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Vol. 291, Issue 1, 39-43, October 1999
Laboratory of Neuroscience, Research and Development, Assaf Harofeh
Medical Center, Zrifin, Israel
The induction of an early increase in polyamine metabolism, termed
"the polyamine response," is now recognized to have a critical role
in the reaction of neurons to injury. Several studies in experimental
animals have demonstrated that treatment with the naturally occurring
polyamines spermine, spermidine, and putrescine can protect neurons
from dying after the infliction of various types of neurotrauma,
including mechanical injuries, neurotoxic insults, and ischemia. These
findings led us to synthesize a series of polyamine derivatives of
1-aminoindan and 1-aminotetralin and to determine their effects in
several in vitro and in vivo models of neurotrauma. Some of the novel
compounds proved to be potent neuroprotective in these models, and one
of them,
N,N-di-(4-aminobutyl)-1-aminoindan, was
superior to the others and to the natural polyamines themselves. We
conclude that compounds based on the novel polyamine-based structures
we synthesized have therapeutic potential as neuroprotective agents.
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