Figure 1. The UCSFBR1 kindred pedigree. Diagonal lines indicate deceased; arrowhead, proband; +, individuals who were tested for the C9orf72 mutation; ALS, amyotrophic lateral sclerosis; and bvFTD, behavioral variant frontotemporal dementia.
Figure 2. Parasagittal and axial T1-weighted 3-T brain magnetic resonance images. A, Patient III-1 has mild atrophy in the dorsal and posterior aspects of the brain. B, Patient II-4 has mild atrophy of the anterior temporal lobes, insula, and orbitofrontal region as well as dorsal atrophy.
Figure 3. Molecular genetic analyses of C9orf72 repeat expansions in the UCSFBR1 family. A, Fluorescent fragment-length analysis of a polymerase chain reaction fragment containing the GGGGCC repeat in C9orf72 in 4 patients (II-1, III-1, II-2, and II-4) and an unaffected spouse (II-0). A lack of transmission from the affected parent (II-1) to the affected offspring (III-1) is seen. Numbers under the peaks indicate the number of GGGGCC hexanucleotide repeats. B, Polymerase chain reaction products of repeat-primed polymerase chain reactions separated on an ABI3730 DNA Analyzer (Applied Biosystems) and visualized by GeneMapper software (Applied Biosystems). Electropherograms are zoomed to 2000 relative fluorescence units to show stutter amplification. Results from an expanded repeat carrier (II-1) and a healthy control are shown. C, Southern blotting of 3 expanded repeat carriers and an unaffected spouse using genomic DNA extracted from blood. Patients with expanded repeats (II-1, III-1, and II-2) show additional alleles ranging from 5 to 23 kilobases, while the unaffected spouse (II-0) shows only the expected approximately 2.3-kilobase wild-type allele.
Takada LT, Pimentel MLV, DeJesus-Hernandez M, et al. Frontotemporal dementia in a Brazilian kindred with the C9orf72 mutation. Arch Neurol. Published online May 7, 2012. doi:10.1001/archneurol.2012.650.
eTable. Neuropsychological testing performance – patients III-1 and II-4.
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Takada LT, Pimentel MLV, DeJesus-Hernandez M, et al. Frontotemporal Dementia in a Brazilian Kindred With the C9orf72 Mutation. Arch Neurol. 2012;69(9):1149–1153. doi:10.1001/archneurol.2012.650
Author Affiliations: Memory and Aging Center (Drs Takada, Yokoyama, and Miller and Mss Fong and Karydas) and ALS Center (Dr Lomen-Hoerth), University of California, San Francisco; Santa Casa da Misericordia, Pontifical Catholic University and Gama Filho University, Rio de Janeiro, Brazil (Dr Pimentel); Department of Neuroscience, Mayo Clinic, Jacksonville, Florida (Mss DeJesus-Hernandez and Rutherford, Mr Baker, and Dr Rademakers); and Centre Hospitalier de l’Université de Montréal–Hopital Notre-Dame, University of Montreal, Montreal, Quebec, Canada (Dr Thibodeau).
Objectives To describe the clinical features of a Brazilian kindred with C9orf72 frontotemporal dementia–amyotrophic lateral sclerosis and compare them with other described families with C9orf72 and frontotemporal dementia–amyotrophic lateral sclerosis–causing mutations.
Design Report of a kindred.
Setting Dementia center at a university hospital.
Patients One kindred encompassing 3 generations.
Results The presence of a hexanucleotide (GGGGCC) expansion in C9orf72 was confirmed by repeat-primed polymerase chain reaction and Southern blot. The observed phenotypes were behavioral variant frontotemporal dementia and amyotrophic lateral sclerosis with dementia, with significant variability in age at onset and duration of disease. Parkinsonian features with focal dystonia, visual hallucinations, and more posterior atrophy on neuroimaging than is typical for frontotemporal dementia were seen.
