Tau pathology in diffuse neurofibrillary tangles with calcification (DNTC): biochemical and immunohistochemical investigation

Diffuse neurofibrillary tangles with calcification (Kosaka-Shibayama disease) in Japan

Diffuse neurofibrillary tangles with calcification (DNTC) is a rare, pre-senile type of dementia. The term 'DNTC' was initially proposed by Kosaka in 1994. Although 26 autopsies and 21 clinical patients with DNTC have been described in Japan to date, DNTC has rarely been reported in the European and North American published work. We speculate that DNTC has been overlooked in other countries. Herein, we review all known reports of DNTC in Japan and propose clinical diagnostic criteria for DNTC.

Fahr's disease presenting with dementia at onset: a case report and literature review

Fahr's disease (FD) is characterized by sporadic or familiar idiopathic calcification of the basal ganglia, dentate nuclei of the cerebellum, and centrum semiovale, mainly presenting with movement disorder, dementia, and behavioral abnormalities. We described a rare case of Fahr's disease presenting at onset only with behavioral and neuropsychological alterations, whose diagnosis was supposed only after a brain CT, which showed extensive bilateral calcifications in the dentate nuclei of the cerebellum and basal ganglia. Since the onset of Fahr's disease may be a dysexecutive syndrome with behavioral abnormalities, the clinical and radiological features are really important to do the appropriate diagnosis.

Strio-pallido-dentate calcinosis: a diagnostic approach in adult patients

Familial idiopathic bilateral strio-pallido-dentate calcinosis is a rare autosomal dominant disorder characterized by massive symmetric calcification, detectable by CT, into the globus pallidus and striatum, with or without the involvement of the dentate nucleus, thalamus and white matter in the absence of alterations of calcium metabolism. Clinically, it has been associated with movement and/or neuropsychiatric disorders with age at onset typically in the fourth or fifth decade. Other sporadic or familial diseases can be responsible for brain calcifications with a similar anatomic strio-pallidal or strio-pallido-dentate pattern and, a restricted number of them, for neurological symptoms with onset in adulthood. Moreover, physiological age-related basal ganglia calcifications are often incidentally found, although with a far different CT aspect, in elderly patients with movement disorders. Indentifying familial and idiopathic cases may offer the opportunity to study the molecular mechanisms underlying this minerals deposition.

Distribution of neurofibrillary tangles in diffuse neurofibrillary tangles with calcification

AIMS

In this study, the appearance and distribution of neurofibrillary tangles (NFT) in diffuse neurofibrillary tangles with calcification (DNTC) were investigated neuropathologically in order to elucidate the detailed distribution pattern in this disease.

METHODS

The distribution of NFT in six cases neuropathologically diagnosed as DNTC (two men and four women) was studied using Gallyas-Braak silver stain. The age at death ranged from 56 to 73, with an average of 63.5 +/- 7.5 years.

RESULTS

NFT were seen throughout the cerebral cortex, and were especially marked in the temporal and limbic cortices. The distribution pattern of NFT in the limbic lobe was similar to that in Alzheimer's disease as reported in the previous studies. In the temporal lobe, more NFT were distributed in the anterior than in the posterior area, which was confirmed in all six cases. The temporal pole showed the highest density of NFT including ghost tangles.

CONCLUSIONS

The diffuse appearance of NFT in the cerebral cortex with the highest severity in the temporal pole was found to be a neuropathological characteristic of DNTC.

An autopsy case of diffuse neurofibrillary tangles with calcification: early stage pathologic findings

