Frontotemporal dementia--Part II. Differential diagnosis, genetics, molecular pathomechanism and pathology

This is a comprehensive paper in three parts covering history, prevalence, clinical forms, differential diagnosis, genetics, molecular pathomechanism, pathology, clinical diagnosis and treatment of frontotemporal dementia (FTD). The second part focuses on the differential diagnosis, genetics, molecular pathomechanism and pathology. The clinical diagnosis of frontotemporal dementia is based on the presence of a prominent disturbance of the executive function and of frontal lobe syndrome or a progressive aphasic syndrome without severe global cognitive impairment. Of other dementias, it is primarily Alzheimer's disease that it should be differentiated from, but other psychiatric disorders must also be ruled out. The disease has familial and sporadic forms. Recent identification of mutations in the gene encoding the microtubule-associated tau protein in the inherited frontotemporal dementia and parkinsonism linked to chromosome 17 (FTDP-17) has demonstrated that various tau dysfunctions can lead to neurodegeneration. Tau gene mutations have varied effects on the biology and function of the protein. This heterogeneous pathomechanism explains the wide range of clinical and neuropathological features observed in the FTDP-17. Tau and ubiquitin antibodies can be detected by sensitive immunohistochemical methods. The diagnosis of FTD should be based on neuropathological examination, and this is also the only method by which it can be definitely differentiated from other types of dementias.     

Clinical and molecular aspects of frontotemporal dementia

Frontotemporal dementia (FTD) is a neurodegenerative disease and next to Alzheimer's disease and vascular dementia, the third most common cause of early-onset progressive dementia. FTD leads to neurodegeneration in the frontal and temporal neocortex and usually encompasses both sides of the frontal and anterior temporal lobes. Psychologically, FTD is characterized by personality changes such as lack of insight, inappropriate behaviour, disinhibition, apathy, executive disabilities and a decline in cognitive functions, with large clinical and neuropathological variations among cases. Neuropathological characteristics include gliosis or microvacuolation of cortical nerve cells. Inclusions staining for tau protein and/or ubiquitin are also common findings. Both sporadic and hereditary forms of FTD have been identified and 30-50% of the FTD cases have a familial background. So far, at least three genetic loci for FTD have been identified, at human chromosomes 3, 9 and 17 in familial forms of the disease. A large number of the familial forms have been linked to chromosome 17q21 and referred to as frontotemporal dementia and Parkinsonism linked to chromosome 17. In the majority of these families, pathogenic mutations in the tau gene were identified. However, tau mutations seem to be a rare cause of disease in the general FTD population. Thus, other genes and/or environmental factors are yet to be identified, which will give further clues to this complex and heterogeneous disorder.     

Tau protein in frontotemporal dementia linked to chromosome 3 (FTD-3)

Recent work on frontotemporal dementia (FTD) has revealed the existence of at least 3 genetically distinct groups of inherited FTD: FTDP-17, FTD and motor neuron disease linked to chromosome 9, and FTD linked to chromosome 3 (FTD-3). Tau, on chromosome 17, is the only gene where mutations have been identified and its involvement in FTD has been firmly established. The genes on chromosome 9 and chromosome 3 associated with familial forms of FTD remain to be identified. Abnormal aggregates of tau protein characterize the brain lesions of FTDP-17 patients and ubiquitin inclusions have been found in FTD with motor neuron disease linked to chromosome 9. In this study the frontal cortices of 3 FTD-3 patients from a unique Danish family were examined for characteristic neuropathological features. In these brains tau inclusions were present in neurons and some glial cells in the absence of beta-amyloid deposits. The presence of filamentous tau protein in the frontal cortex of these patients suggests a possible link between tau and the genetic defect present on chromosome 3 and associated with FTD-3, although the limited amount of tau deposits observed makes it difficult to define this as a tauopathy.     

Frontotemporal lobar degeneration – tau as a pied piper?

