Clinical Studies in Non-chromosome 4-Linked Facioscapulohumeral Muscular Dystrophy.

OBJECTIVES: To characterize clinically and molecularly a large, non-chromosome 4-linked facioscapulohumeral muscular dystrophy (FSHMD) family. METHODS: Neurological evaluations of affected (N = 55) and at-risk (N = 48) individuals were performed along with selected laboratory analyses, including creatine kinase testing, muscle biopsy, p13E-11 fragment analysis, and cytogenetic studies. Genetic analyses of the scapuloperoneal muscular dystrophy and scapuloperoneal muscular atrophy regions on chromosome 12 were performed using genetic markers flanking the intervals of interest and parametric LOD score analyses. RESULTS: Clinically, the FSHMD in individuals in this family is indistinguishable from that observed in chromosome 4-linked FSHMD. Fragment analysis with p13E-11 showed no small fragment segregating with the family and no evidence for 4:10 translocation or deletion of the p13E-11 binding site. Linkage analysis excluded the loci for autosomal-dominant scapuloperoneal muscular dystrophy and scapuloperoneal muscular atrophy. CONCLUSIONS: This family is clinically similar to patients with the chromosome 4-linked FSHMD. These data support our previous hypothesis of genetic heterogeneity within FSHMD.

Myotilin is mutated in limb girdle muscular dystrophy 1A.

We have identified a mutation in the myotilin gene in a large North American family of German descent expressing an autosomal dominant form of limb girdle muscular dystrophy (LGMD1A). We have previously mapped this gene to 5q31. Symptoms of this adult onset disease are progressive weakness of the hip and shoulder girdles, as well as a distinctive dysarthric pattern of speech. Muscle of affected individuals shows degeneration of myofibers, variations in fiber size, fiber splitting, centrally located myonuclei and a large number of autophagic vesicles. Affected muscle also exhibits disorganization and streaming of the Z-line similar to that seen in nemaline myopathy. We have identified a C450T missense mutation in the myotilin gene that is predicted to result in the conversion of residue 57 from threonine to isoleucine. This mutation has not been found in 396 control chromosomes. The mutant allele is transcribed and normal levels of correctly localized myotilin protein are seen in LGMD1A muscle. Myotilin is a sarcomeric protein that binds to alpha-actinin and is localized in the Z-line. The observed missense mutation does not disrupt binding to alpha-actinin.

Heterogeneity in Paget disease of the bone.

Paget disease of the bone is a common skeletal disorder. Recently, a gene for Paget disease was localized to 18q with subsequent evidence for linkage heterogeneity. We report the identification and clinical characterization of a large pedigree of Paget disease and demonstrate that the Paget disease gene in this pedigree is not linked to the region on 18q, thus confirming linkage heterogeneity.

Possible interaction of genotypes at cystathionine beta-synthase and methylenetetrahydrofolate reductase (MTHFR) in neural tube defects. NTD Collaborative Group.

Neural tube defects are a common, complex disorder with genetic and environmental components to risk. We investigated the previously reported interaction between homozygosity for the thermolabile variant at the methylenetetrahydrofolate reductase and heterozygosity for the 844ins68 allele at the cystathionine beta-synthase loci in cases with lumbosacral myelomeningocele and their parents. Using control allele frequencies from our sample pooled with those published in the literature, we confirm a marginally significant interaction at these two loci. This finding suggests that additional, larger studies are warranted to investigate this possible interaction in more detail.

Identification of a new autosomal dominant limb-girdle muscular dystrophy locus on chromosome 7.

We report the identification of a new locus for autosomal dominant limb-girdle muscular dystrophy (LGMD1) on 7q. Two of five families (1047 and 1701) demonstrate evidence in favor of linkage to this region. The maximum two-point LOD score for family 1047 was 3.76 for D7S427, and that for family 1701 was 2.63 for D7S3058. Flanking markers place the LGMD1 locus between D7S2423 and D7S427, with multipoint analysis slightly favoring the 9-cM interval spanned by D7S2546 and D7S2423. Three of five families appear to be unlinked to this new locus on chromosome 7, thus establishing further heterogeneity within the LGMD1 diagnostic classification.

Use of a CEPH meiotic breakpoint panel to refine the locus of limb-girdle muscular dystrophy type 1A (LGMD1A) to a 2-Mb interval on 5q31.

Limb-girdle muscular dystrophy type 1A (LGMD1A) is an autosomal dominant disease characterized by progressive weakness of the hip and shoulder girdle. The gene for LGMD1A had been localized to a 7-cM interval at 5q31 in a single large family (Family 39). To refine the localization of LGMD1A further and to aid in its identification, a high-resolution physical map of the locus was used to identify and provisionally localize 25 polymorphic markers. A subset of these markers was then ordered genetically, using a CEPH meiotic breakpoint panel, resulting in an integrated physical-genetic map of the locus. Relevant markers were genotyped on the members of Family 39 who contained informative recombination events, resulting in a further narrowing of LGMD1A to an interval bounded by D5S479 and D5S594, estimated to be 2 Mb in size. Integration of the genetic and physical map permits the identification of several transcription units from within the narrowed LGMD1A interval, including one that is muscle specific, representing candidate genes for this familial dystrophy.

Exclusion of identified LGMD1 loci from four dominant limb-girdle muscular dystrophy families.

The limb-girdle muscular dystrophies are a clinically and genetically heterogeneous group of disorders. Recent linkage analyses and positional cloning studies have identified numerous loci responsible for the recessive and dominant forms, underscoring the inherent heterogeneity. In this report, we investigate four large autosomal dominant limb-girdle pedigrees and exclude these pedigrees from linkage to these loci. In addition, there is no evidence for linkage to any of the seven recessive LGMD loci.

Evidence for locus heterogeneity in the Bethlem myopathy and linkage to 2q37.

The Bethlem myopathy, a childhood onset autosomal dominant myopathy with joint contractures, has recently been localized to 21q in a series of Dutch families and the alpha 1 and alpha 2 subunits of type VI collagen (COL6A1 and COL6A2) have been postulated as candidate genes. We investigate a large family of French Canadian descent (family 1489) in which the Bethlem myopathy is segregating. Family 1489 is unlinked to the region of interest on 21q, thus demonstrating locus heterogeneity within the Bethlem myopathy classification. In view of the localization of the genes coding the alpha 1 and alpha 2 subunits of type VI collagen on chromosome 21q, we carried out linkage analysis on chromosome 2q where the alpha 3 subunit of type VI collagen has been localized. We demonstrate linkage to markers in this region, define the region of disease gene localization, and confirm by FISH analysis that COL6A3 is located within the interval of interest making COL6A3 a feasible candidate gene for the Bethlem myopathy.