Molecular detection of new mutations,resolution of ambiguous results and complex genetic counseling issues in Huntington disease

Huntington disease (HD) is an autosomal dominant neurodegenerative disorder caused by expansion of a variable length (CAG)_n repeat in the 5′ coding region of a novel gene on chromosome 4p16.3. We provide comprehensive molecular analysis of a sporadic case of HD in which a paternally derived normal length allele expanded to an affected length allele. Linkage analysis and paternity testing confirm the paternal origin of the expansion and demonstrate that unequal crossing over during meiosis is an unlikely mechanism for de novo expansion in HD. This case identifies a complex genetic counseling issue for the families of sporadic cases since calculations of recurrence risk are not possible at this time. In addition, we describe utilization of a combination of polymerase chain reaction (PCR) based assays for examination of both the CAG repeat and an adjacent variable length CCG repeat in the huntingtin gene. The combination of these assays can increase the accuracy of molecular diagnosis for HD and may clarify any ambiguous results obtained during molecular testing of HD families. © 1996 Wiley-Liss, Inc.     

Genetic background of Huntington disease in Croatia: Molecular analysis of CAG,CCG, and Delta2642 (E2642del) polymorphisms

This study presents the first molecular data on the basis and the origin of Huntington disease in Croatia and is the first such analysis performed among a Slavic population. We analyzed three trinucleotide polymorphisms in the HD gene: CAG, CCG and GAG Delta2642 (E2642del) triplets. Analysis of the CAG repeat size among 44 Huntington patients (39-66 CAGs) and 51 normal individuals (9-34 CAGs) showed that the range of the repeats was similar to previous findings. The frequency of the CCG and Delta2642 polymorphic alleles on N and HD chromosomes was found to correlate well with earlier reports for Western European populations. We found significance for both the CCG7 allele (p=0.004) and the Delta2642 allele (p<0.001) among HD chromosomes. The CCG7 allele was overpresented among affected chromosomes (94.6%), but was also the most frequent CCG allele among normal chromosomes (66.7%). Interestingly, the Delta2642 allele was present on 40.5% HD chromosomes compared to only 9.8% of control chromosomes. Our results indicate that HD mutations in Croatia could be of the same origin as in Western populations and also support the multi-step hypothesis for generating new HD alleles. Similar frequencies and distributions of both the CCG and the Delta2642 polymorphisms in Croatia and Western European normal chromosomes indicate that the prevalence rate of HD in Croatia may be as high as in Western populations. Since we estimated a lower prevalence rate (1 : 100,000), we assume that there are still many misdiagnosed and/or unrecognized cases of Huntington disease in Croatia.     

Genetic background of Huntington disease in Croatia: Molecular analysis of CAG,CCG, and Δ2642 (E2642del) polymorphisms

This study presents the first molecular data on the basis and the origin of Huntington disease in Croatia and is the first such analysis performed among a Slavic population. We analyzed three trinucleotide polymorphisms in the HD gene: CAG, CCG and GAG Δ2642 (E2642del) triplets. Analysis of the CAG repeat size among 44 Huntington patients (39‐66 CAGs) and 51 normal individuals (9‐34 CAGs) showed that the range of the repeats was similar to previous findings. The frequency of the CCG and Δ2642 polymorphic alleles on N and HD chromosomes was found to correlate well with earlier reports for Western European populations. We found significance for both the CCG7 allele (p=0.004) and the Δ2642 allele (p<0.001) among HD chromosomes. The CCG7 allele was overpresented among affected chromosomes (94.6%), but was also the most frequent CCG allele among normal chromosomes (66.7%). Interestingly, the Δ2642 allele was present on 40.5% HD chromosomes compared to only 9.8% of control chromosomes. Our results indicate that HD mutations in Croatia could be of the same origin as in Western populations and also support the multi‐step hypothesis for generating new HD alleles. Similar frequencies and distributions of both the CCG and the Δ2642 polymorphisms in Croatia and Western European normal chromosomes indicate that the prevalence rate of HD in Croatia may be as high as in Western populations. Since we estimated a lower prevalence rate (1 : 100,000), we assume that there are still many misdiagnosed and/or unrecognized cases of Huntington disease in Croatia. © 2002 Wiley‐Liss, Inc.     

