These findings provide compelling evidence that MR-1 might be a diagnostic marker and therapeutic target for solid tumours, myelogenous leukaemia and PNKD.
Sequencing the whole coding region of PNKD/MR-1 gene identified a heterozygous c.20 C>T (p.Ala7Val) mutation which was clearly segregated in the five affected patients.
Taking into account that previous haplotype analyses did not reveal evidence for common founders among several PNKD families, our present findings strengthen three implications: (1) autosomal dominant PNKD seems to be a homogenous disorder, for which the MR-1 gene is the major disease gene; (2) mainly two recurrent MR-1 missense mutations (57% V7, 43% V9) account for the genetic variance of familial PNKD; (3) it supports current evidence that some of the recurrent MR-1 mutations may have arisen independently by de novo mutation at functionally convergent key sites of the brain-specific MR-1L isoform.
The function of MR1 is unknown, but the 2 mutations identified in the 4 families with PNKD studied to date are predicted to disrupt the amino terminal alpha-helix suggesting that this region of the gene is critical for proper gene function under stressful conditions.
Genetic data localized the underlying mutation to the FPD1 locus (familial paroxysmal dyskinesia type 1) on chromosome 2q and support locus homogeneity for the Mount-Reback syndrome.