To evaluate the contribution of these genetic loci to other families with familial "non-DYT1" dystonia five large families with dystonia were studied using genetic markers spanning the DYT6 and DYT7 regions.
Predominant cranial-cervical involvement of dystonia occurred in this family, which has also been described in patients with idiopathic torsion dystonia linked to the DYT6 region on chromosome 8 and is a rare finding in DYT1 dystonia.
In contrast, affected individuals from the excluded families had a later age of onset (46.9 years vs. 16.1 years in the DYT6), and the dystonia was both more likely to be of focal distribution and begin in the cervical muscles.
We analyzed 610 patients with various forms of dystonia for sequence variants in the THAP1 gene by means of high resolution melting to delineate the prevalence of sequence variants and phenotypic variability.
We identified a de novo delGAG mutation in the TOR1A gene in a patient with a typical DYT1 phenotype and a novel c.1A > G (p.Met1?) mutation in THAP1 in a patient with early onset generalized dystonia with speech involvement.
Mutations in the THAP1 DNA binding domain, an atypical zinc finger (THAP-zf), have recently been found to cause DYT6dystonia, a neurological disease characterized by twisting movements and abnormal postures.
Patients presenting with early-onset cervical dystonia should be screened for THAP1 gene mutations to fully assess all the possible etiologies of dystonia.
Recently, mutations in Thanatos-associated protein domain containing, apoptosis associated protein 1 (THAP1) have been described in DYT6dystonia and associated with some cases of familial and sporadic late-onset dystonia in Caucasians.
THAP1 is the first transcriptional factor involved in primary dystonia and the hypothesis of a transcriptional deregulation, which was primarily proposed for the X-linked dystonia-parkinsonism (DYT3 dystonia), provided thus a new way to investigate the possible mechanism underlying the development of dystonic movements.
The major clinical differences between DYT1 and DYT6dystonia in China were the cranial involvement in DYT6 and progress to general dystonia within several years in DYT1.
Our data suggest that homozygous THAP1 mutations cause dystonia and may be associated with a less severe dysfunction of the encoded protein compared with heterozygous disease-causing mutations.
To further evaluate the mutational spectrum of THAP1 and its associated phenotype, we sequenced THAP1 in 567 patients with focal (n = 461), segmental (n = 68), or generalized dystonia (n = 38).