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  • 1.
    Almqvist, E
    et al.
    Kanada.
    Adam, S
    Bloch, M
    Fuller, A
    Welch, P
    Eisenberg, D
    Whelan, D
    Macgregor, D
    Meschino, W
    Hayden, M R
    Risk reversals in predictive testing for Huntington disease.1997In: American Journal of Human Genetics, ISSN 0002-9297, E-ISSN 1537-6605, Vol. 61, no 4, p. 945-52Article in journal (Refereed)
    Abstract [en]

    The first predictive testing for Huntington disease (HD) was based on analysis of linked polymorphic DNA markers to estimate the likelihood of inheriting the mutation for HD. Limits to accuracy included recombination between the DNA markers and the mutation, pedigree structure, and whether DNA samples were available from family members. With direct tests for the HD mutation, we have assessed the accuracy of results obtained by linkage approaches when requested to do so by the test individuals. For six such individuals, there was significant disparity between the tests. Three went from a decreased risk to an increased risk, while in another three the risk was decreased. Knowledge of the potential reasons for these changes in results and impact of these risk reversals on both patients and the counseling team can assist in the development of strategies for the prevention and, where necessary, management of a risk reversal in any predictive testing program.

  • 2.
    Almqvist, E W
    et al.
    Kanada.
    Bloch, M
    Brinkman, R
    Craufurd, D
    Hayden, M R
    A worldwide assessment of the frequency of suicide, suicide attempts, or psychiatric hospitalization after predictive testing for Huntington disease.1999In: American Journal of Human Genetics, ISSN 0002-9297, E-ISSN 1537-6605, Vol. 64, no 5, p. 1293-304Article in journal (Refereed)
    Abstract [en]

    Prior to the implementation of predictive-testing programs for Huntington disease (HD), significant concern was raised concerning the likelihood of catastrophic events (CEs), particularly in those persons receiving an increased-risk result. We have investigated the frequency of CEs-that is, suicide, suicide attempt, and psychiatric hospitalization-after an HD predictive-testing result, through questionnaires sent to predictive-testing centers worldwide. A total of 44 persons (0.97%) in a cohort of 4,527 test participants had a CE: 5 successful suicides, 21 suicide attempts, and 18 hospitalizations for psychiatric reasons. All persons committing suicide had signs of HD, whereas 11 (52.4%) of 21 persons attempting suicide and 8 (44.4%) of 18 who had a psychiatric hospitalization were symptomatic. A total of 11 (84.6%) of 13 asymptomatic persons who experienced a CE during the first year after HD predictive testing received an increased-risk result. Factors associated with an increased risk of a CE included (a) a psychiatric history </=5 years prior to testing and (b) unemployed status. The frequency of CEs did not differ between those persons receiving results of predictive testing through linkage analysis in whom there was only changes in direction of risk and those persons receiving definitive results after analysis for the mutation underlying HD. These findings provide insights into the frequency, associated factors, and timing of CEs in a worldwide cohort of persons receiving predictive-testing results and, as such, highlight persons for whom ongoing support may be beneficial.

  • 3.
    Andrew, S E
    et al.
    Kanada.
    Goldberg, Y P
    Kremer, B
    Squitieri, F
    Theilmann, J
    Zeisler, J
    Telenius, H
    Adam, S
    Almquist, E
    Anvret, M
    Huntington disease without CAG expansion: phenocopies or errors in assignment?1994In: American Journal of Human Genetics, ISSN 0002-9297, E-ISSN 1537-6605, Vol. 54, no 5, p. 852-63Article in journal (Refereed)
    Abstract [en]

    Huntington disease (HD) has been shown to be associated with an expanded CAG repeat within a novel gene on 4p16.3 (IT15). A total of 30 of 1,022 affected persons (2.9% of our cohort) did not have an expanded CAG in the disease range. The reasons for not observing expansion in affected individuals are important for determining the sensitivity of using repeat length both for diagnosis of affected patients and for predictive testing programs and may have biological relevance for the understanding of the molecular mechanism underlying HD. Here we show that the majority (18) of the individuals with normal sized alleles represent misdiagnosis, sample mix-up, or clerical error. The remaining 12 patients represent possible phenocopies for HD. In at least four cases, family studies of these phenocopies excluded 4p16.3 as the region responsible for the phenotype. Mutations in the HD gene that are other than CAG expansion have not been excluded for the remaining eight cases; however, in as many as seven of these persons, retrospective review of these patients' clinical features identified characteristics not typical for HD. This study shows that on rare occasions mutations in other, as-yet-undefined genes can present with a clinical phenotype very similar to that of HD.

