Hereditary glutathione reductase (GR) deficiency was found in only 2 cases when testing more than 15 000 blood samples. We have investigated the blood cells of 2 patients (1a and 1b) in a previously described family suffering from favism and cataract and of a novel patient (2) presenting with severe neonatal jaundice. Red blood cells and leukocytes of the patients in family 1 did not contain any GR activity, and the GR protein was undetectable by Western blotting. Owing to a 2246-bp deletion in the patients' DNA, translated GR is expected to lack almost the complete dimerization domain, which results in unstable and inactive enzyme. The red blood cells from patient 2 did not exhibit GR activity either, but the patient's leukocytes contained some residual activity that correlated with a weak protein expression. Patient 2 was found to be a compound heterozygote, with a premature stop codon on one allele and a substitution of glycine 330, a highly conserved residue in the superfamily of NAD(P)H-dependent disulfide reductases, into alanine on the other allele. Studies on recombinant GR G330A revealed a drastically impaired thermostability of the protein. This is the first identification of mutations in the GR gene causing clinical GR deficiency.
We describe a novel hemoglobin (Hb) variant, caused by a CCC > TCC transition at codon 77 on the alpha gene. The mutation was found in two unrelated patients, in one patient on the alpha1 gene and in the other patient on the alpha2 gene. Both are anemic patients of African origin. Due to the neutral Pro-->Ser substitution, Hb Nile could not be separated from Hb A with common short-run screening methods for high performance liquid chromatography (HPLC) and capillary electrophoresis, but was evidently present after prolonged cation exchange HPLC or separation by isoelectric focusing (IEF). Reversed phase HPLC separation of the globin chains revealed the normal and abnormal alpha chains with an expression of about 20% for Hb Nile[A1], indicative of normal expression and stability of the mutant protein.
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