A 66-year-old man with no medically remarkable past or family history gradually showed personality changes, memory disturbance, sleeplessness and abnormal behavior. Neurologic examination showed no focal signs and neither parkinsonism nor cerebellar ataxia was recognized. He died 4 years after the onset of dementia due to chronic renal failure. Neuropathologic examination revealed neuronal loss and gliosis in the temporal cortex, particularly in the subiculum, parahippocampal gyrus and entorhinal cortex, and insular cortex. NFTs were observed to be widespread in the cerebral cortex, especially the temporal cortex and brainstem, while senile plaques were not observed. Gallyas-Braak silver staining revealed the presence of numerous NFTs, glial inclusions and neuropil threads throughout the cerebral neocortex, limbic system, hippocampus and brainstem. The subiculum showed the most severe involvement; severe atrophy, severe neuron loss, and numerous ghost tangles (extracellular NFTs) were apparent. Although NFTs contained both monoclonal anti-3repeat-tau antibody (RD3) and RD4 immunoreactivity, this differed between the intracellular NFTs and ghost tangles. RD3 immunoreactivity was mainly observed in ghost tangles and neuropil threads, whereas RD4 immunoreactivity was mainly observed in intracellular NFTs and glial inclusions. Calcification was also found to be widespread in the cerebral cortex and white matter, basal ganglia, thalamus, cerebellar cortex, white matter and dentate nucleus. These characteristic neuropathologic findings lead to the pathologic diagnosis of diffuse neurofibrillary tangles with calcification (DNTC). It is argued that this patient showed early stage pathologic signs of DNTC due to a short disease duration, which may provide clues regarding the progression of this rare disease.

Argyrophilic grains are not always argyrophilic--distinction from neurofibrillary tangles of diffuse neurofibrillary tangles with calcification revealed by comparison between Gallyas and Campbell-Switzer methods

Silver staining profiles of argyrophilic grains (AGs) and of neurofibrillary tangles (NFTs) of diffuse neurofibrillary tangles with calcification (DNTC, collectively as DNTC-NFTs) were examined for their relation to tau- and ubiquitin-like immunoreactivity (IR). Pairs of mirror sections were triple-fluorolabeled with an anti-PHF tau (AT8) antibody, an anti-ubiquitin antibody and thiazin red (TR), a fluorochrome that identifies fibrillary structures such as NFTs of Alzheimer's disease (AD). One of the paired sections was subsequently stained with Gallyas method (GAL), and the other with Campbell-Switzer method (CS). Comparison of the same microscopic field on the paired fluorolabeled sections, subsequently silver-stained with either GAL or CS enabled the determination of five different profiles of each structure: AT8-IR, ubiquitin-like-IR, affinity to TR, argyrophilia with GAL or CS staining. AGs, mainly composed of four-repeat (4R) tau, were argyrophilic with GAL but not with CS, and their affinity to TR and ubiquitin-like-IR was not intense. This staining profile of AGs is identical with those of tau-positive structures in the cortex of progressive supranuclear palsy/corticobasal degeneration, both composed of 4R tau. This selective affinity of AGs to GAL is in sharp contrast with Pick bodies, composed of three-repeat (3R) tau, that are positive for CS but not for GAL, as we reported previously. This contrast is explainable if the argyrophilia with CS is related to deposits containing 3R tau, while that with GAL is linked to those containing 4R tau. Indeed, DNTC-NFTs, that contain both 3R and 4R tau, were argyrophilic with CS and GAL, and their affinity to TR and ubiquitin-like-IR were consistent, as we reported previously for NFTs of AD and of Down's syndrome, both similarly composed of 3R and 4R tau. Taken together, differences in molecular composition of tau protein in these deposits are linked to their argyrophilic properties dependent on the staining method in these sporadic tauopathies. Although explanations for these empirical differences are not yet available, awareness of this clear distinction is potentially of diagnostic and pathological significance.

Distribution of cerebral cortical lesions in diffuse neurofibrillary tangles with calcification: a clinicopathological study of four autopsy cases showing prominent parietal lobe involvement

We investigated clinicopathologically four Japanese autopsy cases of diffuse neurofibrillary tangles with calcification (DNTC), which has been believed to be characterized by temporal or temporofrontal circumscribed lobar atrophy, and examined the distribution of their cerebral cortical lesions using hemisphere specimens. The lesions were classified into three categories (slight, moderate, and severe). Severe lesions were present in the temporal lobes and insular gyri of all four cases, consistent with the studies reported to date. In contrast, severe lesions were encountered in the parietal lobe of case 1 and moderate lesions were found in the parietal lobes of cases 2-4. Furthermore, moderate lesions of the precentral gyrus were present in cases 2-4, and moderate lesions of the postcentral gyrus were encountered in all four cases. We postulate that the distribution of cerebral cortical lesions in DNTC is more widespread than previously assumed. Our data also indicate that the unusual clinical signs of DNTC reported by several Japanese researchers, including parietal signs such as apraxia and agnosia, are roughly consistent with the topographic distribution of cerebral cortical lesions in DNTC elucidated in this study.