  • 4.
    Brinkman, R R
    et al.
    Kanada.
    Mezei, M M
    Theilmann, J
    Almqvist, E
    Hayden, M R
    The likelihood of being affected with Huntington disease by a particular age, for a specific CAG size.1997In: American Journal of Human Genetics, ISSN 0002-9297, E-ISSN 1537-6605, Vol. 60, no 5, p. 1202-10Article in journal (Refereed)
    Abstract [en]

    Prior studies describing the relationship between CAG size and the age at onset of Huntington disease (HD) have focused on affected persons. To further define the relationship between CAG repeat size and age at onset of HD, we now have analyzed a large cohort of affected and asymptomatic at-risk persons with CAG expansion. This cohort numbered 1,049 persons, including 321 at-risk and 728 affected individuals with a CAG size of 29-121 repeats. Kaplan-Meier analysis has provided curves for determining the likelihood of onset at a given age, for each CAG repeat length in the 39-50 range. The curves were significantly different (P < .0005), with relatively narrow 95% confidence intervals (95% CI) (+/-10%). Penetrance of the mutation for HD also was examined. Although complete penetrance of HD was observed for CAG sizes of > or = 42, only a proportion of those with a CAG repeat length of 36-41 showed signs or symptoms of HD within a normal life span. These data provide information concerning the likelihood of being affected, by a specific age, with a particular CAG size, and they may be useful in predictive-testing programs and for the design of clinical trials for persons at increased risk for HD.

  • 5.
    Falush, D
    et al.
    Japan.
    Almqvist, E W
    Brinkmann, R R
    Iwasa, Y
    Hayden, M R
    Measurement of mutational flow implies both a high new-mutation rate for Huntington disease and substantial underascertainment of late-onset cases.2001In: American Journal of Human Genetics, ISSN 0002-9297, E-ISSN 1537-6605, Vol. 68, no 2, p. 373-85Article in journal (Refereed)
    Abstract [en]

    We describe a new approach for analysis of the epidemiology of progressive genetic disorders that quantifies the rate of progression of the disease in the population by measuring the mutational flow. The framework is applied to Huntington disease (HD), a dominant neurological disorder caused by the expansion of a CAG-trinucleotide sequence to >35 repeats. The disease is 100% penetrant in individuals with > or = 42 repeats. Measurement of the flow from disease alleles provides a minimum estimate of the flow in the whole population and implies that the new mutation rate for HD in each generation is > or = 10% of currently known cases (95% confidence limits 6%-14%). Analysis of the pattern of flow demonstrates systematic underascertainment for repeat lengths <44. Ascertainment falls to <50% for individuals with 40 repeats and to <5% for individuals with 36-38 repeats. Clinicians should not assume that HD is rare outside known pedigrees or that most cases have onset at age <50 years.

  • 6.
    Goellner, G M
    et al.
    USA.
    Tester, D
    Thibodeau, S
    Almqvist, E
    Goldberg, Y P
    Hayden, M R
    McMurray, C T
    Different mechanisms underlie DNA instability in Huntington disease and colorectal cancer.1997In: American Journal of Human Genetics, ISSN 0002-9297, E-ISSN 1537-6605, Vol. 60, no 4, p. 879-90Article in journal (Refereed)
    Abstract [en]

    Two recent lines of evidence raise the possibility that instability in germ-line or somatic cells arises by a common mechanism that involves defective mismatch repair. Mutations in mismatch-repair proteins are known to cause instability in hereditary nonpolyposis colorectal cancer, instability that is physically similar to germ-line instability observed in Huntington disease (HD). Furthermore, both germ-line and somatic-cell instability are likely to be mitotic defects, the former occurring early in embryogenesis. To test the hypothesis that defective repair is a common prerequisite for instability, we have utilized two disease groups that represent different instability "conditions." Germ-line instability within simple tandem repeats (STR) at 10 loci in 29 HD families were compared with somatic instability at the same loci in 26 colon cancer (CC) patients with identified or suspected defects in mismatch-repair enzymes. HD is known to be caused by expansion within the CAG repeat of the locus, but the extent or pattern of STR instability outside this region has not been examined systematically. We find a distinctly different pattern of STR mutation in the two disease groups, suggesting different mechanisms. Instability in HD is generally confined to a single locus, whereas instability is widespread for the same loci in CC. Our data do not support a causative role for defective mismatch-repair enzymes in instability associated with HD; rather, our data are consistent with a model in which DNA structure may inhibit normal mismatch repair at the expansion site.

