Recessive congenital methemoglobinemia (RCM) due to NADH-cytochrome b5 reductase (cytb5r) deficiency leads to two different types of diseases. In the type I form, cyanosis is the only symptom, and the soluble enzyme is defective in red blood cells. In the type II form, cyanosis is associated with severe mental retardation and neurologic impairment; the enzymatic defect is systemic, involving both soluble and membrane-bound isoforms. We characterized mutations responsible for cytb5r deficiency in three unrelated patients with severe RCM type II. The first patient presented a homozygous exon 5 skipping. The only mutation detected was a homozygous G to C transversion at position +8, downstream from the 5′ splice site of exon 5. We suggest that this unusual mutation might be responsible for the abnormal splicing of the primary transcripts, resulting in frameshift with premature STOP codon. The second mutation found corresponds to a homozygous C to T transition changing the Arg-218 codon to a premature STOP codon in exon 8. The third case was a compound heterozygote, carrying two different mutant alleles in the cyb5r gene. One allele presented a missense mutation with replacement of Cys-203 (TGC) by Arg (CGC) in exon 7. The second allele carried a 3-bp deletion (TGA) of nucleotides 815 to 817, modifying two contiguous codons in exon 9 of the cDNA with loss of Met-272. These results confirm the genetic polymorphism of cytb5r gene mutations identified in RCM type II, as observed for the mutations described in the RCM type I, and shed light on the molecular bases of the two different diseases associated with cytb5r deficiency.
Identification of a novel point mutation (Leu72Pro) in the NADH-cytochrome b5 reductase gene of a patient with hereditary methaemoglobinaemia type I
