Jacques B. Lamarche scite author profile

Frataxin deWciency in Friedreich's ataxia (FRDA) causes cardiac, endocrine, and nervous system manifestations. Frataxin is a mitochondrial protein, and adequate amounts are essential for cellular iron homeostasis. The main histological lesion in the brain of FRDA patients is neuronal atrophy and a peculiar proliferation of synaptic terminals in the dentate nucleus termed grumose degeneration. This cerebellar nucleus may be especially susceptible to FRDA because it contains abundant iron. We examined total iron and selected iron-responsive proteins in the dentate nucleus of nine patients with FRDA and nine normal controls by biochemical and microscopic techniques. Total iron (1.53 § 0.53 mol/g wet weight) and ferritin (206.9 § 46.6 g/g wet weight) in FRDA did not signiWcantly diVer from normal controls (iron: 1.78 § 0.88 mol/g; ferritin: 210.9 § 9.0 g/g) but Western blots exhibited a shift to light ferritin subunits. Immunocytochemistry of the dentate nucleus revealed loss of juxtaneuronal ferritin-containing oligodendroglia and prominent ferritin immunoreactivity in microglia and astrocytes. Mitochondrial ferritin was not detectable by immunocytochemistry. Stains for the divalent metal transporter 1 conWrmed neuronal loss while endothelial cells reacting with antibodies to transferrin receptor 1 protein showed crowding of blood vessels due to collapse of the normal neuropil. Regions of grumose degeneration were strongly reactive for ferroportin. Purkinje cell bodies, their dendrites and axons, were also ferroportin-positive, and it is likely that grumose degeneration is the morphological manifestation of mitochondrial iron dysmetabolism in the terminals

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Iron and iron-responsive proteins in the cardiomyopathy of Friedreich's ataxia

Michael

Petrocine

Jiang

et al. 2006

MCER

111

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Hypertrophic cardiomyopathy is a common complication of Friedreich's ataxia (FRDA). Histological sections reveal abnormal cardiomyocytes, muscle fiber necrosis, reactive inflammation, and increased endomysial connective tissue. Scattered muscle fibers display perinuclear collections of minute iron-positive granules that lie in rows between myofibrils. Frataxin deficiency in FRDA causes mitochondrial iron dysmetabolism. We studied total iron and the iron-related proteins ferritin, mitochondrial ferritin, divalent metal transporter 1 (DMT1), and ferroportin in FRDA hearts by biochemical and histological techniques. Total iron in the left ventricular wall of FRDA patients (30.7+/-19.3 mg/100 g dry weight) was not significantly higher than normal (31.3+/-24.1 mg/100 g dry weight). Similarly, cytosolic holoferritin levels in FRDA hearts (230+/-172 microg/g wet weight) were not significantly elevated above normal (148+/-86 microg/g wet weight). The iron-positive granules exhibited immunoreactivity for cytosolic ferritin, mitochondrial ferritin, and ferroportin. Electron microscopy showed enhanced electron density of mitochondrial deposits after treatment with bismuth subnitrate supporting ferritin accumulation. The inflammatory cells in the endomysium were reactive for CD68, cytosolic ferritin, and the DMT1 isoform(s) translated from messenger ribonucleic acids containing iron-responsive elements (DMT1+). Progressive cardiomyopathy in FRDA is the likely result of iron-catalyzed mitochondrial damage followed by muscle fiber necrosis and a chronic reactive myocarditis.

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The Cardiomyopathy of Friedreich's Ataxia Morphological Observations in 3 Cases

Lamarche

Côté

Lemieux

1980

Can. j. neurol. sci.

181

100

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SUMMARY:In the light of the recent finding of deposits of calcium salts and iron in myocardial cells in one case of Friedreich's ataxia, we have made a detailed morphological study of 3 new cases of this cardiomyopathy. Calcium deposits were not found in the muscle fibers but lipofuscin granules and deposits of iron were observed in our 3 cases. In addition to the usual findings of interstitial fibrosis, hypertrophy and degeneration of myocardial fibers, foci of segmental active muscle necrosis were constantly present. There is a possibility that Friedreich's ataxia could be a neurocardiac degenerative disease with a membrane defect which could be related to defective metabolism of vitamin E or other micronutrienls.

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From genotype to phenotype: A clinical, pathological, and biochemical investigation of frontotemporal dementia and parkinsonism (FTDP-17) caused by the P301L tau mutation

et al. 1999

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Frontotemporal dementia is a heterogeneous, often inherited disorder that typically presents with the insidious onset of behavioral and personality changes. Two genetic loci have been identified and mutations in tau have been causally implicated in a subset of families linked to one of these loci on chromosome 17q21‐22. In this study, linkage analysis was performed in a large pedigree, the MN family, suggesting chromosome 17q21‐22 linkage. Mutational analysis of the tau coding region identified a C‐to‐T change in exon 10 that resulted in the conversion of proline to a leucine (P301L) that segregated with frontotemporal dementia in this family. The clinical and pathological findings in the MN family emphasize the significant overlap between Pick's disease, corticobasal degeneration, and frontotemporal dementia and challenge some of the current dogma surrounding this condition. Pathological studies of two brains from affected members of Family MN obtained at autopsy demonstrate numerous tau‐positive inclusions that were most prominent in the frontal lobes, anterior temporal lobes, and brainstem structures, as well as Pick‐like bodies and associated granulovacuolar degeneration. These Pick‐like bodies were observed in 1 patient with motor neuron disease. Because exon 10 is present only in tau mRNA coding for a protein with four microtubule binding repeats (4R), this mutation should selectively affect 4Rtau isoforms. Indeed, immunoblotting demonstrated that insoluble 4Rtau is selectively aggregated in both gray and white matter of affected individuals. Although there was significant pathological similarity between the 2 cases, the pattern of degenerative changes and tau‐positive inclusions was not identical, suggesting that other genetic or epigenetic factors can significantly modify the regional topology of neurodegeneration in this condition. Ann Neurol 1999;45:704–715

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Necrosis as a prognostic criterion in malignant supratentorial, astrocytic gliomas

Nelson

Tsukada

Schoenfeld

et al. 1983

Cancer

255

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Surgical specimens of malignant, supratentorial, astrocytic gliomas from 503 patients randomized on an RTOG‐ECOG treatment protocol were examined by central pathologic review. The diagnosis of glioblastoma multiforme (GBM) was made only when one or more foci of coagulation necrosis involving astrocytic tumor cells were identified histologically. Malignant astrocytic neoplasms without necrosis were classified as astrocytoma with atypical or anaplastic features (AAF). The median survival stratifying for treatment for patients with GBM was eight months compared to 28 months for patients with AAF. In most cases the specimens were received with a Kernohan grade. On the basis of these grades, patients with astrocytoma Grade 3 had a median survival of ten months as compared to a median survival of nine months for those with astrocytoma Grade 4. Observations demonstrate that necrosis is a reliable, decisive prognostic factor associated with malignant, supratentorial, astrocytic gliomas. The Kernohan system is of limited value in assessing prognosis for this group of tumors.

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