Frontotemporal lobar degeneration (FTLD) is the second most-common form of cortical dementia in the presenium after Alzheimer disease. Clinically three disease entities can be distinguished: frontotemporal dementia, semantic dementia, and primary progressive aphasia. The underlying neuropathology can be classified into disorders with tau pathology (including Pick disease, corticobasal degeneration, progressive supranuclear palsy, and familial frontotemporal dementia with parkinsonism linked to chromosome 17 – FTDP-17), and into disorders that lack tau abnormalities (including dementia lacking distinctive histology and motor neuron disease inclusion dementia). The recent discovery of tau gene mutations in FTDP-17 brought tau to the center stage, but led to the erroneous trend of collectively grouping all forms of FTLD as tauopathies. However, clinicopathological and genetic studies strongly suggest that the majority of sporadic and familial FTLD cases are not associated with tau pathology and/or tau gene mutations. Furthermore, recent studies have linked several autosomal dominantly inherited familial frontotemporal dementia cases to a variety of gene loci on different chromosomes. Thus, this review is intended to summarize our current knowledge about the sporadic and familial FTLD disorders that lack tau pathology, and shall further strengthen the view that FTLD is heterogeneous, both in terms of clinicopathological phenotypes as well as genetic backgrounds. Electronic Publication     

Frequency of tau gene mutations in familial and sporadic cases of non-Alzheimer dementia

BACKGROUND: Mutations in the tau gene have been reported in families with frontotemporal dementia (FTD) linked to chromosome 17. It remains uncertain how commonly such mutations are found in patients with FTD or non-Alzheimer dementia with or without a positive family history. OBJECTIVE: To determine the frequency of tau mutations in patients with non-Alzheimer dementia. PATIENTS AND METHODS: One hundred one patients with non-Alzheimer, nonvascular dementia, most thought to have FTD. Of these, 57 had a positive family history of dementia. Neuropathologic findings were available in 32. The tau gene was sequenced for all exons including flanking intronic DNA, portions of the 3' and 5' untranslated regions, and at least 146 base pairs in the intron following exon 10. RESULTS: Overall, the frequency of the tau mutations was low, being 5.9% (6/101) in the entire group. No mutations were found in the 44 sporadic cases. However, 6 (10.5%) of the 57 familial cases and 4 (33%) of the 12 familial cases with tau pathologic findings had mutations in the tau gene. The most common mutation was P301L. CONCLUSIONS: We conclude that tau mutations are uncommon in a neurology referral population with non-Alzheimer dementia, even in those with a clinical diagnosis of FTD. However, a positive family history and/or tau pathologic findings increase the likelihood of a tau mutation. There must be other genetic and nongenetic causes of FTD and non-Alzheimer dementia, similar to the etiologic heterogeneity present in Alzheimer disease.     

Genetic analysis in patients with familial and sporadic frontotemporal dementia: two tau mutations in only familial cases and no association with apolipoprotein epsilon4

We screened for tau gene mutations among 24 Japanese (6 familial and 18 sporadic cases) and 4 Polish patients with frontotemporal dementia (FTD) using PCR-SSCP analysis followed by DNA sequencing. We identified 2 missense mutations in exon 10: N279K and P301L in 2 Japanese patients with familial FTD. Additionally 3 DNA polymorphisms: 2 known (3' exon 3 + 9, A --> G and exon 7, codon 176, G --> A) and 1 new (exon 8, codon 185, T --> C) were identified in 1 Polish patient. Tau mutations were not found in subjects with a negative family history suggesting that tau mutations do not account for most sporadic cases of FTD. We also found no association of apolipoprotein E4 allele with FTD.     

Frontotemporal dementia

Frontotemporal dementia (FTD) is an uncommon but important form of degenerative disease. It may make up 50% of dementia cases presenting before age 60. The symptoms are related to the anatomic areas affected. Neary divided the clinical syndromes into "frontotemporal dementia," "progressive nonfluent aphasia," and "semantic dementia." However, the pathology may extend beyond the frontal and temporal lobes and additional symptoms may be found. Although most cases are sporadic, some cases are genetic. The best-known genetic mutation causing FTD is frontotemporal dementia with parkinsonism, linked to the microtubule-associated protein tau on chromosome 17. There are other known genes and chromosome loci related to FTD. The most common pathology found is frontotemporal degeneration with ubiquitin inclusions. In contrast, FTD with Pick bodies is rare. Although there are strategies to help patients and their families, there is no known treatment for the disease.     