Analysis of triplet repeats in the huntingtin gene in Japanese families affected with Huntington''s disease.

Huntington's disease (HD) is associated with the expansion of a CAG repeat in the huntingtin gene. Molecular analysis of the repeat in Japanese HD patients and normal controls was performed. The size of the CAG repeat ranged from 37 to 95 repeats in affected subjects and from seven to 29 in normal controls. A significant correlation was found between the age of onset and the CAG expansion. The length of the expanded repeat is unstable in meiotic transmission and large increases occur in paternal transmission. At the same time the CCG repeat polymorphism adjacent to the CAG repeat was analysed and haplotypes of HD chromosomes were identified. Strong linkage disequilibrium was found between the CAG repeat expansion and an allele of (CCG)10 in Japanese HD chromosomes. It is distinct from that described previously in western populations. Western HD chromosomes strongly associate with an allele of (CCG)7. Possible mechanisms underlying the disequilibrium in Japan are discussed.     

Gender of the embryo contributes to CAG instability in transgenic mice containing a Huntington's disease gene

Gender is known to influence the transmission of trinucleotide repeats in human disease. However, the molecular basis for the parent-of-origin effect associated with trinucleotide repeat expansion is not known. We have followed, during transmission, the fate of the CAG trinucleotide repeat in a transgene containing the exon 1 portion of the human Huntington's disease (HD) gene. Similar to humans, the mouse transmits expansions predominantly through the male germ line. Surprisingly, we find that the CAG repeat size of the mutant human HD gene is different in male and female progeny from identical fathers. Males predominantly expand the repeat whereas females predominantly contract the repeat. In contrast to the classic definition of imprinting, CAG expansion is influenced by the gender of the embryo. Our results raise the possibility that there are X- or Y-encoded factors that influence repair or replication of DNA in the embryo. Gender dependence in the embryo may explain why expansion in HD from premutation to disease primarily occurs through the paternal line.     

Somatic mosaicism in sperm is associated with intergenerational (CAG)n changes in Huntington disease

We have analysed the CAG repeat in the Huntington disease (HD)gene in sperm and blood from 20 unrelated HD patients. Althoughthe CAG repeat displayed significant mosaicism in sperm fromall individuals, there were marked differences in the degreeof repeat instability. Individuals who had either inheritedor transmitted an expanded CAG repeat displayed the highestlevels of repeat mosaicism, whereas individuals who had inheritedor transmitted a contracted repeat had very limited CAG mosaicismin sperm. A strong association between intergenerational changein CAG allele size and the level of sperm repeat mosaicism wasdetermined (P = 0.019). In contrast, neither blood CAG sizenor repeat mosaicism in blood, were significantly associatedwith intergenerational CAG changes. These data suggest the presenceof a c/s-acting factor, separate from CAG size, that stronglyinfluences the intergenerational behaviour of the CAG repeat.Additional studies are needed to determine whether analysisof CAG mosaicism in sperm is useful for assessing an individual'srisk for transmitting large expansions or contractions to hisoffspring.     

DNA haplotype analysis of Huntington disease reveals clues to the origins and mechanisms of CAG expansion and reasons for geographic variations of prevalence

This study of allelic association using three Intra- and twoextragenlc markers within 150 kb of the Huntlngton disease (HD)mutation has provided evidence for linkage disequilibrium forfour of five markers. Haplotype analysis of 67 HD families usingmarkers in strong linkage disequilibrium with HD Identifiedtwo haplotypes underlying 77.6% of HD chromosomes. Normal chromosomeswith these two haplotypes had a mean number of CAG repeats significantlylarger than and an altered distribution of CAG repeats comparedwith other normal chromosomes. Furthermore, haplotype analysisof five new mutation families reveals that HD has arisen onthese same two chromosomal haplotypes. These findings suggestthat HD arises more frequently on chromosomes with specificDNA haplotypes and higher CAG repeat lengths. We then studiedCAG and CCG repeat lengths In the HD gene on 896 control chromosomesfrom different ancestries to determine whether the markedlyreduced frequency of HD in Finland, Japan, China and AfricanBlacks Is associated with an altered frequency of DNA haplotypesand subsequently lower CAG lengths on control chromosomes comparedto populations of Western European descent. The results showa highly significant positive correlation between CAG size onnormal chromosomes and the frequency of HD and a significantinverse relationship between CAG and CCG repeat lengths. Inpopulations with lowered prevalence rates of HD, CAG repeatlengths are smaller and the distribution of CCG alleles Is markedlydifferent from Western European populations. These findingssuggest that, in addition to European emigration, new mutationsmake a contribution to geographical variation of prevalencerates and is consistent with a multistep model of HD developingfrom normal chromosomes with higher CAG repeat lengths.     