Alpha-synuclein-positive structures in association with diffuse neurofibrillary tangles with calcification

alpha-Synuclein is known to be a major constituent of the Lewy bodies (LBs) in Parkinson's disease (PD) and the neuronal and glial cytoplasmic inclusions (NCIs, GCIs) in multiple system atrophy. alpha-Synuclein-positive inclusions such as LBs, NCIs and GCIs sometimes show colocalization with tau-positive neurofilaments. Studies using alpha-synuclein immunohistochemistry have often found LBs in the amygdala of patients with familial or sporadic Alzheimer's disease (AD), as well as in patients with Down's syndrome and AD. However, no studies have reported alpha-synuclein-positive structures in cases of diffuse neurofibrillary tangles with calcification (DNTC), which is characterized by numerous neurofibrillary tangles (NFTs) throughout the cerebral cortex but few, if any, senile plaques. We investigated the distribution of alpha-synuclein-positive structures in two cases of DNTC: a 65-year-old woman (brain weight, 850 g) and a 75-year-old woman (brain weight, 800 g). In both cases, severe cerebral atrophy predominant in the temporal lobe was noted. Microscopically, alpha-synuclein-positive intracytoplasmic inclusions and neurites were found in the superior temporal lobe (within the temporal pole), amygdala, parahippocampus, entorhinal cortex and insula, the regions most affected by the NFTs. alpha-Synuclein-positive intracytoplasmic inclusions were rare or absent in other regions of the cerebral cortex and brainstem. This distribution pattern differs from that of PD or dementia with LBs. Our findings suggest that the accumulation pattern of alpha-synuclein is a pathological feature of DNTC, and that DNTC is associated with accumulation of both tau and alpha-synuclein.

Lead content of brain tissue in diffuse neurofibrillary tangles with calcification (DNTC): the possibility of lead neurotoxicity

Diffuse neurofibrillary tangles with calcification (DNTC) is a form of presenile dementia, characterized pathologically by fronto-temporal atrophy with neurofibrillary tangles (NFTs), neuropil threads and Fahr-type calcification, in which no senile plaques are observed. As already noted, chronic exposure to lead (Pb) might be one of the etiological factors of Fahr-type calcification. Until now, there have been no reports in which Pb concentration has been quantified in DNTC brains. We examined the concentration of Pb in fresh-frozen brain tissue and in 10% formalin-fixed brain tissue from six cases of DNTC, four cases of Alzheimer's disease, and in nine non-demented elderly controls by flameless atomic absorption spectrometry, and demonstrated a high concentration of Pb in DNTC brains. Although it remains unclear how these findings are related to the formation of NFTs, they suggest that Pb neurotoxicity may be involved in the pathogenesis of DNTC.

Diffuse neurofibrillary tangles with calcification (a form of dementia): X-ray spectrometric evidence of lead accumulation in calcified regions

Diffuse neurofibrillary tangles with calcification (DNTC) is a form of slowly progressive dementia in which no senile plaques are observed. The calcification is one of the most characteristic features of DNTC. We examined the elemental content of certain mineral deposits (lead, magnesium, phosphorus, calcium, iron, copper and zinc) in the calcified and non-calcified regions of eight cases of DNTC, five cases of Alzheimer's disease (AD) and in eight non-demented elderly controls. The study was performed using a combination of scanning electron microscopy and X-ray spectrometry on 10% formalin-fixed brain tissue. A marked abundance of calcium and phosphorus was observed in the calcified regions of DNTC and non-DNTC brains. Although no lead was observed in the non-calcified regions of DNTC and in non-DNTC brains, traces of lead were detected exclusively in the calcified regions of DNTC brains. The implications and possible significance of the lead accumulation in DNTC brains are discussed.