Tetsuo Shiohara1, Yoshiko Mizukawa, Yuichi Teraki. 1. Department of Dermatology, Kyorin University School of Medicine, 6-20-2 Shinkawa, Mitaka, Tokyo 181-8611, Japan. tpshio@kyorin-u.ac.jp
Abstract
PURPOSE OF REVIEW: Fixed drug eruption is a distinct variant of drug-induced dermatoses characterized by their relapse in the same location after the administration of the causative drug. We have recently shown that intraepidermal CD8+ T cells phenotypically resembling effector memory T cells are greatly enriched in the resting lesions of FDE. Although effector memory T cells have been implicated as the mediators of protection in epithelial tissues, our observation raises an alternative possibility that improper, enhanced or uncontrolled activation of intraepidermal T cells could contribute to severe tissue injury. Until recently, however, their detrimental effects on epithelial tissues have rarely been examined. The focus of this review is on how intra-epidermal T cells originally evolved to protect tissue integrity can exert an opposite action that is deleterious to the host. RECENT FINDINGS: Because those T cells residing in the lesions, upon activation, can rapidly produce large amounts of IFN-gammaepsilon followed by localized epidermal injury, their activation is probably essential for the initiation of deleterious inflammatory responses in the lesions. The activity of these potent effector T cells is therefore carefully controlled to prevent unwanted tissue injury under physiological conditions. A complex interplay of stop and go signals to the skin-resident T cells provides a delicate balance between cell death and survival, thereby determining the degree and outcome of inflammation generated in response to pathogens or antigens. SUMMARY: This consideration may provide important insights into the way in which skin-resident T cells maintain immunological homeostasis in the skin.
PURPOSE OF REVIEW: Fixed drug eruption is a distinct variant of drug-induced dermatoses characterized by their relapse in the same location after the administration of the causative drug. We have recently shown that intraepidermal CD8+ T cells phenotypically resembling effector memory T cells are greatly enriched in the resting lesions of FDE. Although effector memory T cells have been implicated as the mediators of protection in epithelial tissues, our observation raises an alternative possibility that improper, enhanced or uncontrolled activation of intraepidermal T cells could contribute to severe tissue injury. Until recently, however, their detrimental effects on epithelial tissues have rarely been examined. The focus of this review is on how intra-epidermal T cells originally evolved to protect tissue integrity can exert an opposite action that is deleterious to the host. RECENT FINDINGS: Because those T cells residing in the lesions, upon activation, can rapidly produce large amounts of IFN-gammaepsilon followed by localized epidermal injury, their activation is probably essential for the initiation of deleterious inflammatory responses in the lesions. The activity of these potent effector T cells is therefore carefully controlled to prevent unwanted tissue injury under physiological conditions. A complex interplay of stop and go signals to the skin-resident T cells provides a delicate balance between cell death and survival, thereby determining the degree and outcome of inflammation generated in response to pathogens or antigens. SUMMARY: This consideration may provide important insights into the way in which skin-resident T cells maintain immunological homeostasis in the skin.
Authors: Simone Schmid; Petra C Kuechler; Markus Britschgi; Urs C Steiner; Nikhil Yawalkar; Alain Limat; Kurt Baltensperger; Lasse Braathen; Werner J Pichler Journal: Am J Pathol Date: 2002-12 Impact factor: 4.307