Conclusions Behavioral variant frontotemporal dementia due to C9orf72 expansion displays some phenotypic heterogeneity and may be associated with hallucinations, parkinsonism, focal dystonia, and posterior brain atrophy. Personality changes may precede the diagnosis of dementia by many years and may be a distinguishing feature of this mutation.
Quiz Ref IDThe familial co-occurrence of behavioral variant (bv) frontotemporal dementia (FTD) and amyotrophic lateral sclerosis (ALS) has been acknowledged for decades.1 Since 2006, 14 families with autosomal dominant FTD-ALS with linkage to chromosome 9p have been described.2 Those families had ALS and bvFTD as predominant phenotypes with some within-kindred and interkindred phenotypic variation. Recently, a noncoding hexanucleotide repeat expansion was found in the chromosome 9 open reading frame 72 gene (C9orf72 ; GenBank JN681271) implicated in those families.3,4 Other genes have been rarely implicated in families with FTD-ALS such as TARDBP, FUS, CHMP2B, VCP, DCTN1, UBQLN2, MAPT, and GRN.5 This study aims to describe a Brazilian kindred with the C9orf72 mutation and, based on previous reports, to further characterize its distinguishing features.
We describe a Brazilian family of Italian and Portuguese origins (kindred UCSFBR1, Table). Two patients were seen at the University of California, San Francisco, and other affected members' data are summarized based on the information provided by the family and their neurologist (M.L.V.P.). The pedigree (Figure 1) was simplified and anonymized for confidentiality (at-risk individuals were omitted). This report is based on data collected in an institutional review board–approved project, and family members (or their surrogates) signed informed consent. The diagnoses of bvFTD and ALS were made based on current diagnostic criteria.
Quiz Ref IDA right-handed man had behavioral changes beginning at age 38 years, when he became obsessed with preparing for a course he planned to take the following year. Subsequently, his family noticed increased aggression, disinhibition, and mood swings. Within 2 years he was laid off work owing to poor judgment and inconsistent work performance. Four years after onset, he developed a resting tremor in his left hand. His medical history was relevant for chronic diarrhea (diagnosis unclear, possibly Crohn disease), diagnosed 2 years after onset of symptoms. By the time of his evaluation, he was aged 44 years and his family endorsed apathy and mental rigidity; psychotic symptoms were denied. Neuropsychological evaluation6 revealed prominent executive function deficits and lesser but significant impairment on verbal and visual memory (eTable). His Clinical Dementia Rating score was 1.7 On neurological examination, he had mild axial and limb parkinsonism (worse on the left) and dystonic posturing of his left hand during gait. Gait was also slow, with mild bradykinesia. Electromyography did not show signs of motor neuron disease. Magnetic resonance imaging showed mild atrophy in the dorsal and posterior aspects of the brain (Figure 2A). He was diagnosed as having bvFTD.
A right-handed woman had behavioral changes beginning at age 59 years. She became obsessed with vitamins and religion, and her family noticed that she was more short-tempered and aggressive. Food preference changes, loss of table manners, and difficulty recognizing faces and objects were other symptoms endorsed by the family, although the patient had no insight into these changes. Her medical history was relevant for a depressive episode at age 55 years, for which she had refused medical treatment, and long-standing anxiety. She had a hysterectomy at age 45 years, but her family later found out that she had faked symptoms of myoma so that she could rid herself of menstrual cycles.
She was examined at age 62 years and her neuropsychological evaluation showed deficits on executive functions and naming (eTable). Her Clinical Dementia Rating score was 1. On neurological examination, a mildly increased tone with activation in her right arm and dystonic posturing of her left hand during gait were the only abnormalities observed. Magnetic resonance imaging of the brain revealed mild atrophy of the anterior temporal lobes, insula, and orbitofrontal region as well as dorsal atrophy (Figure 2B). Electromyographic findings were normal (units were at the upper limit of normal in tongue electromyography), but intermittent tongue fasciculations were noted. She was diagnosed as having bvFTD with concerning signs for concomitant motor neuron disease.
