Eric Falke scite author profile

Intracellular accumulation of PHFtau in Alzheimer's disease (AD) disrupts the neuronal cytoskeleton and other neuronal machinery and contributes to axonal and dendritic degeneration, and neuronal death. Furthermore, amyloid-beta (Abeta) has been reported to be toxic to neurons and neurites. While loss of presynaptic elements is an established feature of AD, the nature and extent of dendritic degeneration has been infrequently studied. We investigated MAP2-immunoreactive dendrites using a novel method of high-throughput quantification and also measured cortical thickness and the densities of NeuN-immunoreactive neurons, PHFtau neurofibrillary tangles (NFTs), and Abeta plaque burden in the subiculum in AD and elderly controls. Corrected for atrophy, the "dendritic arborization index" was significantly reduced by up to 66% in all three layers of the subiculum. Laminar thickness was reduced by an average 33% and there was a marked reduction in neuron density of approximately 50%. As expected, NFTs and Abeta plaques were significantly increased in AD. Dendritic arborization indices negatively correlated with NFT densities while no significant correlations were found with Abeta plaque densities. The pattern of dendritic loss in the subiculum and the correlations with NFT densities respectively suggest that deafferentation and intrinsic neurofibrillary degeneration both may contribute to dendritic loss in AD.

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Nervous system involvement in von Hippel–Lindau disease: pathology and mechanisms

Vortmeyer

Falke²,

Gläsker

et al. 2013

Acta Neuropathol

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Patients with von Hippel-Lindau disease carry a germline mutation of the Von Hippel-Lindau (VHL) tumor-suppressor gene. We discuss the molecular consequences of loss of VHL gene function and their impact on the nervous system. Dysfunction of the VHL protein causes accumulation and activation of hypoxia inducible factor (HIF) which can be demonstrated in earliest stages of tumorigenesis and is followed by expression of VEGF, erythropoietin, nitric oxide synthase and glucose transporter 1 in VHL-deficient tumor cells. HIF-independent functions of VHL, epigenetic inactivation of VHL, pVHL proteostasis, and links between loss of VHL function and developmental arrest are also described. A most intriguing feature in VHL disease is the occurrence of primary hemangioblastic tumors in the nervous system, the origin of which has not yet been entirely clarified, and current hypotheses are discussed. Endolymphatic sac tumors may extend into the brain, but originally arise from proliferation of endolymphatic duct/sac epithelium; the exact nature of the proliferating epithelial cell, however, also has remained unclear, as well as the question why tumors almost consistently develop in the intraosseous portion of the endolymphatic sac/duct only. The epitheloid clear cell morphology of both advanced hemangioblastoma and renal clear cell carcinoma can make the differential diagnosis challenging, recent developments in immunohistochemical differentiation are discussed. Finally, metastasis to brain may not only be caused by renal carcinoma, but may derive from VHL disease-associated pheochromocytoma/paraganglioma, or pancreatic neuroendocrine tumor.

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Absence of neurodegeneration in the thalamus and caudate of elderly patients with schizophrenia

Falke¹,

Han²,

Arnold³

2000

Psychiatry Research

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Developmentally arrested structures preceding cerebellar tumors in von Hippel–Lindau disease

Shively

Falke

et al. 2011

Modern Pathology

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There is increasing evidence that suggests that knockout of tumor-suppressor gene function causes developmental arrest and protraction of cellular differentiation. In the peripheral nervous system of patients with the tumor-suppressor gene disorder, von Hippel–Lindau disease, we have demonstrated developmentally arrested structural elements composed of hemangioblast progenitor cells. Some developmentally arrested structural elements progress to a frank tumor, hemangioblastoma. However, in von Hippel–Lindau disease, hemangioblastomas are frequently observed in the cerebellum, suggesting an origin in the central nervous system. We performed a structural and topographic analysis of cerebellar tissues obtained from von Hippel–Lindau disease patients to identify and characterize developmentally arrested structural elements in the central nervous system. We examined the entire cerebella of five tumor-free von Hippel–Lindau disease patients and of three non-von Hippel–Lindau disease controls. In all, 9 cerebellar developmentally arrested structural elements were detected and topographically mapped in 385 blocks of von Hippel–Lindau disease cerebella. No developmentally arrested structural elements were seen in 214 blocks from control cerebella. Developmentally arrested structural elements are composed of poorly differentiated cells that express hypoxia-inducible factor (HIF)2α, but not HIF1α or brachyury, and preferentially involve the molecular layer of the dorsum cerebelli. For the first time, we identify and characterize developmentally arrested structural elements in the central nervous system of von Hippel–Lindau patients. We provide evidence that developmentally arrested structural elements in the cerebellum are composed of developmentally arrested hemangioblast progenitor cells in the molecular layer of the dorsum cerebelli.

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Hypothermia and ERK activation after cardiac arrest

D'Cruz¹,

Logue²,

Falke³

et al. 2005

Brain Research

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Eric Falke

Subicular Dendritic Arborization in Alzheimer's Disease Correlates with Neurofibrillary Tangle Density

Nervous system involvement in von Hippel–Lindau disease: pathology and mechanisms

Absence of neurodegeneration in the thalamus and caudate of elderly patients with schizophrenia

Developmentally arrested structures preceding cerebellar tumors in von Hippel–Lindau disease

Hypothermia and ERK activation after cardiac arrest

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