Sophie Collardeau-Frachon1, Alexandre Vasiljevic1, Anne Jouvet1, Raymonde Bouvier1, Valérie Senée2, Marc Nicolino3. 1. Department of Pathology, Children and Mother's Hospital, Groupement Hospitalier Est, CHU de Lyon-Bron, France. 2. Medical Faculty Paris 7, Inserm UMR-S958, Paris, France. 3. Department of Endocrinology, Children and Mother's Hospital, Groupement Hospitalier Est, CHU de Lyon-Bron, France.
Abstract
BACKGROUND: Wolcott-Rallison syndrome (WRS) is a rare autosomal recessive disorder characterized by the association of permanent neonatal or early-infancy insulin-dependent diabetes, multiple bone dysplasia, hepatic dysfunction, and growth retardation. All clinical manifestations result from gene mutations encoding pancreatic endoplasmic reticulum eIF2 α kinase (PERK), an endoplasmic reticulum transmembrane protein that plays a role in the unfolded protein response. Histological and ultrastructural lesions of bone and pancreas have been described in animal models and WRS patients. However, histological and ultrastructural findings of other organs, especially of the liver, are lacking. METHODS: Autopsy specimens from two pediatric patients with WRS were analyzed. An immunohistochemical study was performed on the pancreas. An ultrastructural study was realized from samples of liver, pancreas, kidney, and myocardium. Our findings were compared with those of the literature and correlated with the molecular data. RESULTS: Hepatocytes and pancreatic exocrine cells exhibited very peculiar features of necrosis suggestive of secondary changes because of endoplasmic reticulum overload. Steatosis occurred in renal tubular cells, hepatocytes, and myocardial fibers. Abnormal mitochondria were noted in renal and myocardial fibers. Pancreas islets were characterized by a marked reduction in the number of insulin-secreting β cells. CONCLUSIONS: The histological and ultrastructural features that occur in WRS are directly or indirectly linked to endoplasmic reticulum (ER) dysfunction and can explain the peculiar phenotype of this syndrome.
BACKGROUND:Wolcott-Rallison syndrome (WRS) is a rare autosomal recessive disorder characterized by the association of permanent neonatal or early-infancy insulin-dependent diabetes, multiple bone dysplasia, hepatic dysfunction, and growth retardation. All clinical manifestations result from gene mutations encoding pancreatic endoplasmic reticulum eIF2 α kinase (PERK), an endoplasmic reticulum transmembrane protein that plays a role in the unfolded protein response. Histological and ultrastructural lesions of bone and pancreas have been described in animal models and WRSpatients. However, histological and ultrastructural findings of other organs, especially of the liver, are lacking. METHODS: Autopsy specimens from two pediatric patients with WRS were analyzed. An immunohistochemical study was performed on the pancreas. An ultrastructural study was realized from samples of liver, pancreas, kidney, and myocardium. Our findings were compared with those of the literature and correlated with the molecular data. RESULTS: Hepatocytes and pancreatic exocrine cells exhibited very peculiar features of necrosis suggestive of secondary changes because of endoplasmic reticulum overload. Steatosis occurred in renal tubular cells, hepatocytes, and myocardial fibers. Abnormal mitochondria were noted in renal and myocardial fibers. Pancreas islets were characterized by a marked reduction in the number of insulin-secreting β cells. CONCLUSIONS: The histological and ultrastructural features that occur in WRS are directly or indirectly linked to endoplasmic reticulum (ER) dysfunction and can explain the peculiar phenotype of this syndrome.
Authors: Carrie R Sowers; Rong Wang; Rebecca A Bourne; Barbara C McGrath; Jingjie Hu; Sarah C Bevilacqua; James C Paton; Adrienne W Paton; Sophie Collardeau-Frachon; Marc Nicolino; Douglas R Cavener Journal: J Biol Chem Date: 2018-02-14 Impact factor: 5.157
Authors: Justine Lebeau; Jaclyn M Saunders; Vivian W R Moraes; Aparajita Madhavan; Nicole Madrazo; Mary C Anthony; R Luke Wiseman Journal: Cell Rep Date: 2018-03-13 Impact factor: 9.423