New Huntington disease mutation arising from a paternal CAG34 allele showing somatic length variation in serially passaged lymphoblasts.

The analysis of somatic CAG triplet variation in lymphoblastoid cell lines from subjects carrying alleles of intermediate length (IA(33CAG) and IA(34CAG)) in Huntington disease (HD) gene disclosed instability in the DNA of the person, from whom a new expansion mutation of 45 triplets originated. The triplet size increased after about 30 passages in cell cultures in lymphoblasts with the IA(34) genotype. Lymphoblasts may provide an appropriate model for studying repeat instability in subjects with poly(CAG) repeat disorders. HD shows somatic, in addition to germ-line instability, highlighting the propensity to somatic CAG variation in human cells even with repeat numbers under the expanded edge. Factors potentially cis acting with the mutation, other than those reported in this study (CCG polymorphic stretch, the deletion of the glutamic acid residue at position 2642 and the 4-codon segment between CAG and CCG polymorphisms), should be searched for and analyzed.     

A single allele from the polymorphic CCG rich sequence immediately 3' to the unstable CAG trinucleotide in the IT15 cDNA shows almost complete disequilibrium with Huntington's disease chromosomes in the Scottish population

The CCG rich sequence immediately 3' to the CAG repeat thatis expanded in Huntington's disease (HD) has recently been shownto be polymorphic with at least 4 alleles differing by multiplesof 3 bp being found in the normal population. We have studiedthe allele distribution in 180 HD families resident in Scotlandand have found very strong evldence for disequilibrium in thispopulation. For the 131 families where phase was unambiguouslydetermined, 130 were shown to have a CCG repeat allele of 176bp cosegregating with the HD chromosome. This observation issignificantly different to the normal population distributionwhere 31% of people have an allele of 185 bp. The evidence forand against a possible founder effect in the Scottish HD populationis discussed. We propose the hypothesis that we may have identifieda region of the IT15 gene that is critical in Huntington's disease.     

A critical window of CAG repeat-length correlates with phenotype severity in the R6/2 mouse model of Huntington's disease

The R6/2 mouse is the most frequently used model for experimental and preclinical drug trials in Huntington's disease (HD). When the R6/2 mouse was first developed, it carried exon 1 of the huntingtin gene with ~150 cytosine-adenine-guanine (CAG) repeats. The model presented with a rapid and aggressive phenotype that shared many features with the human condition and was particularly similar to juvenile HD. However, instability in the CAG repeat length due to different breeding practices has led to both decreases and increases in average CAG repeat lengths among colonies. Given the inverse relationship in human HD between CAG repeat length and age at onset and to a degree, the direct relationship with severity of disease, we have investigated the effect of altered CAG repeat length. Four lines, carrying ~110, ~160, ~210, and ~310 CAG repeats, were examined using a battery of tests designed to assess the basic R6/2 phenotype. These included electrophysiological properties of striatal medium-sized spiny neurons, motor activity, inclusion formation, and protein expression. The results showed an unpredicted, inverted "U-shaped" relationship between CAG repeat length and phenotype; increasing the CAG repeat length from 110 to 160 exacerbated the R6/2 phenotype, whereas further increases to 210 and 310 CAG repeats greatly ameliorated the phenotype. These findings demonstrate that the expected relationship between CAG repeat length and disease severity observed in humans is lost in the R6/2 mouse model and highlight the importance of CAG repeat-length determination in preclinical drug trials that use this model.     

