Проблемы увеличения продуктивности АПК в Украине и пути повышения его потенциала

Целью статьи является изучение причин снижения показателей продуктивности в агропромышленном комплексе и путей повышения продуктивности сельскохозяйственных культур

Killer Dendritic Cells Link Innate and Adaptive Immunity against Established Osteosarcoma in Rats

We have previously reported that a distinct subset of splenic CD4− rat dendritic cells (DC) induces a rapid and caspase-independent apoptosis-like cell death in a large number of tumor cells in vitro. The killing activity of these killer DC (KDC) was restricted to their immature state and was immediately followed by their engulfment of the apoptotic target cells, suggesting that these KDC could directly link innate and adaptive immunity to tumors. Here, we addressed this question using a transplantable model of rat osteosarcoma. First, we showed that rat KDC have an MHC II+CD103+CD11b+NKp46− phenotype and are therefore distinct from natural killer cells, which are MHC II−CD103−CD11b−NKp46+. KDC numbers could be specifically and strongly (up to 10-fold) enhanced by Flt3L in vivo. The OSRGa cell line derived from the osteosarcoma tumor was killed and phagocytosed in vitro by both normal and Flt3L-induced splenic KDC. Such tumor antigen–loaded KDC were used to s.c. vaccinate progressive tumor-bearing rats. Vaccination with OSRGa-loaded KDC but not KDC loaded with irrelevant tumor cells (Jurkat) delayed tumor progression or even induced tumor regression. This vaccine effect was not observed in CD8 T cell–depleted animals and protective against tumor rechallenge. These results suggest that KDC possess the intrinsic capability not only to kill and then engulf tumor cells but also to efficiently cross-present tumor cell–derived antigen in vivo and subsequently induce an adaptive antitumor immune response

Thymic stromal lymphopoietin does not activate human basophils.

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Impaired blood dendritic cell numbers and functions after aneurysmal subarachnoid hemorrhage.

PREVIOUS PRESENTATION: Portions of this study were presented at the Annual Congress of Société Française d'Anesthésie et de Réanimation in Paris, September 2012. BACKGROUND: Toll-like receptor (TLR) agonists are promising therapy for the prevention of nosocomial infections in critical ill patients. We aimed to analyze the TLR-reactivity of circulating dendritic cells (DC) as assessed by cytokine production after an ex vivo challenge with TLR agonists in aneurysmal subarachnoid hemorrhage (SAH) patients. METHODS AND FINDINGS: A single-center prospective observational study took place in one intensive care unit of a teaching hospital. Blood samples were harvested on days 2, 5 and 10 in 21 severe SAH patients requiring mechanical ventilation and 17 healthy controls. DC production of cytokines (Tumour Necrosis Factor, TNF-α; Interleukin, IL-12; and Interferon, IFN-α) was assessed by intracellular immunostaining on TLR-3, 4, 7/8 and 9 stimulations. SAH patients had decreased numbers of blood myeloid (mDCs) and plasmacytoid DCs (pDCs) on days 2, 5 and 10. Compared with the healthy controls, the frequency of mDCs producing TNF-α after TLR-3 stimulation was decreased in the SAH patients. The frequency of myeloid DCs producing IL-12 after TLR-3 and 4 stimulations was also decreased in the SAH patients. In contrast, the mDCs response to TLR-7/8 was not impaired in the SAH patients. The frequency of pDCs producing TNF-α(+) and IFN-α(+) on TLR-7/8 stimulation were reduced at all of the tested times in the SAH patients, whereas reactivity to TLR-9 was preserved. On day 2, the pDCs from non-survivor patients (n=8) had a decreased ability to produce IFN-α on TLR-9 stimulation compared with the survivors. CONCLUSIONS: These data suggest functional abnormalities of circulating pDCs and mDCs that could be important for immunomodulation after SAH