Similar early clinical presentations in familial and non-familial frontotemporal dementia

BACKGROUND: It is unclear whether there are early clinical features that can distinguish between patients with familial and non-familial frontotemporal dementia (FTD). OBJECTIVE: To compare the clinical features of FTD cases who have tau gene mutations with those of cases with a family history of FTD but no tau gene mutation, and with sporadic cases with neither feature. METHODS AND RESULTS: Comparisons of the behavioural, cognitive, and motor features in 32 FTD patients (five positive for tau gene mutations, nine familial but tau negative, and 18 tau negative sporadic) showed that age of onset and duration to diagnosis did not differ between the groups. Apathy was not observed in tau mutation positive cases, and dysexecutive signs were more frequent in familial tau mutation negative cases. Memory deficits and behavioural changes were common in all groups. CONCLUSIONS: In comparison with other neurodegenerative conditions such as Alzheimer's disease and Parkinson's disease, neither tau gene mutations nor strong familial associations confer earlier disease susceptibility.     

Sequence analysis of tau in familial and sporadic progressive supranuclear palsy

Progressive supranuclear palsy (PSP) is a tau deposition neurodegenerative disorder which usually occurs in sporadic form and is associated with a common variant of the tau gene. Rare familial forms of PSP have been described. Recently familial frontotemporal dementia linked to chromosome 17 (FTDP-17) has been shown to be due to mutations in tau and there may be a clinical and pathological overlap between PSP and FTDP-17. In this study we have analysed the tau sequence in two small families with PSP, and a number of clinically typical and atypical sporadic cases with pathological confirmation of the diagnosis. The tau mutations described in FTDP-17 were not found in the most clinically diagnosed patients with PSP. This suggests that usually FTDP-17 and PSP, including the rare familial form of PSP, are likely to be separate conditions and that usually PSP and typical PSP-like syndromes are not due to mutations in tau.     

New developments in frontotemporal dementia and parkinsonism linked to chromosome 17

PURPOSE OF REVIEW: The identification of tau mutations in frontotemporal dementia and parkinsonism linked to chromosome 17 (FTDP-17) has revealed invaluable information regarding the role of the tau protein in neurodegenerative disease. Over the past year several new mutations have been identified, and experimental studies have provided further insight into the mechanism of neurodegeneration due to tau mutations and possible interactions with amyloid pathology. RECENT FINDINGS: Extensive clinical and pathological variation is seen in patients with different types of mutation, as well as in patients with the same mutation. Mutations may be found in patients with frontotemporal dementia (FTD), parkinsonism, progressive supranuclear palsy and corticobasal degeneration, justifying mutation analysis in familial cases of these disorders. Genetic heterogeneity exists in frontotemporal dementia, because a number of FTDP-17 families have neither tau mutations nor tau pathology. Genetic linkage has been found in familial FTD (chromosome 3), FTD with amyotrophic lateral sclerosis (9q21-q22), and FTD with inclusion body myopathy (9q13.3-p12). Tau deposits may consist of mainly mutated protein, or of mutated and wild-type protein in equal amounts, depending on the mutation. Recent animal studies show that amyloid-beta deposition may accelerate formation of neurofibrillary tangles. SUMMARY: Hopefully, the identification of responsible genetic defects and associated proteins will be helpful in improving our understanding of the role of the tau protein in the common neurodegenerative process of frontotemporal degeneration.     

