Progressive development of renal cysts in glycogen storage disease type I.

Glycogen storage disease type I (GSDI) is a rare metabolic disease due to glucose-6 phosphatase deficiency, characterized by fasting hypoglycemia. Patients also develop chronic kidney disease whose mechanisms are poorly understood. To decipher the process, we generated mice with a kidney-specific knockout of glucose-6 phosphatase (K.

Glucose-6-phosphatase deficiency.

Glucose-6-phosphatase deficiency (G6P deficiency), or glycogen storage disease type I (GSDI), is a group of inherited metabolic diseases, including types Ia and Ib, characterized by poor tolerance to fasting, growth retardation and hepatomegaly resulting from accumulation of glycogen and fat in the liver. Prevalence is unknown and annual incidence is around 1/100,000 births. GSDIa is the more frequent type, representing about 80% of GSDI patients.

Perioperative management of hemostasis for surgery of benign hepatic adenomas in patients with glycogen storage disease type ia.

The development of hepatocellular adenomas in the liver of patients with glycogen storage disease type I is a well-known complication of the disease. Surgical procedures and perioperative managements described so far have reported persistent and important morbidity. We report here a series of six patients (three males and three females) who underwent hepatic resection, and we propose a new hemostatic management protocol comprising glucose infusion, corticosteroids, desmopressin, and antifibrinolytic drugs, used to prevent efficaciously hepatic hemorrhage due to glycogen storage disease (GSD) platelet dysfunction.

[Natural history of hepatic glycogen storage diseases].

Hepatic glycogen storage diseases are rare inherited conditions affecting glycogen metabolism. During the last twenty years, medical progress has allowed children who used to die before they reached the age of ten years to reach adulthood. It is important to know the natural history and long-term outcome of these patients to improve their treatment during childhood.

Chemotherapy-induced mucositis is associated with changes in proteolytic pathways.

Mucositis, a common toxic side effect of chemotherapy, is characterized by an arrest of cell proliferation and a loss of gut barrier function, which may cause treatment reduction or withdrawal. Gut integrity depends on nutritional and metabolic factors, including the balance between protein synthesis and proteolysis. The effects of methotrexate (MTX; a frequently used chemotherapeutic agent) on intestinal proteolysis and gut barrier function were investigated in rats.

Glutamine pretreatment reduces IL-8 production in human intestinal epithelial cells by limiting IkappaBalpha ubiquitination.

Glutamine, the most abundant amino acid in the human body, plays several important roles in the intestine. Recent studies showed that glutamine regulates protein metabolism and intestinal inflammation among other mechanisms by reducing proinflammatory cytokine release. Because regulation of the inflammatory response was shown to be linked to proteolysis regulation, we hypothesized that glutamine pretreatment could act on IL-8 production in human intestinal epithelial cells through the regulation of inhibitor kappaB (IkappaB) ubiquitination.

Regulation of proteolysis by cytokines in the human intestinal epithelial cell line HCT-8: role of IFNgamma.

Protein metabolism contributes in the regulation of gut barrier function, which may be altered during inflammatory states. There are three major proteolytic pathways in mammalian cells: lysosomal, Ca(2+)-activated and ubiquitin-proteasome. The regulation of proteolytic activities during inflammation remains unknown in intestine.