Multiplex PCR of three dinucleotide repeats in the Prader-Willi/Angelman critical region (15q11-q13): molecular diagnosis and mechanism of uniparental disomy

Prader-Willi syndrome (PWS) and Angelman syndrome (AS) are distinctmental retardation disorders caused by a deficiency of paternal(PWS) or maternal (AS) contributions for chromosome 15 by eitherdeletion or uniparental disomy (UPD). To further study the molecularmechanisms involved in these disorders and to improve moleculardiagnostic methods, we have isolated three dinucleotide repeatmarkers in the PWS/AS critical region. An Alu-CA PCR methodwas used to isolate CA-repeat markers directly from yeast artificialchromosome (YAC) clones identified by probes IR4–3R (D15S11),LS6–1 (D15S113), and GABA_A receptor B3 (GABRB3). Threemarkers with 6–11 alleles and 73–83% heterozygositieswere identified and analyzed by multiplex PCR. Gene-centromeremapping was performed on a panel of ovarian teratomas of knownmeiotic origin, and showed the most proximal marker, IR4–3R,to be 13 cM (95% confidence limits: 7–19 cM) from thecentromere of chromosome 15. Molecular diagnostic studies wereperformed on 20 PWS and 9 AS patients. In 17 patients with deletions,the parental origin of deletion was determined. Ten PWS patientswere shown to have maternal heterodisomy. Since these markersare only 13 cM from the centromere, heterodisomy indicates thatmaternal meiosis I nondisjunction is involved in the originof UPD. In contrast, two paternal disomy cases of AS showedisodisomy for all markers tested along the length of chromosome15. This suggests a paternal meiosis II nondisjunction event(without crossing over) or, more likely, monosomic conception(due to maternal nondisjunction) followed by chromosome duplication.This latter mechanism would indicate that UPD in PWS and ASmay initiate as reciprocal products of maternal nondisjunctionevents.