William L. Whaley

Clustering of multiallele DNA markers near the Huntington's disease gene.

Five highly informative multiallele restriction fragment length polymorphisms (RFLPs) of value for preclinical diagnosis of Huntingtons disease (HD) have been genetically characterized. One RFLP was uncovered by expansion of the D4S43 locus while three others are at D4S111 and D4S115, loci defined by NotI-linking clones. The final marker, D4S125, represents a recently discovered VNTR locus. All four loci map closer to the HD gene and to the telomere than D4S10, the original linked marker for HD. In combination with two multiallele RFLPs previously identified for D4S43 and another linked locus, D4S95, these five new multiallele markers will dramatically improve the speed and accuracy of predictive testing in HD, and increase its applicability by maximizing the chances of an informative test for anyone with appropriate family structure.

Mapping of cosmid clones in Huntington's disease region of chromosome 4

Huntingtons disease (HD) is tightly linked to genetic markers in 4p16.3. We have used a regional somatic cell hybrid mapping panel to isolate and map 25 cosmids to the proximal portion of 4p16.3 and 17 cosmids to the distal portion. The latter were positioned by long-range restriction mapping relative to previously mapped markers. One cosmid, L6 (D4S166), spans the critical breakpoint in the mapping panel that distinguishes proximal and distal 4p16.3. Four of the cosmids mapped distal toD4S90, the previous terminal marker on 4p, and stretched to within 75 kb of the telomere. Several of the cosmids that mapped between L6 andD4S90 were clustered near a number of previously isolated clones in a region with many NotI sites. Cosmid E4 (D4S168) was localized immediately proximal to the one remaining gap in the long-range restriction map of distal 4p16.3. Although pulsed field gel mapping with E4 failed to link the two segments of the map, the intervening gap was excluded as a potential site for theHD gene by genetic analysis.

New DNA markers in the Huntington's disease gene candidate region

The search for the Huntingtons disease (HD) gene has prompted construction of a complete long-range restriction map of a 2.5-Mb candidate region, distal to the DNA markerD4S10. To facilitate the procurement of cloned DNA from this candidate region, we have augmented the existing regional mapping panel of somatic cell hybrids with hybrid HHW1071 containing a t(4p16;12) chromosome from a patient with Wolf-Hirschhorn syndrome. This translocation maps betweenD4S180 andD4S127, subdividing theHD candidate region and setting a proximal limit to the Wolf-Hirschhorn syndrome region. Using the expanded mapping panel, we have regionally assigned 14 independently cloned cosmids, five proximal to the t(4;12) breakpoint in the same region asD4S10 and nine distal to the breakpoint. By a combination of overlap with previously mapped cosmids and pulsed-field gel analysis, each of these cosmids has been positioned on the long-range restriction map of 4p16.3, increasing the clone coverage of the candidate region to approximately 40%. Single-copy probes from mapped cosmids were used to identify eight new DNA polymorphisms spanning theHD candidate region. These new DNA markers should prove valuable for analysis of recombination and linkage disequilibrium inHD, as well as for preclinical diagnosis of the disorder.

Huntington disease-linked locus D4S111 exposed as the alpha-L-iduronidase gene.

Abstractα-l-Iduronidase (IDUA) has been intensively studied due to its causative role in mucopolysaccharidosis type I (Hurler, Scheie and Hurler/Scheie syndromes). The recent cloning of a human IDUA cDNA has resulted in a reevaluation of the chromosomal location of this gene. Previously assigned to chromosome 22, IDUA now has been localized to 4p16.3, the region of chromosome 4 associated with Huntingtons disease (HD). The existence of a battery of cloned DNA, physical map information, and genetic polymorphism data for this region has allowed the rapid fine mapping of IDUA within the terminal cytogenetic band of 4p. IDUA was found to be coincident with D4S111, an anonymous locus displaying a highly informative multiallele DNA polymorphism. This map location, 1.1×106 bp from the telomere, makes IDUA the most distal cloned gene assigned to 4p. However, it falls within a segment of 4p16.3 that has been eliminated from the HD candidate region, excluding a role for IDUA in this disorder.