Effects of gliotoxin on Langerhans' cell function: contact hypersensitivity responses and skin graft survival

Abstract

Dendritic Langerhans' cells (LC), which are essential for the induction of cutaneous immunity, express high concentrations of class II major histocompatibility (MHC) glycoproteins (Ia in the mouse) on their plasma membrane. Application of gliotoxin, a member of the epipolythiodoxopiperazine (ETP) group of fungal metabolites, reduces epidermal LC density and alters their morphology from highly dendritic to a more rounded form. Here we demonstrate that gliotoxin also alters LC function, reducing contact hypersensitivity (CHS) responses due to the development of suppressor cells, and enhancing C57BL tail skin graft survival on BALB/c recipients. The reduction in LC density following gliotoxin application was shown to enhance skin graft survival, by reducing the concentration of Ia antigens within the graft, by using congenic mouse strains: B10.A(2R) x B10.A, differing only at H-2D, and B10.A(2R) x B10.A(4R), differing only at H-2 I-E. Treatment of B10.A(2R) tail skin with gliotoxin for 1 week did not affect its survival when grafted onto H-2D-disparate B10.A mice, whereas, when grafted onto H-2 I-E-disparate B10.A(4R) hosts, the grafts were not only accepted permanently, but induced specific unresponsiveness. It is concluded that gliotoxin has a marked effect on LC function, inhibiting CHS responses by the induction of suppressor cells and prolonging graft survival between H-2-disparate and congenic mouse strains.