W. G. Halliday scite author profile

Numbers of neurones, synapses and axon terminals were quantified in a murine scrapie model with severe hippocampal pyramidal cell loss, in which definite clinical scrapie is evident from 226 days post-infection (dpi) and death occurs around 250 dpi. Disease-specific PrP accumulations were first seen at 70 dpi (28% of the incubation period (IP)) in thalamus and as sparse foci within the stratum pyramidale of CA1. By 98 dpi (39% IP), PrP was seen in the stratum radiatum and was found at later stages throughout all levels of the hippocampus. At the ultrastructural level in the stratum radiatum of CA1, a decrease in the numbers of simple synapses from 84 dpi (34% IP) and in perforated synapses from 98 dpi (42% IP) was found using an unbiased stereological method, the disector analysis. Degeneration of axon terminals was found from 98 dpi (39% IP) onwards. Neuronal loss was detected in CA1 from 180 dpi (72% IP). The results suggest that the fundamental lesion in the hippocampus of ME7-infected mice is associated with PrP release from CA1 pyramidal neurones, which perturbs synaptic function and leads to degeneration of preterminal axons, and that subsequent pathological changes including neurone loss are sequelae to this initial insult.

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Correlative light and electron microscopy studies of PrP localisation in 87V scrapie

Jeffrey¹,

Goodsir²,

Bruce

et al. 1994

Brain Research

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Infection specific prion protein (PrP) accumulates on neuronal plasmalemma in scrapie infected mice

Jeffrey

Goodsir

Bruce³

et al. 1992

Neuroscience Letters

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Early unsuspected neuron and axon terminal loss in scra pie‐infected mice revealed by morphometry and immunocytochemistry

Jeffrey¹,

Fraser

Halliday³

et al. 1995

Neuropathology Appl Neurobio

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Neuronal loss is often quoted as an element of the pathology of the transmissible spongiform encephalopathies, but few data are published. To determine whether neuronal loss is a salient feature of murine scrapie, and whether there is a relationship with the other hallmark lesions of scrapie we compared the numbers of neurons, severity of vacuolation, axonal bouton density and distribution of prion protein (PrP) in the dorsal lateral geniculate nucleus (dLGN) following intraocular infection of C57BL/FaBtDk mice with ME7 scrapie. This route of infection limits the initial spread of infection to the retinal efferents, thus directing infectivity and subsequent pathological changes to the dLGN which is a major projection of the optic nerve. Morphometric assessment of neuron number in the dLGN was made on semi-serial sections from five infected and five normal brain injected controls at four 50-day intervals during the incubation period, and on terminally affected mice. The number of neurons decreased from around 20,000 at 50 days to under 1000 in the terminal group. Significant loss was identified in individual mice at 150 days post-infection, coincident with the onset of vacuolation: neuron number was found to have an inverse relationship to the severity of vacuolation. Axonal boutons in the dLGN (demonstrated by synaptophysin immunolabelling) were reduced at 200 days, and virtually absent in terminal mice. The intensity of PrP immunostaining progressively increased from 150 days, and in a separate experiment PrP was detected from 175 days by polyacrylamide gel electrophoresis of brain extracts.(ABSTRACT TRUNCATED AT 250 WORDS)

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Numbers of neurons in vacuolated and non-vacuolated neuroanatomical nuclei in bovine spongiform encephalopathy-affected brains

Jeffrey¹,

Halliday²

1994

Journal of Comparative Pathology

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W. G. Halliday

Synapse loss associated with abnormal PrP precedes neuronal degeneration in the scrapie‐infected murine hippocampus

Correlative light and electron microscopy studies of PrP localisation in 87V scrapie

Infection specific prion protein (PrP) accumulates on neuronal plasmalemma in scrapie infected mice

Early unsuspected neuron and axon terminal loss in scra pie‐infected mice revealed by morphometry and immunocytochemistry

Numbers of neurons in vacuolated and non-vacuolated neuroanatomical nuclei in bovine spongiform encephalopathy-affected brains

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