A CCG repeat polymorphism adjacent to the CAG repeat in the Huntington disease gene: implications for diagnostic accuracy and predictive testing

The polymorphic CAG repeat that is expanded on Huntington disease(HD) chromosomes is flanked by a CCG repeat. Here we show thatthis CCG tract, previously assumed to be invariant at sevenCCG repeats, is also polymorphic. We have identified five CCGalleles from 205 normal chromosomes, with 137 (67%) having allelesof seven repeats, five (2%) with nine repeats, 61 (30%) with10 repeats, one (0.5%) with 11 repeats and one (0.5%) with 12repeats. In contrast, analysis of 113 HD chromosomes revealedthat the majority (105 chromosomes, 93%) contained seven CCGrepeats, while the remaining eight chromosomes (7%) had allelesizes of 10 CCG repeats. Despite evidence that both CAG andCCG are polymorphic on normal chromosomes, we have found thatit is only the CAG length that has a significant impact on ageof onset. The discovery of larger sized CCG alleles, however,has significant implications for the assessment of CAG repeatlength, particularly for persons with estimated CAG size of36–42 repeats, since an overestimation of CAG length inthis range could result in erroneous information being impartedto patients.     

The CAG repeat at the Huntington disease gene in the Portuguese population: insights into its dynamics and to the origin of the mutation

Huntington disease (HD) is caused by an expansion of a CAG repeat. This repeat is a dynamic mutation that tends to undergo intergenerational instability. We report the analysis of the CAG repeat in a large population sample (2,000 chromosomes) covering all regions of Portugal, and a haplotype study of (CAG)_n and (CCG)_n repeats in 140 HD Portuguese families. Intermediate class 2 alleles represented 3.0% of the population; and two expanded alleles (36 and 40 repeats, 0.11%) were found. There was no evidence for geographical clustering of the intermediate or expanded alleles. The Portuguese families showed three different HD founder haplotypes associated with 7-, 9- or 10-CCG repeats, suggesting the possibility of different origins for the HD mutation among this population. The haplotype carrying the 7-CCG repeat was the most frequent, both in normal and in expanded alleles. In general, we propose that three mechanisms, occurring at different times, may lead to the evolution from normal CAGs to full expansion: first, a mutation bias towards larger alleles; then, a stepwise process that could explain the CAG distributions observed in the more recent haplotypes; and, finally, a pool of intermediate (class 2) alleles more prone to give rise to expanded HD alleles.     

Sequence analysis of the CCG polymorphic region adjacent to the CAG triplet repeat of the HD gene in normal and HD chromosomes.

The CAG expansion responsible for Huntington's disease (HD) is followed by an adjacent polymorphic CCG repeat region which may interfere with a PCR based diagnosis. We have sequenced this region in 52 unrelated HD patients, from both normal and HD chromosomes. Fifty percent of the normal alleles were (CCG)7(CCT)2, 48% (CCG)10(CCT)2, and 2% (CCG)7(CCT)3. In contrast (CCG)7(CCT)2 was found in 85% of the HD alleles which represents significant linkage disequilibrium with the HD mutation.     

Neurological abnormalities in a knock-in mouse model of Huntington's disease

Mice representing precise genetic replicas of Huntington's disease (HD) were made using gene targeting to replace the short CAG repeat of the mouse Huntington's disease gene homolog (HDH:) with CAG repeats within the length range found to cause HD in humans. Mice with alleles of approximately 150 units in length exhibit late-onset behavioral and neuroanatomic abnormalities consistent with HD. These symptoms include a motor task deficit, gait abnormalities, reactive gliosis and the formation of neuronal intranuclear inclusions predominating in the striatum. This model differs from previously described HDH: knock-ins by its method of construction, longer repeat length and more severe phenotype. To our knowledge, this is the first knock-in mouse model of HD to show increased glial fibrillary acidic protein immunoreactivity in the striatum, suggesting that these mice have neuronal injury similar to that found early in the course of HD. These mice will serve as useful reagents in experiments designed to reveal the molecular nature of neuronal dysfunction underlying HD.     

