Allergens of the urushiol family promote mitochondrial dysfunction by inhibiting the electron transport at the level of cytochromes b and chemically modify cytochrome c1

BACKGROUND: Urushiols are pro-electrophilic haptens that cause severe contact dermatitis mediated by CD8+ effector T-cells and downregulated by CD4+ T-cells. However, the molecular mechanism by which urushiols stimulate innate immunity in the initial stages of this allergic reaction is poorly understood. Here we explore the sub-cellular mechanisms by which urushiols initiate the allergic response. RESULTS: Electron microscopy observations of mouse ears exposed to litreol (3-n-pentadecyl-10-enyl-catechol]) showed keratinocytes containing swollen mitochondria with round electron-dense inclusion bodies in the matrix. Biochemical analyses of sub-mitochondrial fractions revealed an inhibitory effect of urushiols on electron flow through the mitochondrial respiratory chain, which requires both the aliphatic and catecholic moieties of these allergens. Moreover, urushiols extracted from poison ivy/oak (mixtures of 3-n-pentadecyl-8,11,13 enyl/3-n-heptadecyl-8,11 enyl catechol) exerted a higher inhibitory effect on mitochondrial respiration than did pentadecyl catechol or litreol, indicating that the higher number of unsaturations in the aliphatic chain, stronger the allergenicity of urushiols. Furthermore, the analysis of radioactive proteins isolated from mitochondria incubated with 3H-litreol, indicated that this urushiol was bound to cytochrome c1. According to the proximity of cytochromes c1 and b, functional evidence indicated the site of electron flow inhibition was within complex III, in between cytochromes bL (cyt b566) and bH (cyt b562). CONCLUSION: Our data provide functional and molecular evidence indicating that the interruption of the mitochondrial electron transport chain constitutes an important mechanism by which urushiols initiates the allergic response. Thus, mitochondria may constitute a source of cellular targets for generating neoantigens involved in the T-cell mediated allergy induced by urushiols.

Mucin allows survival of Salmonella typhi within mouse peritoneal macrophages

Salmonella typhi is a facultative intracellular human specific pathogen. Both immunocompetent and immunodeficient mice are resistant to S. typhi. However, when they are infected with S. typhi suspended in mucin, the bacteria become pathogenic and infect peritoneal phagocytic cells. The LD50 for mice was 10(5) bacteria suspended in 5 percent mucin; mouse survival was approximately 48 hours after injection. A high number of bacteria was recovered from peritoneal cells; transmission electron microscopy disclosed a large number of vesicles filled with S. typhi cells in peritoneal cells from infected animals. The addition of mucin to cultures of the reticuloendothelial cell line J774.3 also allowed invasion of the mammalian cells with S. typhi. These data indicate that mucin allows intracellular survival of S. typhi

Síntesis y secreción del antígeno de superficie del virus de hepatitis B en cultivo de células animales / Synthesis and secretion of the surface antigen from hepatitis B virus in animal cell cultures

Mediante técnicas de ingeniería genética se ha logrado obtener líneas estables de células animales que sintetizan y secretan eficientemente partículas de antígeno de superficie del virus de la hepatitis B. Estas partículas presentan al microscopio electrónico un tamaño de 22 nm y son estructuralmente e inmunogénicamente similares a las obtenidas de plasma de enfermos crónicos, por lo que constituyen una excelente fuente de antígeno para la elaboración de una vacuna contra el virus