ABSTRACT
Annular elastolytic giant cell granuloma (AEGCG) is a rare granulomatous skin condition. It belongs to a group of skin and elastic fiber disorders. When it affects sun-exposed skin, it is also called actinic granuloma. The etiology and pathogenesis are still debated. However, sun-induced actinic damage to elastic fibers is acknowledged as the primary triggering factor, though the pathogenesis of instances in sun-covered areas is unknown. The most commonly linked systemic illness is diabetes mellitus. Different case reports show an association of this disease with hematological conditions, infections, sarcoidosis, and protoporphyria. Multisystemic involvement was also reported in a case. The disease is clinically recognized by erythematous non-scaly annular patches and plaques with raised borders and hypopigmented or skin-colored centers, sometimes atrophic. It is usually asymptomatic or mildly itchy. The presence of an inflammatory infiltration with non-palisading granulomas, multinucleate large cells, elastin degradation, and elastophagocytosis, as well as the absence of necrobiosis and mucin, are histopathological characteristics. We report a 5-year history of annular elastolytic giant cell granuloma in a 66-year-old woman with a history of type two diabetes mellitus, hypertension, and fatty liver disease (steatosis). She presented with asymptomatic polymorphic erythematous skin lesions mainly in sun-exposed areas.
Subject(s)
Diabetes Mellitus , Granuloma, Giant Cell , Metabolic Syndrome , Photosensitivity Disorders , Female , Humans , Aged , Granuloma, Giant Cell/complications , Granuloma, Giant Cell/pathology , Metabolic Syndrome/complications , Elastin , Photosensitivity Disorders/complications , MucinsABSTRACT
In our previous work, we built the model of PPARγ dependent pathways involved in the development of the psoriatic lesions. Peroxisome proliferator-activated receptor gamma (PPARγ) is a nuclear receptor and transcription factor which regulates the expression of many proinflammatory genes. We tested the hypothesis that low levels of PPARγ expression promote the development of psoriatic lesions triggering the IL17-related signaling cascade. Skin samples of normally looking and lesional skin donated by psoriasis patients and psoriatic CD3+ Tcells samples (n = 23) and samples of healthy CD3+ T cells donated by volunteers (n = 10) were analyzed by real-time PCR, ELISA and immunohistochemistry analysis. We found that the expression of PPARγ is downregulated in human psoriatic skin and laser treatment restores the expression. The expression of IL17, STAT3, FOXP3, and RORC in psoriatic skin before and after laser treatment were correlated with PPARγ expression according to the reconstructed model of PPARγ pathway in psoriasis.In conclusion, we report that PPARγ weakens the expression of genes that contribute in the development of psoriatic lesion. Our data show that transcriptional regulation of PPARγ expression by FOSL1 and by STAT3/FOSL1 feedback loop may be central in the psoriatic skin and T-cells.