INTRODUCTION: The receptor for advanced glycation end products (RAGE) is a pattern recognition receptor expressed in tissues and cells, which plays a role in immunity. The activation of RAGE results in the translocation of nuclear factor kappa B (NF-κB) to the nucleus for expression of proinflammatory molecules. The role of the RAGE pathway in the pathogenesis of diabetic complications is well determined. We aimed to investigate the role of the RAGE pathway in axonal and vasculitic neuropathy. METHODS: We immunoreacted nerve biopsy samples from 17 axonal neuropathy (AN), 11 vasculitic neuropathy (VN) and 12 hereditary neuropathy (as a control group) with liability to pressure palsy (HNPP) patients with antibodies to NF-κB and RAGE. Subsequently, we performed double staining with the antibodies to NF-κB or RAGE and T cells, macrophages and Schwann cells. RESULTS: RAGE and NF-κB immunoreactivities were higher in the perivascular cuff and in endoneurial cells in VN than in AN and HNPP. Although there is no significant difference, nerve biopsies with AN showed higher NFκB and RAGE immunoreactivities than HNPP. The colocalization study showed that most of the NFκB- and RAGE-positive cells were CD8 (+) T cells in VN. In AN, all NFκB- and RAGE-positive cells were macrophages, whereas all NFκB- and RAGE-positive cells were Schwann cells in HNPP. CONCLUSION: The activation of the RAGE pathway predominant in CD8 (+) T cells underscores its role in VN. In AN patients, the immunoreactivity to NFκB and RAGE in macrophages may support their role in axonal degeneration without inflammatory milieu.
INTRODUCTION: The receptor for advanced glycation end products (RAGE) is a pattern recognition receptor expressed in tissues and cells, which plays a role in immunity. The activation of RAGE results in the translocation of nuclear factor kappa B (NF-κB) to the nucleus for expression of proinflammatory molecules. The role of the RAGE pathway in the pathogenesis of diabetic complications is well determined. We aimed to investigate the role of the RAGE pathway in axonal and vasculitic neuropathy. METHODS: We immunoreacted nerve biopsy samples from 17 axonal neuropathy (AN), 11 vasculitic neuropathy (VN) and 12 hereditary neuropathy (as a control group) with liability to pressure palsy (HNPP) patients with antibodies to NF-κB and RAGE. Subsequently, we performed double staining with the antibodies to NF-κB or RAGE and T cells, macrophages and Schwann cells. RESULTS:RAGE and NF-κB immunoreactivities were higher in the perivascular cuff and in endoneurial cells in VN than in AN and HNPP. Although there is no significant difference, nerve biopsies with AN showed higher NFκB and RAGE immunoreactivities than HNPP. The colocalization study showed that most of the NFκB- and RAGE-positive cells were CD8 (+) T cells in VN. In AN, all NFκB- and RAGE-positive cells were macrophages, whereas all NFκB- and RAGE-positive cells were Schwann cells in HNPP. CONCLUSION: The activation of the RAGE pathway predominant in CD8 (+) T cells underscores its role in VN. In AN patients, the immunoreactivity to NFκB and RAGE in macrophages may support their role in axonal degeneration without inflammatory milieu.
Authors: Michael P Collins; P James B Dyck; Gary S Gronseth; Loïc Guillevin; Robert D M Hadden; Dieter Heuss; Jean-Marc Léger; N C Notermans; John D Pollard; Gérard Said; Gen Sobue; A F J E Vrancken; John T Kissel Journal: J Peripher Nerv Syst Date: 2010-09 Impact factor: 3.494
Authors: Ling Ling Rong; Werner Trojaborg; Wu Qu; Konstantin Kostov; Shi Du Yan; Clifton Gooch; Matthias Szabolcs; Arthur P Hays; Ann Marie Schmidt Journal: FASEB J Date: 2004-12 Impact factor: 5.191
Authors: J C Jennette; R J Falk; P A Bacon; N Basu; M C Cid; F Ferrario; L F Flores-Suarez; W L Gross; L Guillevin; E C Hagen; G S Hoffman; D R Jayne; C G M Kallenberg; P Lamprecht; C A Langford; R A Luqmani; A D Mahr; E L Matteson; P A Merkel; S Ozen; C D Pusey; N Rasmussen; A J Rees; D G I Scott; U Specks; J H Stone; K Takahashi; R A Watts Journal: Arthritis Rheum Date: 2013-01