Familial early onset frontotemporal dementia caused by a novel S356T MAPT mutation,initially diagnosed as schizophrenia

Autosomal dominant frontotemporal dementia (FTD) due to mutations in the MAPT gene is referred to as FTD with parkinsonism linked to chromosome 17 with tau pathology (FTDP-17T). Typically the disease begins in the sixth decade of life. We report a novel exon 12 mutation in MAPT (S356T), in a family with an exceptionally early age at onset (27 and 29 years), causing familial behavioural variant frontotemporal dementia. Both the proband and the proband's father were initially diagnosed as having schizophrenia. Pathological examination showed frontotemporal lobar degeneration with extensive neuronal and glial tau deposition. This mutation is one of a small group of MAPT mutations (including P301S, G335V and S352L) that cause very early onset FTDP-17T. It is likely that the early age at onset reflects a marked pathogenic effect of the mutation involving a disturbance of microtubule binding, tau phosphorylation or a major acceleration of tau aggregation.     

Frequency of tau mutations in familial and sporadic frontotemporal dementia and other tauopathies

Abstract. Tau gene mutations with insoluble Tau neuropathology have been identified in pedigrees with frontotemporal dementia with parkinsonism linked to chromosome 17 (FTDP-17). Other neurodegenerative diseases, including progressive supranuclear palsy (PSP) and corticobasal degeneration (CBD), are also characterised by insoluble Tau neuropathology. This study sought to determine the nature and frequency of tau gene mutations in an affected proband cohort of patients within this spectrum of neurodegenerative diseases. Sixty-four individuals with clinical features consistent with FTD and other tauopathies were referred over a three year period. There was neuropathological confirmation of disease in 30%. Individuals were screened for mutations in the coding region and flanking intronic regions of the tau gene by direct sequencing of PCR products. Four confirmed tau gene mutations were identified representing 6.3 % for the total affected proband cohort. Tau gene mutations were found in three of twelve (25%) of the cases with a family history of dominantly inherited frontotemporal dementia, but in only one of 25 cases without a family history (4 %). Although tauopathies have been considered to result from genetic defects, screening for tau gene mutations in sporadic cases is not likely to identify pathogenic mutations.     

Etiology and pathophysiology of frontotemporal dementia, Parkinson disease and Alzheimer disease: lessons from genetic studies

Genetic studies have led to major discoveries in the pathogenesis of various neurodegenerative diseases. Ubiquitin-positive familial frontotemporal dementia was recently found to be caused by mutations in the progranulin gene (PGRN), and the major constituent of the inclusions, TDP-43, was subsequently identified. The tau gene (MAPT) causes frontotemporal dementia with parkinsonism linked to chromosome 17. In Parkinson disease, LRRK2 mutations have emerged as a major cause of both familial and sporadic forms, adding to the previously known genes SNCA,PRKN,DJ1 and PINK1. Several genes have been implicated in Alzheimer disease, including the APP gene and the PSEN genes. Recently, variants in the sortilin-related receptor 1 gene, SORL1, were associated with Alzheimer disease.     

Frontotemporal dementia and tauopathy

The presence of abundant neurofibrillary lesions made of hyperphosphorylated tau proteins is the characteristic neuropathology of a subset of neurodegenerative disorders classified as "tauopathies." The discovery of mutations in the tau gene in frontotemporal dementia and parkinsonism linked to chromosome 17 (FTDP-17) constitutes convincing evidence that tau proteins play a key role in the pathogenesis of neurodegenerative disorders. Moreover, it now is known that the most common form of sporadic frontotemporal dementia (FTD), which is characterized by frontotemporal neuron loss, gliosis, and microvacuolar change, also is a tauopathy caused by a loss of tau protein expression. Thus, these discoveries have begun to change the classification and the neuropathologic diagnosis of FTD and tauopathies, as well as current understanding of the disease mechanisms underlying them. Although transgenic mice expressing wild-type human tau or variants thereof with an FTDP-17 mutation result in tau pathologies and brain degeneration similar to that seen in human tauopathies, the precise mechanisms leading to the onset and progression of neurodegenerative disorders remain incompletely understood. Here, we review current understanding of human neurodegenerative tauopathies and prospects for translative recent insights about these into therapeutic interventions to prevent or ameliorate them.     

