Dendritic cells release exosomes together with phagocytosed pathogen; potential implications for the role of exosomes in antigen presentation.

Dendritic cells (DC) have the unique capacity to activate naïve T cells by presenting T cell receptor specific peptides from exogenously acquired antigens bound to Major Histocompatibility Complex (MHC) molecules. MHC molecules are displayed on the DC plasma membrane as well as on extracellular vesicles (EV) that are released by DC, and both have antigen-presenting capacities. However, the physiological role of antigen presentation by EV is still unclear.

Bystander T-Cells Support Clonal T-Cell Activation by Controlling the Release of Dendritic Cell-Derived Immune-Stimulatory Extracellular Vesicles.

Extracellular vesicles (EV) that are released by immune cells are studied intensively for their functions in immune regulation and are scrutinized for their potential in human immunotherapy, for example against cancer. In our search for signals that stimulate the release of functional EV by dendritic cells we observed that LPS-activated human monocyte-derived dendritic cells (moDC) changed their morphological characteristics upon contact with non-cognate activated bystander T-cells, while non-activated bystander T-cells had no effect. Exposure to activated bystander T-cells also stimulated the release of EV-associated proteins by moDC, particularly CD63, and ICAM-1, although the extent of stimulation varied between individual donors.

Evaluation of radiographic and genetic aspects of hereditary subluxation of the radial head in Bouviers des Flandres.

Objective: To study radiographic and genetic aspects of hereditary radial head subluxation in Bouviers des Flandres.

Animals: 26 related Bouviers des Flandres affected with bilateral subluxation of the radial head, 10 unaffected related dogs, and 29 unrelated Bouviers des Flandres with diagnoses of nonskeletal diseases.

Procedures: All dogs were radiographically studied, and their DNA was analyzed with a genome-wide screen of 1,536 single nucleotide polymorphisms.

Trafficking of MHC class II in dendritic cells is dependent on but not regulated by degradation of its associated invariant chain.

In dendritic cells (DC), newly synthesized MHCII is directed to endosomes by its associated invariant chain (Ii). Here, Ii is degraded after which MHCII is loaded with peptides. In immature DC, ubiquitination of peptide-loaded MHCII drives its sorting to lysosomes for degradation.

Organization and concerted evolution of the ampliconic Y-chromosomal TSPY genes from cattle.

The Y-chromosomal gene TSPY (testis-specific protein Y-encoded) is probably involved in early spermatogenesis and has a variable copy number in different mammalian species. Analysis of bovine BAC clones leads to an estimate of 90 TSPY loci on the bovine Y chromosome. Half of these loci (TSPY-M1 and TSPY-M2) contain a single copy, while the other loci (TSPY-C) contain a cluster of three, possibly four, truncated pseudogenes.