Patients I-1, I-3, and I-4 had no history of cognitive or behavioral problems. Patient I-3 had Crohn disease. Patient I-2 was described as having memory problems and personality changes starting in her 40s. She later developed movement problems and further cognitive decline consistent with dementia. She died at age 76 years. Patient I-5 had a history of unspecified late-onset dementia (as did one of her daughters).
Patient II-1 was described as having odd behaviors beginning in his 30s and being a cruel parent. He was diagnosed as having bvFTD in his late 60s, with visual hallucinations and disinhibition as early manifestations followed by memory, language, and further behavioral decline. Later, he developed parkinsonian signs. He died at age 72 years.
At age 57 years, patient II-2 began having difficulty recognizing people and trouble with navigation as well as being less interested in social interactions. Changes in empathy and eating habits 3 years later led to a diagnosis of bvFTD. Twelve years after the onset of symptoms, she was bedridden and almost mute.
Patient II-3 began having cognitive and behavioral problems at age 55 years (although her family reported some degree of social compromise in her 40s) and was diagnosed as having late-onset schizophrenia. She died at age 64 years, 5 months after being diagnosed as having ALS.
Samples of DNA were obtained from peripheral blood, and expanded GGGGCC hexanucleotide repeats in C9orf72 were detected in a stepwise fashion according to previously described methods.4 Samples from individuals II-0, II-1, III-1, II-2, and II-4 were first screened by fluorescent fragment-length polymerase chain reaction analysis to identify a potentially unamplifiable repeat expansion (Figure 3A). The facts that all patients showed a homozygous pattern (single peak) and that the affected son (III-1) did not seem to inherit an allele from his affected parent (II-1) were considered suggestive evidence of a repeat expansion. Repeat-primed polymerase chain reaction analysis was then used to verify the presence of an expansion in all patients, confirmed by the observation of a stutter amplification pattern on the electropherogram (Figure 3B). The presence of expanded alleles was further substantiated by Southern blot (Figure 3C), which showed additional expanded alleles at 5 to 23 kilobases in affected individuals.
Quiz Ref IDSimilar to previous reports, the main clinical syndromes seen in this family with the C9orf72 mutation were bvFTD and ALS. The phenotypic heterogeneity observed in previously described families thus far2,5 was also apparent in this kindred.
Quiz Ref IDAge at onset with the C9orf72 mutation was difficult to precisely ascertain. In many members of the family, subtle personality changes began decades before dementia was diagnosed. In patient II-4, the history behind her hysterectomy—14 years before the onset of symptoms—raises suspicion as to whether she was truly asymptomatic then. Cognitive impairments in presymptomatic mutation carriers have been described in MAPT mutations,8 but personality changes predating the diagnosis of dementia have not been reported and may be a distinguishing feature of C9orf72 expansions. Also, in generation III, at least 3 individuals were diagnosed as having depression and/or anxiety (not depicted in the pedigree). Those conditions are prevalent in the general population and also have familial aggregation,9 so it is currently unclear whether they represent a first symptom in the neurodegenerative process or whether other confounding genetic factors are contributing to a higher frequency of psychiatric conditions in this family.
Anticipation is a characteristic of many repeat expansion disorders, although with the massive numbers of repeats present in all patients tested to date it is possible that anticipation will not be a strong feature of the C9orf72 mutation. Patient III-1 was diagnosed as having bvFTD at an earlier age than the previous generation; however, if the onset is considered as the earlier personality changes, his symptoms began at around the same age as his father’s. Further research is necessary to determine whether C9orf72 expansions are associated with anticipation, and developing ways to accurately measure the exact number of repeats may help with this understanding. Although in our study the presence of repeat expansions was confirmed by Southern blot, significant repeat-size heterogeneity resulting in a smear on the Southern blot complicated accurate sizing of the repeat length.
Quiz Ref IDParkinsonian features, often a finding associated with C9orf72 mutations,2,10,11 were also observed in this family. In addition to parkinsonism appearing in clinical conjunction with either motor neuron disease or FTD,1,12 nigral degeneration is a frequent finding in ALS with dementia,13 so this association is not surprising.
