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Enzyme
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Target Concepts:
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Query: UNIPROT:P01275 (
glucagon
)
26,492
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A 59-year-old Japanese farmer with asymptomatic fasting hypoglycemia and with exaggerated hypoglycemic episodes induced by insulin and oral hypoglycemic agent administered for his postprandial hyperglycemia was diagnosed as glycogen storage disease type I. This diagnosis was suggested by unresponsiveness of blood glucose level to
glucagon
and confirmed by 13% normal level of glucose 6-phosphatase activity in liver biopsy specimen and by the presence of PAS positive amylase digestable glycogen in liver specimen. This case was associated with an incomplete type of
Fanconi syndrome
characterized by hyperphosphaturic hypophosphatemia, partial aminoaciduria, mild proteinuria and hyperuricosuric normouricemia in spite of the lactic acidemia due to glycogen storage disease type I. The etiology for the absence of hypoglycemia and other typical manifestations of glycogen storage disease type I was studied. The glucose production from glycogen by lysosomal alpha 1,4-glucosidase especially at prolonged fasting and the presence of postprandial hyperglycemia by insulin deficiency are regarded as responsible for keeping this patient free from typical manifestations of glycogen storage disease type I.
...
PMID:A case of glycogen storage disease type I associated with an incomplete type of Fanconi syndrome; the protective role of lysosomal alpha 1,4-glucosidase and insulin deficiency against hypoglycemia. 639 62
Carbohydrate metabolism was studied in a child with atypical glycogen storage disease and
Fanconi syndrome
. Massive glucosuria, partial resistance to
glucagon
and abnormal responses to carbohydrate loads, mainly in the form of major impairment of galactose utilization were found, as reported in previous cases. Increased blood lactate to pyruvate ratios, observed in a few cases of idiopathic
Fanconi syndrome
, were not present. [1-14C]Galactose oxidation was normal in erythrocytes, but reduced in fresh minced liver tissue, despite normal activities of hepatic galactokinase, uridyltransferase, and UDP-glucose 4-epimerase in homogenates of frozen liver. These data suggest a defect in hepatic galactose metabolism not so far identified.
...
PMID:Defective galactose oxidation in a patient with glycogen storage disease and Fanconi syndrome. 657 55
Two patients with idiopathic
Fanconi syndrome
and glucose intolerance were studied from a metabolic perspective. They had fasting hyperglycemia, massive glucosuria, insulinopenia, ketosis, and elevated serum free fatty acids. There was a markedly blunted insulin secretory response to
glucagon
, tolbutamide, glucose, and arginine. One patient had the findings of diabetic retinopathy and a sensory neuropathy. Neither patient could convert galactose to glucose, but they did not have galactosemia. As a result of these studies, and previous reports in which similar changes were noted, we conclude that diabetes mellitus may occur in patients who have had idiopathic
Fanconi syndrome
for many years.
...
PMID:Metabolic abnormalities in the idiopathic Fanconi syndrome: studies of carbohydrate metabolism in two patients. 701 70
Various metabolic studies were performed in a patient with the idiopathic
Fanconi syndrome
in whom constant ketonuria suggested that organic acidemia might contribute to the metabolic acidosis. Glucose intolerance with a diminished insulin release was found after PO or IV glucose loads and after
glucagon
administratio. An insulinopenic "diabetes-like" state has not previously been described in such patients. The patient had impaired galactose-glucose interconversion, elevated blood lactate levels, reduced pyruvate levels, and an increased lactate:pyruvate ratio. Hepatomegaly and hypoglycemia were not present, and liver and muscle biopsies revealed no enzymatic evidence of glycogenosis. The erythrocyte UDP galactose transferase activity was normal. The patient failed to convert fructose to glucose and had a rise in blood lactate after ethanol administration. Further studies revealed no production of glucose after alanine or glycerol administraion, each test being associated with elevated blood lactate levels and, after alanine, an increased lactate:pyruvate ratio. The lactate:pyruvate ratio was elevated after
glucagon
administration with increased lactate and reduced pyruvate concentrations.
...
PMID:Abnormalities of carbohydrate metabolism in idiopathic Fanconi syndrome. 738 41
Glycogen storage diseases (GSD) are inherited metabolic disorders of glycogen metabolism. Different hormones, including insulin,
glucagon
, and cortisol regulate the relationship of glycolysis, gluconeogenesis and glycogen synthesis. The overall GSD incidence is estimated 1 case per 20000-43000 live births. There are over 12 types and they are classified based on the enzyme deficiency and the affected tissue. Disorders of glycogen degradation may affect primarily the liver, the muscle, or both. Type Ia involves the liver, kidney and intestine (and Ib also leukocytes), and the clinical manifestations are hepatomegaly, failure to thrive, hypoglycemia, hyperlactatemia, hyperuricemia and hyperlipidemia. Type IIIa involves both the liver and muscle, and IIIb solely the liver. The liver symptoms generally improve with age. Type IV usually presents in the first year of life, with hepatomegaly and growth retardation. The disease in general is progressive to cirrhosis. Type VI and IX are a heterogeneous group of diseases caused by a deficiency of the liver phosphorylase and phosphorylase kinase system. There is no hyperuricemia or hyperlactatemia. Type XI is characterized by hepatic glycogenosis and renal
Fanconi syndrome
. Type II is a prototype of inborn lysosomal storage diseases and involves many organs but primarily the muscle. Types V and VII involve only the muscle.
...
PMID:Glycogen storage diseases: new perspectives. 1755 1
