It has been reported that translocation of its receptor DCC (deleted in colorectal
cancer) from an intracellular pool to the plasma membrane enhances outgrowth of rat spinal commissural axons in response to netrin-1 (Bouchard et al., 2004). To find out whether netrin-1 induces DCC translocation in cerebral cortical neurons, we examined changes in the level and distribution of DCC at the surface of hamster dissociated cortical axons in response to netrin-1. At the surface of cortical axon shafts, we observed selleck products netrin-1-evoked, exocytosis-dependent DCC clustering, which was accompanied by elevation of the DCC level. These changes in cell surface DCC occurred in axon shafts, but did not occur in growth cones. Taken together, these results indicate that cell surface DCC is modulated by netrin-1 through translocation of DCC to the plasma membrane via exocytosis in cerebral cortical neurons. (C) 2010 Elsevier Ireland
Ltd and the Japan Neuroscience Society. All rights reserved.”
“T cells detect infected and transformed cells via antigen presentation by major histocompatibility complex (MHC) molecules on the cell surface. For T cell stimulation, these MHC molecules present fragments of proteins that are expressed or taken up by the cell. These fragments are generated by distinct proteolytic mechanisms for presentation on MHC class I molecules to check details cytotoxic CD8(+) and on MHC class II molecules to helper CD4(+) T cells. Proteasomes are primarily involved in MHC class I ligand and lysosomes, in MHC class II ligand generation. Autophagy delivers cytoplasmic material to lysosomes and, therefore, contributes to cytoplasmic antigen presentation by MHC class II molecules. In addition, it has signaling pathway been recently realized that this process also supports extracellular antigen processing for MHC class
II presentation and cross-presentation on MHC class I molecules. Although the exact mechanisms for the regulation of these antigen processing pathways by autophagy are still unknown, recent studies, summarized in this review, suggest that they contribute to immune responses against infections and to maintain tolerance. Moreover, they are targeted by viruses for immune escape and could maybe be harnessed for immunotherapy.”
“This survey included 44 boar studs from Canada and the USA with a total of similar to 10,000 boars. Studs with 51-500 boars accounted for 84% of respondents. More than 90% of boars were housed in stalls. Evaporative and mechanical cooling sytems predominated and boars were typycally fed based on body condition. The predominant age of boars was 1-2 years with annual culling rates betwenn 20 and 70%. The primary reasons for culling included genetic improvement, semen quality and feet and leg issues. Collection occurred commonly on Mondays and Thursdays and boars were rested 3-7 days betwenn collections. The average sperm produced per boar per week was 51-150 billions and resulted in 21-40 doses per boar per week.