Heterogeneity in X-linked recessive Charcot-Marie-Tooth neuropathy.

Three families presenting with X-linked recessive Charcot-Marie-Tooth neuropathies (CMT) were studied both clinically and genetically. The disease phenotype in family 1 was typical of CMT type 1, except for an infantile onset; two of five affected individuals were mentally retarded, and obligate-carrier females were unaffected. Families 2 and 3 showed distal atrophy with weakness, juvenile onset, and normal intelligence. Motor-nerve conduction velocities were significantly slowed, and electromyography data were consistent with denervation in affected CMT males in all three families. Thirty X-linked RFLPs were tested for linkage studies against the CMT disease loci. Family 1 showed tight linkage (recombination fraction [theta] = 0) to Xp22.2 markers DXS16, DXS143, and DXS43, with peak lod scores of 1.75, 1.78, and 2.04, respectively. A maximum lod score of 3.48 at DXS16 (theta = 0) was obtained by multipoint linkage analysis of the map DXS143-DXS16-DXS43. In families 2 and 3 there was suggestion of tight linkage (theta = 0) to Xq26 markers DXS86, DXS144, and DXS105, with peak lod scores of 2.29, 1.33, and 2.32, respectively. The combined maximum multipoint lod score of 1.81 at DXS144 (theta = 0) for these two families occurred in the map DXS10-DXS144-DXS51-DXS105-DXS15-DXS52++ +. A joint homogeneity analysis including both regions (Xp22.2 and Xq26-28) provided evidence against homogeneity (chi 2 = 9.12, P less than .005). No linkage to Xp11.12-q22 markers was observed, as was reported for X-linked dominant CMT and the Cowchock CMT variant. Also, the chromosomes 1 and 17 CMT loci were excluded by pairwise linkage analysis in all three families.     

Chromosomal characteristics of X-linked recessive mental retardation. I. The X chromosome

The X-chromosome was studied in blood lymphocytes of 68 males with aspecific mental retardation (MR), their 57 relatives and 15 intellectually normal males. The incidence of a fragile X-chromosome (fra(X)) was found to be 4.7% in an unselected group of 42 patients, 50% among 10 probands in which pedigree data were suggestive of X-linked MR diagnosis, and 75% in the group of 15 patients selected for phenotype characteristic of the fragile X syndrome. The fra(X) was present in 1-43% of metaphases in different individuals, no such marker being observed in cells of 15 normal individuals. No significant difference was found when the incidence of the fra(X) was compared in cells cultured in the medium 199 with low folic acid content and the Eagle's medium supplemented with 5-fluorodeoxyuridine (10.62 +/- 2.94 SEM and 13.53 +/- 2.85 SEM, respectively). The possibility of false-positive diagnosis of the fragile X syndrome was quantitatively appreciated. A half of the patients showing a fra(C) in conventionally stained chromosomes were found to have fragile 6 autosome as the only marker in these cells, and in patients with the evident fragile (X) syndrome the fra(6) constituted about one-third of the fra(X) frequency. Both culture media employed were similar in the fra(6) induction.     

The motor disorder of classic Lesch-Nyhan disease

Reports describing the neurological features of Lesch-Nyhan disease (LND) vary widely, thereby implying the involvement of different neurological substrates. The movement abnormalities in 20 patients with LND were investigated. Dystonia was the most frequent and severe movement disorder. At rest, hypotonia was more frequent than hypertonia. These findings are compatible with basal ganglia dysfunction in LND.     

A test of the hypothesis that age at onset in Huntington disease is controlled by an X-linked recessive modifier.

Data from the Research Roster for Huntington Disease Patients and Families were used to assess the hypothesis that juvenile onset in Huntington disease is determined by an X-linked recessive modifying gene in the affected parent. The observed proportion of affected fathers to affected mothers who had such offspring was not compatible with this hypothesis. Furthermore, neither the excess of affected grandfathers nor the existence of juvenile-onset and adult-onset cases within a sibship would be predicted by this model. We also rejected a more general hypothesis that a major change in gene expression across generations, measured by the presence of juvenile onset and/or major anticipation, is determined by an X-linked modifier. However, the inheritance of a propensity toward juvenile onset via the affected male line could be due to an abnormal pattern of paternal genomic imprinting.     

Refinement of the locus for X-linked recessive chondrodysplasia punctata

Although the locus for X-linked recessive chondrodysplasia punctata (CDPX1) has been mapped to the region between PABX and DXS31 (the critical region is about 3 Mb long), the precise location within the critical region has not been determined. In this paper, we describe a boy with a 46,Y,der(X)t(X;Y)(p22.3;q11)mat karyotype and review the genotype-phenotype correlations in three male patients with the combination of apparent lack of clinical features of CDPX1 and a partial deletion of the critical region. The results suggest that the region defined by the two BssHII sites at 3180 and 3570 kb from the Xp telomere may be the target region for the CDPX1 locus.     

X-linked recessive inheritance of sensorineural hearing loss expressed during adolescence.

Eight males in 4 generations with hearing impairment were observed in a kindred; family transmission suggested X-linked recessive inheritance. In previously reported cases of X-linked sensorineural hearing loss, hearing impairment was usually severe to profound and was either present at birth or manifested by 5 years of age.In the present cases, rapid onset of a bilateral sensorineural hearing loss occurred during adolescence and did not generally progress beyond moderate impairment. Significant deterioration in seech production did not usually result.     

