cDNAs with long CAG trinucleotide repeats from human brain.

Twelve diseases, most with neuropsychiatric features, arise from trinucleotide repeat expansion mutations. Expansion mutations may also cause a number of other disorders, including several additional forms of spinocerebellar ataxia, bipolar affective disorder, schizophrenia, and autism. To obtain candiate genes for these disorders, cDNA libraries from adult and fetal human brain were screened at high stringency for clones containing CAG repeats. Nineteen cDNAs were isolated and mapped to chromosomes 1, 2, 4, 6, 7, 8, 9, 12, 16, 19, 20, and X. The clones contain between 4 and 17 consecutive CAG, CTG, TCG, or GCA triplets. Clone H44 encodes 40 consecutive glutamines, more than any other entry in the nonredundant GenBank protein database and well within the range that causes neuronal degeneration in several of the glutamine expansion diseases. Eight cDNAs encode 15 or more consecutive glutamine residues, suggesting that the gene products may function as transcription factors, with a potential role in the regulation of neurodevelopment or neuroplasticity. In particular, the conceptual translation of clone CTG3a contains 18 consecutive glutamines and is 45% identical to the C-terminal 306 residues of the mouse numb gene product. These genes are therefore candidates for diseases featuring anticipation, neurodegeneration, or abnormalities of neurodevelopment.

cDNA cloning of a human homologue of the Caenorhabditis elegans cell fate-determining gene mab-21: expression, chromosomal localization and analysis of a highly polymorphic (CAG)n trinucleotide repeat.

The two most consistent features of the diseases caused by trinucleotide repeat expansion-neuropsychiatric symptoms and the phenomenon of genetic anticipation-may be present in forms of dementia, hereditary ataxia, Parkinsonism, bipolar affective disorder, schizophrenia and autism. To identify candidate genes for these disorders, we have screened human brain cDNA libraries for the presence of gene fragments containing polymorphic trinucleotide repeats. Here we report the cDNA cloning of CAGR1, originally detected in a retinal cDNA library. The 2743 bp cDNA contains a 1077 bp open reading frame encoding 359 amino acids. This amino acid sequence is homologous (56% amino acid identify and 81% amino acid conservation) to the Caenorhabditis elegans cell fate-determining protein mab-21. CAGR1 is expressed in several human tissues, most prominently in the cerebellum, as a message of approximately 3.0 kb. The gene was mapped to 13q13, just telomeric to D13S220. A 5'-untranslated CAG trinucleotide repeat is highly polymorphic, with repeat length ranging from six to 31 triplets and a heterozygosity of 87-88% in 684 chromosomes from several human populations. One allele from an individual with an atypical movement disorder and bipolar affective disorder type II contains 46 triplets, 15 triplets longer than any other allele detected. Though insufficient data are available to link the long repeat to this clinical phenotype, an expansion mutation of the CAGR1 repeat can be considered a candidate for the etiology of disorders with anticipation or developmental abnormalities, and particularly any such disorders linked to chromosome 13.

DRPLA gene (atrophin-1) sequence and mRNA expression in human brain.

Dentatorubral pallidoluysian atrophy (DRPLA, Smith's disease) is one of five disorders currently known to result from expansion of a CAG trinucleotide repeat encoding glutamine. The reported full length cDNA sequence encodes a serine repeat and a region of alternating acidic and basic amino acids, as well as the glutamine repeat. We now report the nucleic acid and deduced amino acid sequences of the open reading frame of this gene, obtained from a series of independently isolated and sequenced cDNA clones. Eight nucleotide differences from the originally published sequence result in a change of 34 amino acids, most prominently in the region of alternating acidic and basic residues. Northern analysis and in situ hybridization indicate that atrophin-1 mRNA is expressed in multiple brain regions. The level of mRNA expression as determined by in situ hybridization in a DRPLA-diseased brain is indistinguishable from the level observed in a matched control brain. These results indicate that the correlation between atrophin-1 expression and regions of pathology in DRPLA is at best partial, and that the expanded allele does not cause a major loss of mRNA expression. The pathology of the disorder may therefore arise from the altered structure and function of the abnormal protein.

Polymorphic (AAT) in trinucleotide repeats derived from a human brain cDNA library.

Seven cDNA fragments containing polymorphic (AAT)n trinucleotide repeats were isolated from a human brain cDNA library and mapped by linkage to specific loci. These repeats may serve as gene markers or as candidates for diseases caused by expansion mutation.

Characterization of cDNA clones containing CCA trinucleotide repeats derived from human brain.

Expansion mutation is the cause of eight neuropsychiatric disorders. Thus far each disease is the result of expansion of a C-G rich trinucleotide repeat that is polymorphic for length in the general population. We now report the identification of seven novel cDNA clones with CCA or equivalent trinucleotide repeats obtained by screening a human frontal cortex cDNA library. The repeat lengths of two clones, CCA11 (linked to D20S101, expressed in human brain as a 3.2 kb message) and CCA38 (linked to D5S404), are highly polymorphic in a normal human population. CCA54, mapped to chromosome 19, appears to correspond to a portion of the human gene encoding the alpha 1 subunit of a P-type calcium channel. Expansion mutations at these loci should be considered as possible candidates in evaluating the genetic etiologies of diseases linked to chromosomes 5, 19, and 20.