Comparison Between the Early Changes in Isoniazid Intoxication and the Chromatolytic Response to Nerve Ligation in Spinal Ganglion Cells of the Rat

Jones, Huw B.; Cavanagh, John

doi:10.1111/j.1365-2990.1981.tb00248.x

Cited by 21 publications

(9 citation statements)

References 11 publications

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“…Retrogradely labelled cell bodies had a wide range of diameters (20-80 µm) with a mean of 40µm (see also Larnicol et al, 1988). The light and electron microscopic features were similar to those described previously (Lieberman, 1976, Jones andCavanagh, 1981), although the light microscopic distinction between large light and small dark DRG neurones was not clear cut (FIG 4). In all neurones, nuclei were circular and centrally-placed within the cell body; nucleoli were compact and prominent; Nissl substance was mostly evenly distributed throughout the cell body.…”

Section: Normal Drgsupporting

confidence: 58%

Target-dependence of sensory neurons: An ultrastructural comparison of axotomised dorsal root ganglion neurons with allowed or denied reinnervation of peripheral targets

Johnson

Sears

2013

Neuroscience

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Section: Normal Drgsupporting

confidence: 58%

Target-dependence of sensory neurons: An ultrastructural comparison of axotomised dorsal root ganglion neurons with allowed or denied reinnervation of peripheral targets

Johnson

Sears

2013

Neuroscience

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“…The lesions seen by us in the coeliacomesenteric ganglion are similar to those described by Gilmour (1975) in the stellate ganglion and would seem to be similar in many ways to retrograde lesions following chemical intoxication, axotomy and ligature of axons of peripheral nerves. All of these retrograde changes as stated by Jones and Cavanagh (1981) are similar, although differing slightly in detail.…”

supporting

confidence: 59%

Electron microscopy

Hodson

Wright

1987

J of Small Animal Practice

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“…The axonal reaction, after axotomy, is often accompanied by a chromatolytic appearance of neuronal perikarya. The Golgi network is always recognisable in motor, sensory and autonomic neurons after experimental axotomy although alterations in size and intracytoplasmic distribution of the complexes may occur (Matthews and Raisman 1972;Jones and Cavanagh 1981;Croul et al 1988). Based on this evidence we suggest that the 'chromatolytic' changes in EGS do not represent an axonal reaction to primary lesions more distally in the axon although it is possible that the axonal reaction in horses differs from that in other species.…”

Section: Two Normal Neurons (Small Arrows) Have Wga Lahelling Of Thmentioning

confidence: 99%

Immunocytochemical and lectin histochemical study of neuronal lesions in autonomic ganglia of horses with grass sickness

Griffiths¹,

Kyriakides²,

Smith³

et al. 1993

Equine Veterinary Journal

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Summary Equine grass sickness (EGS) is a primary dysautonomia characterised pathologically by lesions in autonomic ganglia, enteric plexi and specific nuclei in the CNS. Immunocytochemistry and lectin histochemistry of the autonomic ganglia were used to determine whether abnormalities can be detected in specific proteins or cellular organelles. EGS ganglia contained a mixture of morphologically normal and abnormal neurons, the former appearing identical to cells from control animals. Affected cells showed marked disturbances in neurofilament (NF) proteins and β‐tubulin, major components of the cytoskeleton; in most neurons immunoreactivity was reduced or absent while the distribution was altered in the remainder. Staining for neuron‐specific enolase, a pan‐neuronal marker, was severely reduced or absent, as was reactivity for the catecholaminergic enzyme tyrosine hydroxylase. However, affected neurons showed a marked increase in dopamine‐β‐hydroxylase (DβH), another enzyme associated with noradrenaline synthesis. Wheat germ agglutinin and Griffonia simplicifolia B4 lectin histochemistry was used to label membranes of the Golgi apparatus, which stained as discrete curvilinear perinuclear profiles. All affected neurons showed abnormalities with either complete loss of reaction or amorphous centrally located lectin staining. The results indicate perturbation in a wide variety of cytoplasmic and cytoskeletal proteins. In the majority of instances there is a decrease in stainable protein; the increase in DβH may indicate a failure to be transported down the axon with resultant accumulation in the perikaryon. Loss of a recognisable Golgi structure appears to be an early event in the neuropathology of EGS.

show abstract

Comparison Between the Early Changes in Isoniazid Intoxication and the Chromatolytic Response to Nerve Ligation in Spinal Ganglion Cells of the Rat

Cited by 21 publications

References 11 publications

Target-dependence of sensory neurons: An ultrastructural comparison of axotomised dorsal root ganglion neurons with allowed or denied reinnervation of peripheral targets

Target-dependence of sensory neurons: An ultrastructural comparison of axotomised dorsal root ganglion neurons with allowed or denied reinnervation of peripheral targets

Electron microscopy

Immunocytochemical and lectin histochemical study of neuronal lesions in autonomic ganglia of horses with grass sickness

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