. The etiology of AD is...     

Effect of reactive oxygen species on NH4+ permeation in Xenopus laevis oocytes

To investigate theeffects of reactive oxygen species (ROS) on NHpermeation in Xenopus laevis oocytes, we used intracellulardouble-barreled microelectrodes to monitor the changes in membranepotential (V_m) and intracellular pH(pH_i) induced by a 20 mM NH₄Cl-containingsolution. Under control conditions, NH₄Cl exposure induceda large membrane depolarization (to V_m = 4.0 ± 1.5 mV; n = 21) and intracellularacidification [reaching a change in pH_i(pH_i) of 0.59 ± 0.06 pH units in 12 min]; theinitial rate of cell acidification (dpH_i/dt) was0.06 ± 0.01 pH units/min. Incubation of the oocytes in thepresence of H₂O₂ or -amyloid protein had nomarked effect on the NH₄Cl-induced pH_i. Bycontrast, in the presence of photoactivated rose bengal (RB),tert-butyl-hydroxyperoxide (t-BHP), orxanthine/xanthine oxidase (X/XO), the same experimental maneuverinduced significantly greater pH_i anddpH_i/dt. These increases in pH_iand dpH_i/dt were prevented by the ROS scavengershistidine and desferrioxamine, suggesting involvement of the reactivespecies ¹gO₂ and ·OH. Using thevoltage-clamp technique to identify the mechanism underlying theROS-measured effects, we found that RB induced a large increase in theoocyte membrane conductance (G_m). ThisRB-induced G_m increase was prevented by 1 mMdiphenylamine-2-carboxylate (DPC) and by a low Na⁺concentration in the bath. We conclude that RB, t-BHP, andX/XO enhance NH influx into the oocyte via activationof a DPC-sensitive nonselective cation conductance pathway.

     

Experiments in searching small proteins in unannotated large eukaryotic genomes

There is growing interest to use mass spectrometry data to search genome sequences directly. Previous work by other authors demonstrated that this approach is able to correct and complement available genome annotations. We discuss the practical difficulty of searching large eukaryotic genomes with peptide ion trap tandem mass spectra of small proteins (<40 kDa). The challenging problem of automatically identifying peptides that span across exon/intron boundaries is explored for the first time by using experimental data. In a human genome search, we find that roughly 30% of the peptides are missed, due to various reasons, compared to a Swiss-Prot search. We show that this percentage is significantly reduced with improved parent mass accuracy. We finally provide several examples of predicted gene structures that could be improved by proteomics data, in particular by peptides spanning across exon/intron boundaries.     

Corticotropin-releasing hormone contributes to the peripheral inflammatory response in experimental autoimmune encephalomyelitis

Peripheral corticotropin-releasing hormone (CRH) is thought to have proinflammatory effects. We used the model of experimental autoimmune encephalomyelitis (EAE) to study the role of CRH in an immune-mediated disease. We showed that CRH-deficient mice are resistant to EAE, with a decrease in clinical score as well as decreased cellular infiltration in the CNS. Furthermore, Ag-specific responses of primed T cells as well as anti-CD3/anti-CD28 TCR costimulation were decreased in crh(-/-) mice with decreased production of Th1 cytokines and increased production of Th2 cytokines. Wild-type mice treated in vivo with a CRH antagonist showed a decrease in IFN-gamma production by primed T cells in vitro. This effect of CRH is independent of its ability to increase corticosterone production, because adrenalectomized wild-type mice had similar disease course and severity as control mice. We found that IkappaBalpha phosphorylation induced by TCR cross-linking was decreased in crh(-/-) T cells. We conclude that peripheral CRH exerts a proinflammatory effect in EAE with a selective increase in Th1-type responses. These findings have implications for the treatment of Th1-mediated diseases such as multiple sclerosis.     

The cell cycle associated protein, HTm4, is expressed in differentiating cellsof the hematopoietic and central nervous system in mice

HTm4 is a member of a newly defined family of human and murine proteins, the MS4 (membrane-spanning four) protein group, which has a distinctive four-transmembrane structure. MS4 protein functions include roles as cell surface signaling receptors and intracellular adapter proteins. We have previously demonstrated that HTm4 regulates the function of the KAP phosphatase, a key regulator of cell cycle progression. In humans, the expression of HTm4 is largely restricted to cells of the hematopoietic lineage, possibly reflecting a causal role for this molecule in differentiation/proliferation of hematopoietic lineage cells. In this study, we show that, like the human homologue, murine HTm4 is also predominantly a hematopoietic protein with distinctive expression patterns in developing murine embryos and in adult animals. In addition, we observed that murine HTm4 is highly expressed in the developing and adult murine nervous system, suggesting a previously unrecognized role in central and peripheral nervous system development.JLK and XY contributed equally to this work     

Defining Th1 and Th2 immune responses in a reciprocal cytokine environment in vivo

The ability of committed Th1 and Th2 cells to function in altered cytokine environments is a central issue in autoimmune and immune-mediated diseases. Therefore, it is of interest to study the ability of Th1 or Th2 cells to expand and produce cytokine reciprocal environments in vivo. Using STAT4- and STAT6-deficient mice, we studied the expansion and cytokine production of Ag-specific Th1 or Th2 cells after transfer into Th1, Th2, or wild-type recipients. Our data show that these Th1 or Th2 cells proliferated and clonally expanded normally, regardless of the in vivo cytokine environment. These data have implications for the treatment of immune-mediated diseases by immunomodulatory agents that alter the cytokine milieu in vivo.