P. Kaiser scite author profile

Histomonosis is a disease of poultry caused by Histomonas meleagridis. Chickens usually recover while the mortality rate in turkeys is high. The immunological response of both species towards H. meleagridis was investigated. Parasites migrated in greater numbers to the turkey liver compared with that of chicken. Chicken mounted an effective caecal innate response, with increased expression of IL-1beta, CXCLi2 and IL-6 mRNA, resulting in control of parasite numbers. The turkey failed to mount such an effective innate response in the caecal tonsil, allowing greater numbers to migrate to the liver, where a sustained, uncontrolled immune response was mounted, evidenced by the upregulation of mRNA for IL-1beta, CXCLi2, IFN-gamma, IL-13, IL-4 and IL-10. Expression levels of mRNA of the chicken and turkey beta-defensin AvBD2 suggest that this response was not limited to the cytokines. There was an influx of CD4+, CD8alpha+, CD28+ and CD44+ cells into the livers of both species, coinciding with parasite movement. These influxes were more pronounced in the turkey, correlating with a decrease in numbers of the same cells in the spleen, which was not observed in the chicken. Antibody levels in the chicken increased more than those in the turkey, supporting evidence of an adaptive response.

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The kinetics of force‐induced cell reorganization depend on microtubules and actin

Goldyn

Kaiser

Spatz

et al. 2010

Cytoskeleton

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The cytoskeleton is an important factor in the functional and structural adaption of cells to mechanical forces. In this study we investigated the impact of microtubules and the acto-myosin machinery on the kinetics of force-induced reorientation of NIH3T3 fibroblasts. These cells were subjected to uniaxial stretching forces that are known to induce cellular reorientation perpendicular to the stretch direction. We found that disruption of filamentous actin using cytochalasin D and latrunculin B as well as an induction of a massive unpolarized actin polymerization by jasplakinolide, inhibited the stretch-induced reorientation. Similarly, blocking of myosin II activity abolished the stretch-induced reorientation of cells but, interestingly, increased their motility under stretching conditions in comparison to myosin-inhibited nonstretched cells. Investigating the contribution of microtubules to the cellular reorientation, we found that, although not playing a significant role in reorientation itself, microtubule stability had a significant impact on the kinetics of this event. Overall, we conclude that acto-myosin, together with microtubules, regulate the kinetics of force-induced cell reorientation. © 2010 Wiley-Liss, Inc.

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Up Regulation of the Maternal Immune Response in the Placenta of Cattle Naturally Infected with Neospora caninum

et al. 2011

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Neospora caninum is an intracellular protozoan parasite which is a major cause of abortion in cattle worldwide. It forms persistent infections which recrudesce during pregnancy leading to foetal infection and in a proportion of cases, abortion. The mechanisms underlying abortion are not understood. In this study, recrudescence of a persistent infection in eight naturally infected cows occurred between 20 and 33 weeks of gestation. Animals were killed at the time of recrudescence and parasites were detected in the placentae and foetuses. An active maternal immune response consisting of an infiltration of CD4+ and CD8+ T cells and a 46–49 fold increase in interferon-γ and interleukin-4 mRNA was detected. Other cytokines, notably interleukin-12 p40, interleukin-10 and tumour necrosis factor-α were also significantly increased and Major Histocompatibility Class II antigen was expressed on maternal and foetal epithelial and stromal fibroblastoid cells. Significantly, despite the presence of an active maternal immune response in the placenta, all the foetuses were alive at the time of maternal euthanasia. There was evidence of parasites within foetal tissues; their distribution was restricted to the central nervous system and skeletal muscle and their presence was associated with tissue necrosis and a non-suppurative inflammatory response involving lymphocytes and macrophages, irrespective of the gestational age of the foetus. Whilst an active maternal immune response to a pathogen in the placenta is generally considered to be damaging to the foetal trophoblast, our findings suggest that the presence of a parasite-induced maternal immune response in the placenta is not detrimental to foetal survival but may contribute to the control of placental parasitosis.

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P. Kaiser

The immunobiology of avian systemic salmonellosis

The turkey, compared to the chicken, fails to mount an effective early immune response to Histomonas meleagridis in the gut

The kinetics of force‐induced cell reorganization depend on microtubules and actin

Up Regulation of the Maternal Immune Response in the Placenta of Cattle Naturally Infected with Neospora caninum

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