First deep intronic mutation in the NOTCH3 gene in a family with late-onset CADASIL.

CADASIL is the most prominent inherited form of vascular dementia. The main clinical features include migraine with aura, stroke, mood disturbances, and cognitive decline, with a mid-life (30s-60s) adult onset. Genetic testing is the gold standard for the diagnosis. CADASIL is caused mostly by missense mutations in the NOTCH3 gene, invariably involving a cysteine residue. Only a couple of splice site mutations have been reported. In a few pathologically defined patients, genetic mutations remain unidentified. We report a family with late-onset CADASIL phenotype carrying a novel intronic deletion in the NOTCH3 gene (c.341-26_24delAAC). Transcript analysis revealed a splicing alteration, with the complete intron 3 retention. The insertion was in-frame and encoded an extra 25 amino acids, including 1 cysteine. This is the first report of an aberrant splicing event of the NOTCH3 gene associated with a mutation far away from the canonical splice site. Our finding suggests that the assays used to evaluate splicing should be mandatory in the diagnostic setting of genetically undefined CADASIL cases.

First report of a pathogenic mutation on exon 24 of the NOTCH3 gene in a CADASIL family.

Cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL) is a genetically transmitted small vessel disease clinically characterized by migraine, recurrent subcortical strokes, and cognitive and mood disorders. Pathogenic mutations are located on any of the exons of the NOTCH3 gene coding for epidermal-growth factor (EGF)-like repeats of the extracellular domain of the NOTCH3 receptor. Because the gene is large and the mutations cluster on some exons, many laboratories restrict the analysis to these exons. We report the first missense mutation involving exon 24 and causing CADASIL in a 64-year-old man. The patient was admitted to the hospital for a loss of consciousness accompanied by profuse sweating. On examination, some parkinsonian features were present. Over the last 4 years, he had developed postural instability and gait disturbances with repeated falls, behavioral disorders, and cognitive impairment. A diagnostic hypothesis of atypical parkinsonism had been advanced. The presence of multiple subcortical lacunar infarcts and leukoencephalopathy extended to the external capsule on cerebral MRI suggested the presence of CADASIL. The diagnosis was confirmed by finding a heterozygous mutation leading to a cysteine substitution on exon 24 of the NOTCH3 gene. One proband's brother, who had progressive gait disturbances, unilateral action tremor and bradykinesia, and an asymptomatic niece also resulted affected. This report underlines that when CADASIL is suspected the genetic analysis should be performed on all the NOTCH3 exons coding for EGF-like repeats including exon 24 and confirms that CADASIL may have heterogeneous phenotypes.

Alu-element insertion in an OPA1 intron sequence associated with autosomal dominant optic atrophy.

PURPOSE: Autosomal dominant optic atrophy (ADOA) is the most common form of hereditary optic neuropathy caused by mutations in the optic atrophy 1 (OPA1) gene. It is characterized by insidious onset with a selective degeneration of retinal ganglion cells, variable loss of visual acuity, temporal optic nerve pallor, tritanopia, and development of central, paracentral, or cecocentral scotomas. Here we describe the clinical and molecular findings in a large Italian family with ADOA. METHODS: Routine ophthalmologic examination and direct sequencing of all coding regions of the OPA1 gene were performed. Further characterization of a new OPA1 gene insertion was performed by reverse transcription-PCR (RT-PCR) of RNA from patients and control subjects. RESULTS: We identified an Alu-element insertion located in intron 7 of OPA1 causing an in-frame deletion of exon 8 in 18 family members. CONCLUSIONS: The predicted consequence of this mutation is the loss of the guanosine triphosphatase (GTPase) activity of OPA1. Alu insertions have been reported in the literature as causing human genetic disease. However, this is the first report of a pathogenic OPA1 gene mutation resulting from an Alu insertion.