Contact allergens modulate the expression of MHC class II molecules on murine epidermal Langerhans cells by endocytotic mechanisms.

MHC class II molecules play an important role during the sensitization phase of allergic contact dermatitis. To study the influence of contact allergens on the expression of these molecules by murine epidermal Langerhans cells (LC), we performed a flow-cytofluorometric analysis of the Ia-antigen expression after in vivo application of contact allergens. A distinct decrease in the Ia-antigen expression of the entire LC population was noticed 3 h after in vivo application of the contact allergen 2,4-dinitrofluorobenzene (DNFB). This decrease was transient and balanced 24 h after in vivo application of DNFB. A downregulation was also detectable after in vivo application of the contact allergens 1-chloro-2,4-dinitrobenzene (DNCB), oxazolone, K2Cr2O7, 2,4,6-trinitrochlorobenzene (TNCB), and toxic concentrations of the irritant compound sodium dodecyl sulfate (SDS). In vitro studies showed that freshly prepared as well as 3-d cultured LC downregulated their Ia-antigen expression in the presence of DNFB, which was used as a model compound. This decrease was not inhibited by the MHC class II molecule transport-inhibitor brefeldin A nor by the ionophore monensin. The inhibition of receptor-mediated endocytosis with hypertonic media (0.45 M sucrose) abolished the DNFB-mediated downregulation of Ia-antigen expression. An accelerated clearance of cell-surface-expressed antibody-labeled IA molecules was detectable in the presence of DNFB. Internalization studies carried out with peroxidase-labeled anti-IA-antibody complexes showed remarkable alterations in the intracellular distribution of endocytosed material under the influence of subtoxic concentrations of DNFB, DNCB, K2Cr2O7, and TNCB. The irritant substance sodium dodecyl sulfate (SDS) influenced the intracellular distribution pattern of internalized material only when used in toxic concentrations. An augmented participation of MHC class II molecules in endocytotic processes is mediated by reactive substances like contact allergens and might contribute to the processing and presentation of these compounds.

Effect of leader peptide mutations on biosynthesis of the lantibiotic Pep5.

Lantibiotics are lanthionine-containing antibiotic peptides which are synthesized from ribosomal prepeptides by post-translational modification. In order to elucidate the function of a conserved motif in the N-terminal leader sequence of lantibiotic prepeptides, three amino acids were exchanged in the leader peptide sequence of the lantibiotic Pep5. Exchanging Phe-19 for Ser and Glu-16 for Lys in the FDLEI-motif, reduced Pep5 production to 35 and 38% of the control whereas, after exchanging Asp-6 for Ser and Glu-16 for Lys in the FDLEI-motif, reduced Pep5 production to 35 and 38% of the control whereas, after exchanging ASp-6 for Lys, the production was decreased only to 82%. Proteolytic fragments of Pep5 or incorrectly modified Pep5 molecules, indicative of incorrect modifications, were not found in the culture supernatant. Thus, in contrast to the biosynthesis of the lantibiotic nisin, the FDLEI-motif is not essential for biosynthesis of Pep5 and has no influence on correct ring formation or processing, but seems to be important for optimal biosynthesis rates.