The classification, genetics and neuropathology of frontotemporal dementia. Introduction to the special topic papers: Part I

Interest in the neuropsychology and neuropsychiatry of frontotemporal dementia (FTD) has escalated in the past decade, as evidenced by the accompanying 10 special topic papers from research groups in the UK, France, North America and Australia addressing a wide range of theoretical and clinical issues. The first part of this review deals with the confusing terminologies that have been used in the area and argues for the retention of the term FTD as the general clinical label, with further subcategorization into the three principal clinical syndromes seen at presentation: frontal variant FTD (often called dementia of frontal type), semantic dementia and progressive non-fluent aphasia. Each of these syndromes has a characteristic profile of presenting clinical features, but may be accompanied by any one of five types of non-Alzheimer pathological change. There have also been significant advances in the genetics of FTD with the identification of tau gene mutations on chromosome 17 in some familial cases. The remarkable story of the discovery of these, the tau gene mutations, is briefly described. Part II of this review (Hodges and Miller, 2001) sets the special issue papers within the context of advances in the neuropsychology of frontal variant FTD and semantic dementia.     

Progranulin mutations in ubiquitin-positive frontotemporal dementia linked to chromosome 17q21

Two genetically distinct types of frontotemporal dementia (FTD) are linked to chromosome 17q21. FTD with parkinsonism (FTDP-17) results from mutations in the gene encoding microtubule associated protein tau (MAPT) and is associated with tau deposition in the patient's brain. An increasing number of FTD families are linked to 17q21 in the absence of a demonstrable MAPT mutation. Brains of these patients do not show tau deposits, but tau-negative intra- and perinuclear inclusions of unknown composition that are immunoreactive to ubiquitin (FTDU-17). These ubiquitin inclusions are located in the cytoplasm or nucleus of predominantly neuronal cells of affected brain regions. By extensive segregation analyses in conclusively linked FTDU-17 families, the candidate region was reduced to a 6.2 Mb segment containing MAPT; however, genomic sequencing of MAPT in FTDU-17 patients excluded disease-causing mutations. Further, the linked region was characterized by the presence of multiple low-copy repeat regions associated with genomic instability. However, we excluded genomic rearrangements as the cause of FTDU-17. Subsequent sequencing of positional candidate genes identified loss-of-function mutations in the gene encoding progranulin (PGRN), a growth factor involved in multiple physiological processes such as cellular proliferation and survival and tissue repair, and pathological processes including tumorigenesis. In a Belgian FTD patient series, the prevalence of PGRN mutations was 3.5 times higher than that of MAPT mutations underscoring a major role for PGRN in FTD pathogenesis. Together, mutation data provided convincing evidence that PGRN haploinsufficiency leads to neurodegeneration because of reduced PGRN-mediated neuronal survival. The PGRN protein is not deposited in the ubiquitin-positive inclusions, the nature of which remains unknown. Due to the functions of PGRN in neuronal survival and the clinicopathological overlaps between FTD and other dementias it is likely that reduced PGRN expression is associated with the progression of other neurodegenerative brain diseases including Alzheimer's disease. These findings open promising novel targets for therapeutic intervention against neurodegeneration.     

Tau protein in familial and sporadic diseases

Abnormal protein aggregation is a common characteristic of many neurodegenerative diseases of the brain. Filamentous deposits made of the microtubule-associated protein tau constitute a major defining characteristic of several neurodegenerative diseases known as tauopathies. The role of tau in neurodegeneration has been clarified by the identification of genetic mutations in the tau gene in cases with familial frontotemporal dementia and parkinsonism linked to chromosome 17. Furthermore, some sporadic tauopathies are associated with tau gene polymorphisms. Although it is still debated how tau gene mutations lead to neuronal death, it is clear that different mutations lead to tau pathologies with characteristics similar to those found in sporadic tauopathies. These findings have definitely shown that in tauopathies tau aggregation is directly associated with development of neurodegeneration and neuronal death.