Anticipation (genetics)

About: Anticipation (genetics) is a research topic. Over the lifetime, 669 publications have been published within this topic receiving 21784 citations. The topic is also known as: Genetic Anticipation & Anticipation, Genetic.

The CAG/Polyglutamine Tract Diseases: Gene Products and Molecular Pathogenesis

Abstract: In the past few years, a new type of genetic mutation, expansion of trinucleotide repeats, has been shown to cause neurologic disease. This new class of mutations was first identified in 1991 as the underlying genetic defect in spinal and bulbar muscular atrophy and the fragile X syndrome, and in recent years, trinucleotide repeat expansions have been found to be the causative mechanism in 10 other neurologic diseases. These mutations are produced by heritable unstable DNA and are termed "dynamic mutations" because of changes in the number of repeat units inherited from generation to generation. In the normal population, these repeat units, although polymorphic, are stably inherited. To date four types of trinucleotide repeat expansions have been identified: (1) long cytosine-guanine-guanine (CGG) repeats in the two fragile X syndromes (FRAXA and FRAXE), (2) long cytosine-thymine-guanine (CTG) repeat expansions in myotonic dystrophy, (3) long guanine-adenine-adenine repeat expansions in Friedreich's ataxia and (4) short cytosine-adenine-guanine repeat expansions (CAG) which are implicated in eight neurodegenerative disorders and are the focus of this review. Diseases that are caused by trinucleotide repeat expansions exhibit a phenomenon called anticipation that can not be explained by conventional Mendelian genetics. Anticipation is defined as increase in the severity of disease with an earlier age of onset of symptoms in successive generations. Anticipation is often influenced by the sex of the transmitting parent, and for most CAG repeat disorders, the disease is more severe when paternally transmitted. The severity and the age of onset of the disease have been correlated with the size of the repeats on mutant alleles, with the age of onset being inversely correlated with the size of the expansion. In all eight disorders caused by CAG repeat expansion, the repeat is located within the coding region of the gene involved and in all cases it is translated into a stretch of polyglutamines in the respective proteins. All the proteins are unrelated outside of the polyglutamine stretch and most are novel with exception of the androgen receptor and the voltage gated alpha 1A calcium channel, which are mutated in spinal and bulbar muscular atrophy and spinocerebellar ataxia type 6. It is intriguing that the proteins are ubiquitously expressed in both peripheral and nervous tissue but in each disorder only a select population of nerve cells are targeted for degeneration as a consequence of the expanded CAG repeat. Current thinking among scientists working on the molecular mechanisms of neurodegeneration in these diseases is that the presence of an expanded polyglutamine confers a gain of function onto the involved protein. To understand the mechanisms underlying the pathogenesis of these diseases, investigators have turned to generating transgenic mice which recapitulate some of the features of the human disease and hence are excellent model systems to study the progression of the disease in vivo.

Psychiatric and cognitive difficulties as indicators of juvenile huntington disease onset in 29 patients : A matter of perspective. Commentary

Abstract: Background: Juvenile Huntington disease (JHD) is a rare clinical entity characterized by an age at onset younger than 20 years. Patients usually have an expansion of more than 60 CAG repeats in the Huntington disease (HD) gene, and the disease is usually inherited from the father. In general, precise age at onset is difficult to assess in HD because of insidious onset and anosognosia. Onset of motor difficulty signs is usually used to define age at onset. Objectives: To evaluate diagnosis delay in patients with JHD and to analyze the clinical and genetic features of JHD. Design: Retrospective clinical and genetic review. Setting: Referral center for HD at Salpetriere Hospital, Paris, France. Patients: Twenty-nine patients with HD with onset before or at age 20 years who carried an abnormal CAG repeat expansion in the HD gene. Results: The mean ± SD delay before diagnosis was 9 ± 6 years (range, 0-21 years). The most remarkable signs at onset were severe psychiatric and cognitive disturbances (19 of 29 [65.5%]); rigidity was absent. Unusual signs at onset included myoclonic head tremor in 3 patients, severe isolated drug or alcohol addiction in 2, psychotic disorder in 1, and difficulty writing in 1. One patient had progressive cerebellar signs associated with cerebellar atrophy on cerebral magnetic resonance imaging before signs suggestive of HD appeared. During the course of the disease, psychiatric disturbances were severe, with at least 1 suicide attempt in 7 of 29 patients. Transmission was maternal in 25% of patients. Forty-six percent of patients withJHD had fewer than 60 CAG repeats; 6 of these patients inherited the disease from their father. Anticipation (mean±SD, 18±9 vs 25±11 years; P=.27) and age at onset (mean±SD, 17.14±2.2 vs 13.29±5.5 years; P=.09) was similar in patients with maternal compared with paternal transmission, respectively. Conclusions: Patients with JHD started showing disease symptoms through nonspecific features, mostly psychiatric and cognitive difficulties. This led to misdiagnosis or diagnosis delay, especially in cases without a familial history of HD. Maternal transmissions and expansions of fewer than 60 CAG repeats were unexpectedly frequent in this series and should not be considered exceptional.

