A novel PLP1 mutation further expands the clinical heterogeneity at the locus.

OBJECTIVES: To characterize at clinical and molecular levels a family presenting with X-linked recessive Hereditary Spastic Paraplegia (HSP). BACKGROUND: HSPs are a large group of genetically heterogeneous neurodegenerative disorders characterized by progressive upper motor neuron signs. Mutations in the proteolipid protein (PLP1) gene have been identified in families linked to the SPG2 locus on chromosome Xq22. However, Pelizaeus-Merzbacher disease (PMD) is also an X-linked recessive neurological disorder caused by PLP1 mutations. METHODS: The SPG2 locus was investigated by linkage analysis in the family. The PLP1 gene was screened by sequencing. We present findings in a large French-Canadian family with an X-linked recessive HSP. The proband presented early with developmental delay and developed progressive spastic paraplegia. He has been wheelchair-bound since the age of three years. At the latest follow-up, he was 20 years-old and had severe spasticity predominantly affecting the lower extremities, moderate cerebellar dysfunction, and optic atrophy. RESULTS: Linkage to SPG2 was established and a G to A mutation (M1R) in the initiation codon of the PLP1 gene was identified, likely resulting in the complete absence of proteolipid protein. CONCLUSIONS: We report a new PLP1 gene mutation in a patient with a clinical phenotype consistent with a PLP1 null syndrome.

Chromosome 11-q24 region in Tourette syndrome: association and linkage disequilibrium study in the French Canadian population.

Previous studies have found association and linkage between Tourette syndrome (TS) and markers at the 11q24 region, mainly with markers D11S1377 and D11S933. In order to determine if these positive findings could be replicated in our sample, we undertook a family-based association study in 199 French Canadian TS nuclear families. We genotyped 572 individuals from 174 complete and 25 incomplete TS trios. TDT analysis failed to detect an association between TS and six markers from 11q24. Furthermore, no haplotype combining alleles from D11S1377, D11S933, or any of the other four markers was associated with the disorder. Linkage disequilibrium analysis showed evidence of historical recombination between every contiguous pair of markers, indicating that these genetic variants are probably in equilibrium in the French Canadian population. Further analysis in additional families, with different methodologies (linkage and association) will be required in order to determine if the 11q24 region harbors a susceptibility locus for TS. If it does, this defect may not be frequent in the French Canadian population due to locus heterogeneity.

Association between 7q31 markers and Tourette syndrome.

Tourette syndrome (TS) is a complex neuropychiatric disorder with a strong genetic basis. Although no specific susceptibility genes have been identified for TS, cytogenetic studies in selected cases suggest the existence of a predisposing gene located in the 7q31 chromosomal region. In order to test the hypothesis of a possible relationship between this region and TS at the population level, we undertook a family based association study in a sample of French Canadian patients from Quebec. For this purpose, markers D7S522, D7S523, and D7S1516 were tested using the extended transmission disequilibrium test (e-TDT). Marker D7S522 showed a biased transmission of alleles from heterozygote parents to their TS offsprings (allele-wise TDT chi(2) = 12.61, 4 df, P = 0.013, genotype-wise TDT chi(2) = 15.49, 7 df, P = 0.030). When the analysis was restricted to patients without ADHD or OCD comorbidity, similar results were observed both allele and genotype-wise (chi(2) = 10.68, 4 df, P = 0.03 and chi(2) = 12.55, 5 df, P = 0.028, respectively). In addition, marker D7S523 was also associated (allele-wise TDT chi(2) = 18.37, 7 df, P = 0.01 and genotype-wise TDT chi(2) = 46.26, 17 df, P = 0.00016), and showed a tendency for association in the comorbidity-free subgroup (genotype-wise TDT chi(2) = 18.7, 10 df, P = 0.044). Finally, marker D7S1516, contained in the inner mitochondrial membrane peptidase 2 like (IMMP2L) gene, also showed a tendency for association (genotype-wise TDT chi(2) = 32.87, 21 df, P = 0.048). These results may reflect the proximity of markers D7S522, D7S523, and possibly D7S1516 to a gene or regulatory region relevant to TS predisposition.