  • 7.
    Kremer, B
    et al.
    Kanada.
    Almqvist, E
    Theilmann, J
    Spence, N
    Telenius, H
    Goldberg, Y P
    Hayden, M R
    Sex-dependent mechanisms for expansions and contractions of the CAG repeat on affected Huntington disease chromosomes.1995In: American Journal of Human Genetics, ISSN 0002-9297, E-ISSN 1537-6605, Vol. 57, no 2, p. 343-50Article in journal (Refereed)
    Abstract [en]

    A total of 254 affected parent-child pairs with Huntington disease (HD) and 440 parent-child pairs with CAG size in the normal range were assessed to determine the nature and frequency of intergenerational CAG changes in the HD gene. Intergenerational CAG changes are extremely rare (3/440 [0.68%]) on normal chromosomes. In contrast, on HD chromosomes, changes in CAG size occur in approximately 70% of meioses on HD chromosomes, with expansions accounting for 73% of these changes. These intergenerational CAG changes make a significant but minor contribution to changes in age at onset (r2 = .19). The size of the CAG repeat influenced larger intergenerational expansions (> 7 CAG repeats), but the likelihood of smaller expansions or contractions was not influenced by CAG size. Large expansions (> 7 CAG repeats) occur almost exclusively through paternal transmission (0.96%; P < 10(-7)), while offspring of affected mothers are more likely to show no change (P = .01) or contractions in CAG size (P = .002). This study demonstrates that sex of the transmitting parent is the major determinant for CAG intergenerational changes in the HD gene. Similar paternal sex effects are seen in the evolution of new mutations for HD from intermediate alleles and for large expansions on affected chromosomes. Affected mothers almost never transmit a significantly expanded CAG repeat, despite the fact that many have similar large-sized alleles, compared with affected fathers. The sex-dependent effects of major expansion and contractions of the CAG repeat in the HD gene implicate different effects of gametogenesis, in males versus females, on intergenerational CAG repeat stability.

  • 8.
    Li, Jian-Liang
    et al.
    USA.
    Hayden, Michael R
    Almqvist, Elisabeth W
    Brinkman, Ryan R
    Durr, Alexandra
    Dodé, Catherine
    Morrison, Patrick J
    Suchowersky, Oksana
    Ross, Christopher A
    Margolis, Russell L
    Rosenblatt, Adam
    Gómez-Tortosa, Estrella
    Cabrero, David Mayo
    Novelletto, Andrea
    Frontali, Marina
    Nance, Martha
    Trent, Ronald J A
    McCusker, Elizabeth
    Jones, Randi
    Paulsen, Jane S
    Harrison, Madeline
    Zanko, Andrea
    Abramson, Ruth K
    Russ, Ana L
    Knowlton, Beth
    Djoussé, Luc
    Mysore, Jayalakshmi S
    Tariot, Suzanne
    Gusella, Michael F
    Wheeler, Vanessa C
    Atwood, Larry D
    Cupples, L Adrienne
    Saint-Hilaire, Marie
    Cha, Jang-Ho J
    Hersch, Steven M
    Koroshetz, Walter J
    Gusella, James F
    MacDonald, Marcy E
    Myers, Richard H
    A genome scan for modifiers of age at onset in Huntington disease: The HD MAPS study.2003In: American Journal of Human Genetics, ISSN 0002-9297, E-ISSN 1537-6605, Vol. 73, no 3, p. 682-7Article in journal (Refereed)
    Abstract [en]

    Huntington disease (HD) is caused by the expansion of a CAG repeat within the coding region of a novel gene on 4p16.3. Although the variation in age at onset is partly explained by the size of the expanded repeat, the unexplained variation in age at onset is strongly heritable (h2=0.56), which suggests that other genes modify the age at onset of HD. To identify these modifier loci, we performed a 10-cM density genomewide scan in 629 affected sibling pairs (295 pedigrees and 695 individuals), using ages at onset adjusted for the expanded and normal CAG repeat sizes. Because all those studied were HD affected, estimates of allele sharing identical by descent at and around the HD locus were adjusted by a positionally weighted method to correct for the increased allele sharing at 4p. Suggestive evidence for linkage was found at 4p16 (LOD=1.93), 6p21-23 (LOD=2.29), and 6q24-26 (LOD=2.28), which may be useful for investigation of genes that modify age at onset of HD.