Analysis of CAG and CCG repeats in Huntingtin gene among HD patients and normal populations of India

We have analysed the distribution of CAG and adjacent polymorphic CCG repeats in the Huntingtin gene in 28 clinically diagnosed unrelated Huntington's disease (HD) patients and in normal individuals belonging to different ethnic groups of India. The range of expanded CAG repeats in HD patients varied from 41 to 56 repeats, whereas in normal individuals this number varied between 11 and 31 repeats. We identified six CCG alleles from a total of 380 normal chromosomes that were pooled across different ethnic populations of India. There were two predominant alleles: (CCG)7 (72.6%) and (CCG)10 (20%). We report here for the first time one four-repeat CCG allele which has not been found in any population so far. We found 30 haplotypes (two loci CAG-CCG) for 380 normal chromosomes. In the present study, no statistically significant preponderance of expanded HD alleles was found on either (CCG)7 or (CCG)10 backgrounds. Our studies suggest that the overall prevalence of HD in Indian populations may not be as high as in Western populations. Further studies are necessary to identify the origin of HD mutation in these populations.     

Ancient origin of the CAG expansion causing Huntington disease in a Spanish population

Huntington disease (HD) is an autosomal dominant neurodegenerative disorder characterized clinically by progressive motor impairment, cognitive decline, and emotional deterioration. The disease is caused by the abnormal expansion of a CAG trinucleotide repeat in the first exon of the huntingtin gene in chromosome 4p16.3. HD is spread worldwide and it is generally accepted that few mutational events account for the origin of the pathogenic CAG expansion in most populations. We have investigated the genetic history of HD mutation in 83 family probands from the Land of Valencia, in Eastern Spain. An analysis of the HD/CCG repeat in informative families suggested that at least two main chromosomes were associated in the Valencian population, one associated with allele 7 (77 mutant chromosomes) and one associated with allele 10 (two mutant chromosomes). Haplotype A-7-A (H1) was observed in 47 out of 48 phase-known mutant chromosomes, obtained by segregation analysis, through the haplotype analysis of rs1313770-HD/CCG-rs82334, as it also was in 120 out of 166 chromosomes constructed by means of the PHASE program. The genetic history and geographical distribution of the main haplotype H1 were both studied by constructing extended haplotypes with flanking short tandem repeats (STRs) D4S106 and D4S3034. We found that we were able to determine the age of the CAG expansion associated with the haplotype H1 as being between 4,700 and 10,000 years ago. Furthermore, we observed a nonhomogenous distribution in the different regions associated with the different extended haplotypes of the ancestral haplotype H1, suggesting that local founder effects have occurred.     

Corticostriatal synaptic function in mouse models of Huntington's disease: early effects of huntingtin repeat length and protein load

Huntington's disease (HD) is an autosomal dominant, late onset, neurodegenerative disease characterized by motor deficits and dementia that is caused by expansion of a CAG repeat in the HD gene. Clinical manifestations result from selective neuronal degeneration of predominantly GABAergic striatal medium-sized spiny neurons (MSNs). A growing number of studies demonstrate that personality, mood and cognitive disturbances are some of the earliest signs of HD and may reflect synaptic dysfunction prior to neuronal loss. Previous studies in striatal MSNs demonstrated early alterations in NMDA-type glutamate receptor currents in several HD mouse models, as well as evidence for presynaptic dysfunction prior to disease manifestations in the R6/2 HD fragment mouse model. We have compared corticostriatal synaptic function in full-length, human HD gene-carrying YAC transgenic mice expressing a non-pathogenic CAG repeat (YAC18; control) with three increasingly severe variants of pathogenic HD gene-expressing mice (YAC72 and two different lines of YAC128), at ages that precede any detectable disease phenotype. We report presynaptic dysfunction and a propensity towards synaptic depression in YAC72 and YAC128 compared to YAC18 mice, and, in the most severe model, we also observed altered AMPA receptor function. When normalized to evoked AMPAR currents, postsynaptic NMDAR currents are augmented in all three pathogenic HD YAC variants. These findings demonstrate multiple perturbations to corticostriatal synaptic function in HD mice, furthering our understanding of the early effects of the HD mutation that may contribute to cognitive dysfunction, mood disorders and later development of more serious dysfunction. Furthermore, this study provides a set of neurophysiological sequelae against which to test and compare other mouse models and potential therapies in HD.