Dystonia has rarely been described as an additional sign, and only briefly in a previously described family with a chromosome 9p mutation.11 Parkinsonism with focal dystonia may be seen in atypical parkinsonism14 but is only rarely observed within the bvFTD phenotype. Also, a previous report mentioned parkinsonism with dystonia in a family with FTD-ALS with the MAPT mutation.15 Further observations are needed to ascertain the significance of focal dystonia in C9orf72 mutations.
Mutations in TARDBP have also been associated with parkinsonian or dystonic features in families with ALS.16 Parkinsonism was reported with dementia and upper-limb muscle weakness in 1 individual with a VCP mutation, although the point during the course of disease at which it appeared was not described.17DCTN1 mutation has been associated with ALS, FTD, and Perry syndrome, but its pathogenicity in FTD-ALS is still not entirely clear.18
Psychosis has been reported in 4 families with chromosome 9p mutations2,10,19,20; hallucinations may be distinguishing symptoms2,10 as they are considered rare in sporadic bvFTD.12 Visual hallucinations are the most commonly reported type (as in patient II-1), but the description of auditory hallucinations in 3 previous reports2,19,20 suggests that they could also be a marker for this mutation. Psychosis was reported in 1 patient with a VCP mutation, although it was not described in detail.17
In this study, a somewhat more posterior pattern of atrophy was observed on neuroimaging. This is similar to a previous report in which C9orf72 bvFTD demonstrated more parietal and occipital and less temporal atrophy compared with sporadic bvFTD.10 This pattern is in line with the finding of more significant visuospatial dysfunction in a subset of patients with the C9orf72 mutation (such as patient II-3),2 which is unusual for bvFTD.12
Finally, the occurrence of inflammatory bowel disease in 2 members of this family is intriguing. Even though no direct associations can be made based on the limited knowledge gathered so far on C9orf72, increasing evidence links neurodegenerative processes and inflammation.21 Although no other previous reports to our knowledge have mentioned inflammatory diseases occurring in families with the C9orf72 mutation, it is possible that they have been overlooked.
Correspondence: Leonel T. Takada, MD, Memory and Aging Center, University of California, San Francisco, 350 Parnassus Ave, Ste 905, San Francisco, CA 94143-1207 (firstname.lastname@example.org).
Accepted for Publication: March 8, 2012.
Published Online: May 14, 2012. doi:10.1001/archneurol.2012.650
Author Contributions:Study concept and design: Miller. Acquisition of data: Takada, Pimentel, DeJesus-Hernandez, Karydas, Thibodeau, Rutherford, Baker, Lomen-Hoerth, Rademakers, and Miller. Analysis and interpretation of data: Takada, Pimentel, DeJesus-Hernandez, Fong, Yokoyama, Karydas, Rutherford, Baker, Rademakers, and Miller. Drafting of the manuscript: Takada, Fong, Yokoyama, and Karydas. Critical revision of the manuscript for important intellectual content: Takada, Pimentel, DeJesus-Hernandez, Fong, Yokoyama, Thibodeau, Rutherford, Baker, Lomen-Hoerth, Rademakers, and Miller. Obtained funding: Rademakers. Administrative, technical, and material support: Takada, DeJesus-Hernandez, Karydas, Rutherford, and Baker. Study supervision: Rademakers and Miller.
Financial Disclosure: None reported.
Funding/Support: This work was supported in part by grants P50 AG016574, R01 NS065782, and R01 AG026251 from the National Institutes of Health and by the ALS Association (Dr Rademakers). Dr Miller is supported by grants P50 AG023501, P01 AG019724, and P50 AG1657303 from the National Institute on Aging, National Institutes of Health and by the Larry Hillblom Foundation and the State of California.
Online-Only Material: Listen to an author interview about this article, and others, at http://bit.ly/MT7xg4.
Additional Contributions: We thank this family for participating in our research.
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