These cells also regulate the immune response through secretion of IL-10 and TGFβ, and it is possible that they are involved in immunoregulation in spirocercosis. One weakness of the current study is that tissue sampling
was not standardized. Unfortunately, this is the reality when utilizing clinical cases, especially in a retrospective study. The cell counting was also limited to a single section. However, because this is primarily a descriptive study, we believe the results are valid. Moreover, in the search for Tregs, we tried to augment the chances for finding them by limiting the count to areas with high CD3+ cells presence (based on the lymph node findings and pilot observations), Palbociclib Selleckchem Erlotinib and yet, we met with limited success. Therefore, the lack of FoxP3+ cells in most of the S. lupi nodules seems reliable. The study also provides unique in situ morphologic picture of the FoxP3+ infiltrate, in which no dog study has reported. The key question in spirocercosis remains:
What is the trigger for the transformation from the chronic inflammatory, fibroblastic nodule to sarcoma? This transformation may be triggered by the inflammatory response or, alternatively, via worm excretory/secretory (ES) products. Recent studies have shown that ES products from O. viverrini, a helminth that induces cholangiocarcinoma in humans, increased fibroblast cell proliferation in cell cultures (37). However, the theory of stimulation of cells in the nodule by the worm does not completely exclude the inflammatory mediation hypothesis, because other studies have shown that O. viverrini ES products up-regulate the expression of TGFβ, which may represent an indirect carcinogenic effect via immunosuppression (38). Many studies have elucidated the role played Farnesyltransferase by helminth ES products in the modulation of the immune response, especially via the inhibition of innate cell functions and induction of a Th2 response (39). Such mechanisms clearly warrant further
investigation whether we are to understand the pathogenesis of S. lupi-induced sarcoma. This study was funded by Petplan Charitable Trust. The authors would like to thank Jeanie Finlayson, Dr Julio Benavides and the Histopathology laboratory at Moredun Research Institute, and Neil McIntyre at the Royal (Dick) School of Veterinary Studies, for assistance with immunohistochemical staining and analysis. “
“The proto-oncogenes Myc and Pim1, which are deregulated in many types of cancers, are known to cooperate in B lymphoma development. Here we show that overexpression of retrovirally transduced, doxycycline-inducible Myc alone in IL-7-deprived, growth-arrested pre-B cells enhanced cell cycle entry without impairing apoptosis. Overexpression of Pim1 decreased apoptosis, but had no effect on cell cycle entry.