R. A. Edwards scite author profile

Synaptosomes were isolated from turtle and rat brains to determine whether differences in brain ion channel densities accounted for the turtle's ability to survive anoxia compared with the mammal. The Na(+)-channel binding neurotoxin brevetoxin showed high-affinity specific binding in both turtle and rat synaptosomes, suggesting specific ligand-receptor interaction. The maximum binding capacity (Bmax) value for the turtle was only about one-third of that found for the rat synaptosomes, suggesting that the turtle synaptosome has a correspondingly lower Na+ channel density than the rat. This apparent difference in Na+ channel density is not reflected in metabolic rates, since at the same temperature (31 degrees C) the O2 consumption of both the rat and turtle synaptosome was almost identical. The large reductions in energy expenditure seen in synaptosomes incubated in Na(+)-free media and in media containing ouabain (approximately 50% turtle, 80% rat) are probably related to the halting of transmembrane Na(+)-K+ exchange. The greater reduction in the rat may be related to the apparent greater density of Na+ channels in the rat brain. However, compared with the 90% reduction in brain metabolism that occurs when the turtle brain becomes anoxic, the differences in ion channel density and in the costs of ion pumping between the rat and turtle brain are trivial. Closing Na+ channels with tetrodotoxin and increasing Na+ channel activation with veratridine caused substantial decreases and increases in synaptosome energy consumption, respectively. This suggests that the modulation of ion channel conductance has a significant effect on metabolic cost and may be an important mechanism to reduce energy consumption and electrical activity in the anoxic turtle brain, while still maintaining ionic gradients.

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Brevetoxins bind to multiple classes of sites in rat brain synaptosomes

Edwards

Trainer

Baden

1992

Molecular Brain Research

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Brevetoxins: Unique Activators of Voltage-Sensitive Sodium Channels

Trainer

Edwards

Szmant

et al. 1990

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Hypertrophy of the Breast Due to Injections of Adrenal Cortex Extract in a Man With Addison's Disease

Edwards¹,

Shimkin²,

Shaver³

1938

JAMA

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R. A. Edwards

Brevetoxin binding: molecular pharmacology versus immunoassay

Relationship between energy expenditure and ion channel density in the turtle and rat brain

Brevetoxins bind to multiple classes of sites in rat brain synaptosomes

Brevetoxins: Unique Activators of Voltage-Sensitive Sodium Channels

Hypertrophy of the Breast Due to Injections of Adrenal Cortex Extract in a Man With Addison's Disease

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