  • 9.
    Rubinsztein, D C
    et al.
    Storbritannien .
    Leggo, J
    Coles, R
    Almqvist, E
    Biancalana, V
    Cassiman, J J
    Chotai, K
    Connarty, M
    Crauford, D
    Curtis, A
    Curtis, D
    Davidson, M J
    Differ, A M
    Dode, C
    Dodge, A
    Frontali, M
    Ranen, N G
    Stine, O C
    Sherr, M
    Abbott, M H
    Franz, M L
    Graham, C A
    Harper, P S
    Hedreen, J C
    Hayden, M R
    Phenotypic characterization of individuals with 30-40 CAG repeats in the Huntington disease (HD) gene reveals HD cases with 36 repeats and apparently normal elderly individuals with 36-39 repeats.1996In: American Journal of Human Genetics, ISSN 0002-9297, E-ISSN 1537-6605, Vol. 59, no 1, p. 16-22Article in journal (Refereed)
    Abstract [en]

    Abnormal CAG expansions in the IT-15 gene are associated with Huntington disease (HD). In the diagnostic setting it is necessary to define the limits of the CAG size ranges on normal and HD-associated chromosomes. Most large analyses that defined the limits of the normal and pathological size ranges employed PCR assays, which included the CAG repeats and a CCG repeat tract that was thought to be invariant. Many of these experiments found an overlap between the normal and disease size ranges. Subsequent findings that the CCG repeats vary by 8 trinucleotide lengths suggested that the limits of the normal and disease size ranges should be reevaluated with assays that exclude the CCG polymorphism. Since patients with between 30 and 40 repeats are rare, a consortium was assembled to collect such individuals. All 178 samples were reanalyzed in Cambridge by using assays specific for the CAG repeats. We have optimized methods for reliable sizing of CAG repeats and show cases that demonstrate the dangers of using PCR assays that include both the CAG and CCG polymorphisms. Seven HD patients had 36 repeats, which confirms that this allele is associated with disease. Individuals without apparent symptoms or signs of HD were found at 36 repeats (aged 74, 78, 79, and 87 years), 37 repeats (aged 69 years), 38 repeats (aged 69 and 90 years), and 39 repeats (aged 67, 90, and 95 years). The detailed case histories of an exceptional case from this series will be presented: a 95-year-old man with 39 repeats who did not have classical features of HD. The apparently healthy survival into old age of some individuals with 36-39 repeats suggests that the HD mutation may not always be fully penetrant.

  • 10.
    Xiang, F
    et al.
    Karolinska institutet.
    Almqvist, E W
    Huq, M
    Lundin, A
    Hayden, M R
    Edström, L
    Anvret, M
    Zhang, Z
    A Huntington disease-like neurodegenerative disorder maps to chromosome 20p.1998In: American Journal of Human Genetics, ISSN 0002-9297, E-ISSN 1537-6605, Vol. 63, no 5, p. 1431-8Article in journal (Refereed)
    Abstract [en]

    Huntington disease (HD) is an autosomal dominant neurodegenerative disorder characterized by motor disturbance, cognitive loss, and psychiatric manifestations. The disease is associated with a CAG trinucleotide-repeat expansion in the Huntington gene (IT15) on chromosome 4p16.3. One family with a history of HD was referred to us initially for predictive testing using linkage analysis. However, the chromosome 4p region was completely excluded by polymorphic markers, and later no CAG-repeat expansion in the HD gene was detected. To map the disease trait segregating in this family, whole-genome screening with highly polymorphic dinucleotide-, trinucleotide-, and tetranucleotide-repeat DNA markers was performed. A positive LOD score of 3.01 was obtained for the marker D20S482 on chromosome 20p, by two-point LOD-score analysis with the MLINK program. Haplotype analysis indicated that the gene responsible for the disease is likely located in a 2.7-cM region between the markers D20S193 and D20S895. Candidate genes from the mapping region were screened for mutations.

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