X-linked recessive ichthyosis. Enzymatic diagnosis of affected males and female carriers

Steroid sulfatase deficiency (SSD) is a sex-linked disorder characterized clinically by generalized X-linked ichthyosis. We report a study of 10 families where the clinical diagnosis of this disorder was confirmed by measuring arylsulfatase C and steroid sulfatase (STS) in cultured skin fibroblasts and/or leukocytes of patients and heterozygotes. The optimal conditions for these enzymatic determinations were determined. Our data indicate that STS measurement is a reliable test for SSD diagnosis, either in fibroblasts or in leukocytes. For the detection of heterozygotes, several enzymatic determinations in different cell types are required.     

Diphenoloxidases in X-linked recessive (Duchenne) muscular dystrophy

Summary In extracts derived from whole blood, a high molecular weight fraction of the diphenoloxidase enzymes has a significantly diminished specific activity in patients and definite carriers (heterozygotes) of the X-linked, recessive (Duchenne) form of muscular dystrophy. This anomaly was studied using spots of blood which had been collected on absorbent paper and stored at 4°C for variable periods of time. Fractions enriched in the enzymes were obtained by subjecting aqueous extracts of the spots to treatment with an anion exchange resin (DEAE Sephadex A 50) followed by gel filtration on Sephadex G-25. It is of interest that this anomaly was observed in some definite carriers of the mutant gene who had had on several occasions a serum creatine kinase level in the normal range. The significance of these observations is discussed.     

Two recessive rex coat mutants in the guinea pig

Two rex type coat mutants of the guinea pig were found to display monogenic recessive inheritance at independent loci. The mutant alleles were designated rex (rx) and waved (wv). Both genes modify the normal smooth coat to a more upright, somewhat unkempt pelage. Macroscopically, the two rexes are scarcely distinguishable. Microscopically, however, small differences are apparent in the degree of coat modification. The hairs of rex show a greater curvature than normal and have irregular secondary bends and twists and variable diameter; so do those of waved, but to a lesser degree. The vibrissae of rex are curved or bent and may break off; those of waved are a mixture of straight, curved, and bent hairs.     

Evidence of a third locus in X-linked recessive spastic paraplegia

We have investigated a family with severe X-linked spastic paraplegia and assigned the disease locus to Xq11.2-q23 by linkage and haplotype analysis. This region harbors the gene coding for proteolipid protein, which is mutated in one of the two established forms of X-linked spastic paraplegia, i.e., SPG2. We have performed extensive mutation analysis of this gene. Our failure to detect a mutation in this family suggests a third locus in X-linked recessive spastic paraplegia. Received: 7 March 1997 / Accepted: 14 April 1997     

Genetic analysis of recessive primordiumless mutants in the basidiomyceteCoprinus cinereus

Four recessive primordiumless mutants from anAmut Bmut strain ofCoprinus cinereus were crossed with wild-type strain. Segregation analysis of F1-progeny and complementation test showed that these mutations were controlled by 4 single recessive genes. All these genes were unlinked to both theA andB factors.     

HPRTSardinia: a new point mutation causing HPRT deficiency without Lesch-Nyhan disease

Hypoxanthine-guanine phosphoribosyltransferase (HPRT) deficiency always causing hyperuricemia presents various degrees of neurological manifestations, the most severe which is Lesch-Nyhan syndrome. The HPRT gene is situated in the region Xq26-q27.2 and consists of 9 exons. At least 300 different mutations at different sites in the HPRT coding region from exon 1 to exon 9 have been identified. A new mutation in the HPRT gene has been determined in one patient with complete deficiency of erythrocyte activity, with hyperuricemia and gout but without Lesch-Nyhan disease. Analysis of cultured fibroblasts revealed minimal residual HPRT activity mainly when guanine was the substrate. Genomic DNA sequencing demonstrated patient's mother heterozygosity for the mutation and no mutation in her brother. The mutation consists in a C-->T transversion at cDNA base 463 (C463T) in exon 6, resulting in proline to serine substitution at codon 155 (P155S). This mutation had not been reported previously and has been designated HPRT(Sardinia). The mutation identified in this patient allows some expression of functional enzyme in nucleated cells such as fibroblasts, indicating that such cell type may add further information to conventional blood analysis. A multicentre survey gathering patients with variant neurological forms could contribute to understand the pathophysiology of the neurobehavioral symptoms of HPRT deficiency.     

X-linked recessive panhypopituitarism associated with a regional duplication in Xq25-q26.

We present a linkage analysis and a clinical update on a previously reported family with X-linked recessive panhypopituitarism, now in its fourth generation. Affected members exhibit variable degrees of hypopituitarism and mental retardation. The markers DXS737 and DXS1187 in the q25-q26 region of the X chromosome showed evidence for linkage with a peak LOD score (Zmax) of 4.12 at zero recombination fraction (theta(max) = 0). An apparent extra copy of the marker DXS102, observed in the region of the disease gene in affected males and heterozygous carrier females, suggests that a segment including this marker is duplicated. The gene causing this disorder appears to code for a dosage-sensitive protein central to development of the pituitary.