Abstract
Lupus erythematosus (LE) is an autoimmune disease which can be triggered by environmental factors such as solar irradiation. It has long been observed that especially ultraviolet (UV) exposure can induce and exacerbate skin lesions in patients with this disease. However, despite the frequency of photosensitivity in LE, the mechanisms by which UV irradiation activates autoimmune responses is only now becoming increasingly unfolded by advanced molecular and cellular biological investigations. Phototesting, according to a standardized protocol with UVA and UVB irradiation has proven to be a valid model to study photosensitivity in various subtypes of LE and to evaluate the underlying pathomechanisms of this disease. Detailed analysis of the molecular events that govern lesion formation in experimentally photoprovoced LE showed increased accumulation of apoptotic keratinocytes and impaired expression of the inducible nitric oxide synthase (iNOS). In the near future, gene expression profiling and proteomics will further increase our knowledge on the complexity of the “UV response” in LE. This review summarizes the current understanding of the clinical and molecular mechanisms that initiate photosensitivity in this disease.
Acknowledgements
This work was supported by Heisenberg professorships from the German Research Association (DFG) to A. K. (KU 1559/1-1) and to S. B. (BE 1580/6-2) and by a grant from the DFG to S.B. (SFB 293; BE 1580-71-1) and by the IZKF, Münster, Germany.