6-phosphogluconate dehydrogenase deficiency

Many patients with 6-phosphogluconate dehydrogenase deficiency are carriers and have no symptoms. It has been discovered that symptoms manifest more frequently in female carriers. Depending on how severe the deficiency is, it has been demonstrated that enzyme activity is reduced by 35–65%. Abnormal red blood cell breakdown (hemolysis) in 6PGD deficiency can be symptomatic in a number of ways, including the following: • Neonatal jaundice, • Possibility of leading to kernicterus due to a hyperbilirubinemia • Hemolytic crises in response to: • Illness and infections • Certain drugs • Certain foods • Certain chemicals • In extreme cases, kidney failure ==Genetics==

6PGD deficiency is a recessive hereditary disorder located on the P arm of chromosome 1. It is an autosomal disease, not associated with the sex chromosomes and can affect both sexes. The lack of synthesis of a specific protein on chromosome 1 has reduced a subject suffering from 6PGD deficiency from producing adequate amounts of the 6-phosphogluconate dehydrogenase enzyme. Transfer of the disease can be passed from a parent, even when the parent is asymptomatic. ==Pathophysiology==

Reaction mechanism 6-Phosphogluconate dehydrogenase (6PGD) is an enzyme in the pentose phosphate pathway (see image). 6PGD catalyzes the reaction of 6-phosphogluconate to an unstable form of 3-keto-6-phosphogluconate, and yields a co-enzyme nicotinamide adenine dinucleotide phosphate (NADPH) as a byproduct. NADPH supplies reducing power to cells. The reaction is the second NADPH releasing reaction in the pentose phosphate pathway, the first being catalyzed by glucose-6-phosphate dehydrogenase. 3-keto-6-phosphogluconate then rapidly (in an irreversible reaction) decarboxylates to CO2 and ribulose-5-phosphate, which is the precursor to many vital metabolic processes. Importance of NADPH The NADPH pathway (both 6PGD and G6PD reactions) is the only source of reductant to reduce glutathione in red blood cells. The role of erythrocytes as oxygen carriers puts them at risk of being damaged by oxidizing free radicals. The reduction of glutathione acts as an antioxidant and prevents damage from reactive oxygen species. Oxidative stress People suffering from 6PGD or G6PD deficiency (or both) are at risk of hemolytic anemia in states of oxidative stress. Oxidative stress can result from infection and from chemical exposure to medication and certain foods. Broad beans, e.g., fava beans, contain high levels of vicine, divicine, convicine and isouramil, all of which are oxidants. When all remaining reduced glutathione is consumed, enzymes and other proteins, such as hemoglobin are subsequently damaged by the free radicals, leading to electrolyte imbalance, cross-bonding and protein deposition in the red cell membranes. Damaged red cells are phagocytosed and sequestered (taken out of circulation) in the spleen. The hemoglobin is metabolized to bilirubin (causing jaundice). The red blood cells rarely disintegrate in the circulation, so hemoglobin is rarely excreted directly by the kidney, but this can occur in severe cases, causing acute kidney injury. ==Treatment==

Prevention The most important measure taken for treatment of 6-phosphoglucanate dehydrogenase is prevention. Avoidance of chemical exposures to drugs and foods that have the potential to cause hemolysis. Although some foods and supplements have antioxidant properties, their use does not decrease the severity of G6PD deficiency. Diagnosis is difficult during haemolytic episodes since reticulocytes have increased levels of enzymes and may produce erroneously normal results. Testing can be useful after a steady state is reached (about six weeks after the most recent episode of haemolysis), including a G6PD assay to confirm a diagnosis and G6PD spectrophotometry to detect the level of activity. Vaccinations against some common pathogens (e.g. hepatitis A and hepatitis B) may prevent infection-induced attacks. Blood transfusion In the acute phase of hemolysis, blood transfusions might be necessary, or even dialysis in acute kidney injury. Blood transfusion is an important symptomatic measure, as the transfused red cells are generally not 6PGD deficient and will live a normal lifespan in the recipient's circulation. ==References==