Germline and somatic NF1 gene mutation spectrum in NF1-associated malignant peripheral nerve sheath tumors (MPNSTs).

About 10% of neurofibromatosis type 1 (NF1) patients develop malignant peripheral nerve sheath tumors (MPNSTs) and represent considerable patient morbidity and mortality. Elucidation of the genetic mechanisms by which inherited and acquired NF1 disease gene variants lead to MPNST development is important. A study was undertaken to identify the constitutional and somatic NF1 mutations in 34 MPNSTs from 27 NF1 patients. The NF1 germline mutations identified in 22 lymphocytes DNA from these patients included seven novel mutations and a large 1.4-Mb deletion. The NF1 germline mutation spectrum was similar to that previously identified in adult NF1 patients without MPNST. Somatic NF1 mutations were identified in tumor DNA from 31 out of 34 MPNSTs, of which 28 were large genomic deletions. The high prevalence (>90%) of such deletions in MPNST contrast with the =or<20% found in benign neurofibromas and is indicative of the involvement of different mutational mechanisms in these tumors. Coinactivation of the TP53 gene by deletion, or by point mutation along with NF1 gene inactivation, is known to exacerbate disease symptoms in NF1, therefore TP53 gene inactivation was screened. DNA from 20 tumors showed evidence for loss of heterozygosity (LOH) across the TP53 region in 11 samples, with novel TP53 point mutations in four tumors.

Dentatorubral pallidoluysian atrophy in South Wales.

BACKGROUND: Dentatorubral pallidoluysian atrophy (DRPLA) is a rare, autosomal dominant, clinically heterogeneous neurodegenerative disorder characterised clinically by progressive dementia, ataxia, chorea, myoclonic epilepsy and psychiatric disturbance and pathologically by combined degeneration of the dentatorubral and pallidoluysian systems. DRPLA has a marked ethnic predilection, most commonly reported in Japan and thought to be rare in Caucasian populations. METHODS: We describe the clinical and genetic characteristics of 17 patients with DRPLA segregating in four families in South Wales. RESULTS: There was marked clinical heterogeneity with considerable overlap of symptoms and signs between and within families. The age of onset ranged from 34 to 60 years with an earlier onset associated with myoclonic epilepsy and a later onset associated with a Huntington disease-like presentation. We identified a distinct haplotype within one family not present within the other three families, suggesting that the expansion in at least one family did not arise from an immediate common ancestor. Analysis of repeat length polymorphisms in 306 Welsh control patients identified 14 (4.6%) with repeat lengths in the high-normal range, compared with 0% and 7.4% in previously reported north American Caucasian and Japanese control populations, respectively. CONCLUSIONS: DRPLA may not be as geographically or ethnically restricted as previously thought and the diagnosis should be considered in non-Asian patients presenting with a wide spectrum of neurological disease, especially if there is a dominant family history of dementia or movement disorder. The prevalence of high-normal length alleles may account for the relatively high prevalence of DRPLA in Wales.

Case control analysis of repeat expansion size in ataxia.

Spinocerebellar ataxias (SCAs) are a group of clinically and genetically heterogeneous neurological diseases. The expansion of unstable microsatellite repeats has been identified as the underlying pathogenic cause of 10 subtypes of autosomal dominant SCAs. The aetiology of sporadic SCA is unknown. The aim of this study was to investigate the effect of large normal repeats in patients presenting with sporadic or familial ataxia compared to a control population. The size of the expansion was determined using a fluorescent PCR approach in 10 common SCA genes: SCA-1 (ATXN1), SCA-2 (ATXN2), SCA-3 (ATXN3), SCA-6 (CACNA1A), SCA-7 (ATXN7), SCA-8 (ATXN8OS), SCA-10 (ATXN10), SCA-12 (PPP2R2B), SCA-17 (TBP) and DRPLA (ATN1), in 165 ataxia patients and 307 controls of Welsh origin. There was no difference between cases and controls in the distribution of the large normal alleles, or in the distribution of the combined CAG repeats. The normal allele distribution in the Welsh population was largely similar to that of other Caucasian populations. Our study failed to demonstrate an effect of large normal repeats on the susceptibility to develop ataxia.