RATIONALE: The receptor for advanced glycation end products (RAGE) engages a number of ligands implicated in inflammatory processes. The RAGE coding gene maps to the 6p21.32 region, close to the genes DRB1 and BTNL2, which are associated with sarcoidosis. OBJECTIVES: We investigated a possible implication of RAGE in sarcoid granulomas. METHODS: RAGE and major ligands (N-epsilon-carboxy-methyl-lysine [CML], S100A12, and S100B) expression was investigated by immunostaining of 99 paraffin-embedded biopsies of sarcoid tissues, and expression patterns were determined. Among the three RAGE gene single-nucleotide polymorphisms investigated, -374 T/A was selected, characterized in terms of transcriptional effect (immunocytochemistry and real-time polymerase chain reaction), and its frequency was determined in DNA extracted from biopsies. MEASUREMENTS AND RESULTS: RAGE, CML, S100A12, and S100B immunoreactivity was observed in all sarcoid granulomas, although at different intensities. The degree of RAGE expression significantly correlated with the degree of S100A12 expression. The -374 TT/AT genotypes, associated with higher RAGE transcriptional activity, were more frequent in the sarcoidosis biopsy group than in control subjects, and the association was confirmed in a second, independent series of 101 patients with sarcoidosis. CONCLUSIONS: We showed the association of RAGE and its ligands with sarcoidosis and suggest that an intrinsic genetic factor could be in part involved in its expression. In Italian patients, the -374 T/A polymorphism seems to be significantly associated with this disease.
RATIONALE: The receptor for advanced glycation end products (RAGE) engages a number of ligands implicated in inflammatory processes. The RAGE coding gene maps to the 6p21.32 region, close to the genes DRB1 and BTNL2, which are associated with sarcoidosis. OBJECTIVES: We investigated a possible implication of RAGE in sarcoid granulomas. METHODS:RAGE and major ligands (N-epsilon-carboxy-methyl-lysine [CML], S100A12, and S100B) expression was investigated by immunostaining of 99 paraffin-embedded biopsies of sarcoid tissues, and expression patterns were determined. Among the three RAGE gene single-nucleotide polymorphisms investigated, -374 T/A was selected, characterized in terms of transcriptional effect (immunocytochemistry and real-time polymerase chain reaction), and its frequency was determined in DNA extracted from biopsies. MEASUREMENTS AND RESULTS:RAGE, CML, S100A12, and S100B immunoreactivity was observed in all sarcoid granulomas, although at different intensities. The degree of RAGE expression significantly correlated with the degree of S100A12 expression. The -374 TT/AT genotypes, associated with higher RAGE transcriptional activity, were more frequent in the sarcoidosis biopsy group than in control subjects, and the association was confirmed in a second, independent series of 101 patients with sarcoidosis. CONCLUSIONS: We showed the association of RAGE and its ligands with sarcoidosis and suggest that an intrinsic genetic factor could be in part involved in its expression. In Italian patients, the -374 T/A polymorphism seems to be significantly associated with this disease.
Authors: Edward S Chen; Zhimin Song; Matthew H Willett; Shannon Heine; Rex C Yung; Mark C Liu; Steve D Groshong; Ying Zhang; Rubin M Tuder; David R Moller Journal: Am J Respir Crit Care Med Date: 2009-11-12 Impact factor: 21.405
Authors: Annika Wolin; Elisa Laura Lahtela; Verneri Anttila; Martin Petrek; Johan Grunewald; Coline H M van Moorsel; Anders Eklund; Jan C Grutters; Vitezslav Kolek; Frantisek Mrazek; Amit Kishore; Leonid Padyukov; Anne Pietinalho; Marcus Ronninger; Mikko Seppänen; Olof Selroos; Marja-Liisa Lokki Journal: Front Immunol Date: 2017-04-19 Impact factor: 7.561