Psychiatric and cognitive difficulties as indicators of juvenile huntington disease onset in 29 patients.

Abstract: tients, severe isolated drug or alcohol addiction in 2, psychotic disorder in 1, and difficulty writing in 1. One patient had progressive cerebellar signs associated with cerebellar atrophy on cerebral magnetic resonance imaging before signs suggestive of HD appeared. During the course of the disease, psychiatric disturbances were severe, with at least 1 suicide attempt in 7 of 29 patients. Transmission was maternal in 25% of patients. Forty-six percent of patients with JHD had fewer than 60 CAG repeats; 6 of these patients inherited the disease from their father. Anticipation (mean±SD, 18±9 vs 25±11 years;P=.27) and age at onset (mean±SD, 17.14±2.2 vs 13.29±5.5 years; P=.09) was similar in patients with maternal compared with paternal transmission, respectively. Conclusions: Patients with JHD started showing disease symptoms through nonspecific features, mostly psychiatric and cognitive difficulties. This led to misdiagnosis or diagnosis delay, especially in cases without a familial history of HD. Maternal transmissions and expansions of fewer than 60 CAG repeats were unexpectedly frequent in this series and should not be considered exceptional. Arch Neurol. 2007;64:813-819

An expanded CAG repeat sequence in spinocerebellar ataxia type 7.

Abstract: Expanded CAG repeat sequences have been identified in the coding region of genes mutated in several neurodegenerative disorders, including spinocerebellar ataxia type 1 and Machado-Joseph disease. In all disorders described to date the CAG expansion codes for an elongated polyglutamine chain. An increased polyglutamine chain size leads to a more severe disease, thus correlating with the genetic anticipation seen in repeat expansion disorders. Spinocerebellar ataxia type 7 (SCA7) is an autosomal dominant spinocerebellar ataxia with anticipation and a progressive degeneration of the cerebellar cortex. Using repeat expansion detection (RED), a method in which a thermostable ligase is used to detect repeat expansions directly from genomic DNA, we have analyzed 8 SCA7 families for the presence of CAG repeat expansions. RED products of 150-240 bp were found in all affected individuals and found to cosegregate with the disease (P < 0.000001, n = 66), indicating strongly that a CAG expansion is the cause of SCA7. On the basis of a previously established correlation between RED product sizes and actual repeat sizes in Machado-Joseph disease, we were able to estimate the average expansion size in SCA7 to be 64 CAG copies.

De Novo Expansion of Intermediate Alleles in Spinocerebellar Ataxia 7

Abstract: Spinocerebellar ataxia 7 (SCA7) is the eighth neurodegenerative disorder caused by a translated CAG repeat expansion. Normal SCA7 alleles carry from four to 35 CAG repeats, whereas pathological alleles carry from 37 to approximately 200. Intermediate alleles (IAs), with 28-35 repeats in the SCA7 gene are exceedingly rare in the general population and are not associated with the SCA7 phenotype, although they have been found among relatives of four SCA7 families. In two of these families, IAs bearing 35 and 28 CAG repeats gave rise, during paternal transmission, to SCA7 expansions of 57 and 47 repeats, respectively, that were confirmed by haplotype reconstructions in one case and by inference in the other. Furthermore, the four haplotypes segregating with IAs were identical to the expanded alleles in each kindred, but differed among the families, indicating multiple origins of the SCA7 mutation in these families with different geographical origins. Our results provide the first evidence of de novo SCA7 expansions from IAs that are not associated with the phenotype but can expand to the pathological range during some paternal transmissions. IAs that segregate in unaffected branches of the pedigrees might, therefore, constitute a reservoir for future de novo mutations that occur in a recurrent but random manner. This would explain the persistence of the disease in spite of the great anticipation (approximately 20 years/generation) characteristic of SCA7. So far, de novo expansions among the disorders caused by polyglutamine repeats have only been demonstrated in Huntington's disease.