Sod2-/- mice, which are deficient in the mitochondrial form of superoxide dismutase (MnSOD), have a short survival time that is strongly affected by genetic background. This suggests the existence of genetic modifiers that are capable of modulating the degree of mitochondrial oxidative damage caused by the MnSOD deficiency, thereby altering longevity. To identify these modifier(s), we generated recombinant congenic mice with quantitative trait loci (QTL) containing the putative genetic modifiers on the short-lived C57BL/6J genetic background. MnSOD deficient C57BL/6J mice with a QTL from the distal region of chromosome 13 from DBA/2J were able to survive for as long as those generated on the long-lived DBA/2J background. Within this region, the gene encoding nicotinamide nucleotide transhydrogenase (Nnt) was found to be defective in C57BL/6J mice, and no mature NNT protein could be detected. The forward reaction of NNT, a nuclear-encoded mitochondrial inner membrane protein, couples the generation of NADPH to proton transport and provides NADPH for the regeneration of two important antioxidant compounds, glutathione and thioredoxin, in the mitochondria. This action of NNT could explain its putative protective role in MnSOD-deficient mice.
The segmental trisomy model, Ts65Dn, has been a valuable resource for the study of the molecular and developmental processes associated with the pathogenesis of Down syndrome. However, male infertility and poor transmission of the small marker chromosome, T(17(16))65Dn, carrying the distal end of mouse Chromosome 16 (MMU16) are limiting factors in the efficient production of these animals for experimental purposes. We describe here the identification and preliminary characterization of mice, designated Ts[Rb(12.17(16))]2Cje, carrying a chromosomal rearrangement of the Ts65Dn genome whereby the marker chromosome has been translocated to Chromosome 12 (MMU12) forming a Robertsonian chromosome. This stable rearrangement confers fertility in males and increases the frequency of transmitted segmental trisomy through the female germline. We confirm retention of a dosage imbalance of human Chromosome 21 (HSA21)-homologous genes from App to the telomere and expression levels similar to Ts65Dn within the triplicated region. In addition, we characterized the dendritic morphology of granule cells in the fascia dentata in Ts[Rb(12.17(16))2Cje and 2N control mice. Quantitative confocal microscopy revealed decreased spine density on the dendrites of dentate granule cells and significantly enlarged dendritic spines affecting the entire population in Ts[Rb(12.17(16))]2Cje as compared to 2N controls. These findings document that the structural dendritic spine abnormalities are similar to those previously observed in Ts65Dn mice. We conclude that this new model of Down syndrome offers reproductive advantages without sacrificing the integrity of the Ts65Dn model.
To distinguish the role of Mn superoxide dismutase (MnSOD) from that of cytoplasmic CuZn superoxide dismutase (CuZnSOD), the mouse MnSOD gene (Sod2) was inactivated by homologous recombination. Sod2 -/- mice on a CD1 (outbred) genetic background die within the first 10 days of life (mean, 5.4 days) with a complex phenotype that includes dilated cardiomyopathy, accumulation of lipid in liver and skeletal muscle, metabolic acidosis and ketosis, and a severe reduction in succinate dehydrogenase (complex II) and aconitase (a TCA cycle enzyme) activities in the heart and, to a lesser extent, in other organs. These findings indicate that MnSOD is required to maintain the integrity of mitochondrial enzymes susceptible to direct inactivation by superoxide. On the other hand, Lebovitz et al. reported an independently derived MnSod null mouse (Sod2tmlLeb) on a mixed C57BL/6 and 129Sv background with a different phenotype. Because a difference in genetic background is the most likely explanation for the phenotypic differences, the two mutant lines were crossed into different genetic backgrounds for further analyses. To study the phenotype of Sod2tmlLeb mice CD1 background, the Sod2tmlLeb mice were crossed to CD1 for two generations before the -/+ mice were intercrossed to generate -/- mice. The life span distribution of CD1 < Sod2-/- > Leb was shifted to the left, indicating a shortened life span on the CD1 background. Furthermore, the CD1 < Sod2-/- > Leb mice develop metabolic acidosis at an early stage as was observed with CD1 < Sod2-/- > Cje. When Sod2tmlCje was placed on C57BL/6J (B6) background, the -/- mice were found to die either during midgestation or within the first 4 days after birth. However, when the B6 < Sod2 -/+ > Cje were crossed with DBA/2J (D2) for the generation of B6D2F2 < Sod2-/- > Cje mice, an entirely different phenotype, similar to that described by Lebovitz et al., was observed. The F2 Sod -/- mice were able to survive up to 18 days, and the animals that lived for more than 15 days displayed neurological abnormalities including ataxia and seizures. Their hearts were not as severely affected as were those of the CD1 mice, and neurological degeneration rather than heart defect appears to be the cause of death.
Background CpG-containing oligodeoxynucleotides (CpG-ODN) are potent inhibitors of Th2-mediated allergic airway disease in sensitized mice challenged with allergen. A single treatment has transient effects but a limited series of treatments has potential to achieve clinically meaningful sustained inhibition of allergic airway disease. Objective To optimize the treatment regimen and determine the mechanisms of action in mice of an inhaled form of CpG-ODN being developed for human asthma treatment. Methods A limited series of weekly intranasal 1018 ISS (CpG-ODN; B-class) treatments were given to ragweed allergen-sensitized mice chronically exposed to allergen during and after the 1018 ISS treatment regimen. Treatment effects were evaluated by measuring effect on lung Th2 cytokines and eosinophilia as well as lung dendritic cell function and T cell responses. Results Twelve intranasal 1018 ISS treatments induced significant suppression of BAL eosinophilia and IL-4, IL-5, and IL-13 levels and suppression was maintained through 13 weekly ragweed exposures administered after treatment cessation. At least 5 treatments were required for lasting Th2 suppression. CpG-ODN induced moderate Th1 responses but Th2 suppression did not require IFN-γ. Th2 suppression was associated with induction of a regulatory T cell response. Conclusion A short series of CpG-ODN treatments results in sustained suppression of allergic lung inflammation induced by a clinically relevant allergen.
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