Edward G. Shaskan scite author profile

The polyamines spermidine and spermine and the activity of the polyamine synthesizing enzyme, S‐adenosyl‐L‐methionine (SAM) decarboxylase, were measured in regions of adult rat brains and during postnatal development. In the adult, although spermidine levels tended to correlate with the relative amounts of white matter in some areas, there were striking exceptions. SAM decarboxylase activity of the adult brain was higher than in most other mammalian tissues, although brain levels of polyamines were among the lowest. SAM decarboxylase activity appeared to be localized to cellular cytoplasm. Its activity increased with age in contrast to the levels of spermine, spermidine, DNA and RNA which decreased during postnatal development.

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Activated microglia mediate neuronal cell injury via a nitric oxide mechanism.

Chao

Molitor

et al. 1992

995

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Activated microglial have been proposed to play a pathogenetic role in immune-mediated neurodegenerative diseases. To test this hypothesis, purified murine neonatal microglial were cocultured with neuronal cells derived from fetal brain. Activation with IFN-gamma and LPS of these cocultures brought about a sharp decrease in uptake of gamma-amino butyric acid and a marked reduction in neuronal cell survival. These effects varied with the density of microglia, the concentrations of the activation signals (IFN-gamma and LPS), and the duration of coculture. Inasmuch as addition of NG-monomethyl-L-arginine blocked these effects, a L-arginine-dependent neurocytotoxic mechanism was implicated. Abundant nitrite, a metabolite of the free radical nitric oxide (NO) derived from L-arginine, was detected in activated microglial/neuronal cell cocultures and in purified microglial cell cultures but not in purified astrocyte or neuronal cell cultures, suggesting that microglial were the principal source of the NO. These findings support the hypothesis that microglia are the source of a neurocytotoxic-free radical, and shed light on an additional mechanism of immune-mediated brain injury.

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A commingling analysis of platelet monoamine oxidase activity

Rice¹,

McGuffin²,

Shaskan³

1982

Psychiatry Research

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Uptake and Subcellular Localization of Neurotransmitters in the Brain

et al. 1970

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Edward G. Shaskan

Monoamine oxidase activity as a biological marker

POLYAMINES: DEVELOPMENTAL ALTERATIONS IN REGIONAL DISPOSITION AND METABOLISM IN RAT BRAIN¹

Activated microglia mediate neuronal cell injury via a nitric oxide mechanism.

A commingling analysis of platelet monoamine oxidase activity

Uptake and Subcellular Localization of Neurotransmitters in the Brain

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Edward G. Shaskan

Monoamine oxidase activity as a biological marker

POLYAMINES: DEVELOPMENTAL ALTERATIONS IN REGIONAL DISPOSITION AND METABOLISM IN RAT BRAIN1

Activated microglia mediate neuronal cell injury via a nitric oxide mechanism.

A commingling analysis of platelet monoamine oxidase activity

Uptake and Subcellular Localization of Neurotransmitters in the Brain

Contact Info

Product

Resources

About

POLYAMINES: DEVELOPMENTAL ALTERATIONS IN REGIONAL DISPOSITION AND METABOLISM IN RAT BRAIN¹