Gene up-regulation in response to predator kairomones in the water flea, Daphnia pulex

<p>Abstract</p> <p>Background</p> <p>Numerous cases of predator-induced polyphenisms, in which alternate phenotypes are produced in response to extrinsic stimuli, have been reported in aquatic taxa to date. The genus <it>Daphnia </it>(Branchiopoda, Cladocera) provides a model experimental system for the study of the developmental mechanisms and evolutionary processes associated with predator-induced polyphenisms. In <it>D. pulex</it>, juveniles form neckteeth in response to predatory kairomones released by <it>Chaoborus </it>larvae (Insecta, Diptera).</p> <p>Results</p> <p>Previous studies suggest that the timing of the sensitivity to kairomones in <it>D. pulex </it>can generally be divided into the embryonic and postembryonic developmental periods. We therefore examined which of the genes in the embryonic and first-instar juvenile stages exhibit different expression levels in the presence or absence of predator kairomones. Employing a candidate gene approach and identifying differentially-expressed genes revealed that the morphogenetic factors, <it>Hox3</it>, <it>extradenticle </it>and <it>escargot</it>, were up-regulated by kairomones in the postembryonic stage and may potentially be responsible for defense morph formation. In addition, the juvenile hormone pathway genes, <it>JHAMT </it>and <it>Met</it>, and the insulin signaling pathway genes, <it>InR </it>and <it>IRS-1</it>, were up-regulated in the first-instar stage. It is well known that these hormonal pathways are involved in physiological regulation following morphogenesis in many insect species. During the embryonic stage when morphotypes were determined, one of the novel genes identified by differential display was up-regulated, suggesting that this gene may be related to morphotype determination. Biological functions of the up-regulated genes are discussed in the context of defense morph formation.</p> <p>Conclusions</p> <p>It is suggested that, following the reception of kairomone signals, the identified genes are involved in a series of defensive phenotypic alterations and the production of a defensive phenotype.</p

Cost Evaluation of Basiliximab Treatment for Renal Transplant Patients in Japan

Background: International phase III studies (CHIB 201 and 352) showed that basiliximab, a high affinity chimeric monoclonal antibody interleukin-2 receptor antagonist, is highly effective in preventing acute rejection when used as immunoprophylaxis in patients receiving cyclosporin (Neoral(R)). We conducted a cost evaluation by applying international clinical results to standard Japanese medical practice. Objective: To evaluate the impact of basiliximab in renal transplant patients receiving conventional immunosuppressive therapy using cyclosporin and corticosteroids from the perspective of the healthcare payer in Japan. Study design: A decision tree model was developed, comprising seven pathways with key clinical events identified after the transplantation. The average first-year treatment costs after transplantation for patients treated with and without basiliximab were calculated using the model. A sensitivity analysis was done to measure the degree of influence of several criteria including the incidences of rejection, and rejection responding to steroid pulse therapy and antibody therapy. Methods: Estimates of key clinical events were derived from the international studies. Calculation of direct medical costs were made from the payers Main outcome measures and results: Basiliximab use produced an estimated saving of Yen315 Conclusions: If the cost of basiliximab is less than Yen315Basiliximab, Cost-analysis, Immunosuppressants, Interleukin-2-receptor-antagonists, Pharmacoeconomics, Renal-transplant-rejection

Lifestyle-related disease in Crohn’s disease: Relapse prevention by a semi-vegetarian diet

AIM: To investigate whether semi-vegetarian diet (SVD) has a preventive effect against relapse of Crohn’s disease (CD) in patients who have achieved remission, who are a high-risk group for relapse

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Influence of regular exercise training on post-exercis

Dual barrier system against xenomitochondrial contamination in mouse embryos

Abstract Heteroplasmic mammalian embryos between genetically distant species fail to develop to term, preventing transmission of xenomitochondrial DNA to progeny. However, there is no direct evidence indicating the mechanisms by which species specificity of the mitochondrial genome is ensured during mammalian development. Here, we have uncovered a two-step strategy underlying the prevention of xenomitochondrial DNA transmission in mouse embryos harboring bovine mitochondria (mtB-M embryos). First, mtB-M embryos showed metabolic disorder by transient increase of reactive oxygen species at the 4-cell stage, resulting in repressed development. Second, trophoblasts of mtB-M embryos led to implantation failure. Therefore, we tested cell aggregation with tetraploid embryos to compensate for the placentation of mtB-M embryos. The 14 mtB-M embryos harboring bovine mtDNAs developed to term at embryonic day 19.5. Taken together, our results show that contamination of bovine mtDNA is prohibited by embryonic lethality due to metabolic disruption and failure of placentation, suggesting these represent xenomitochondrial elimination mechanisms in mammalian embryos