Richard J. Riopelle scite author profile

A role for Zn2+ in a variety of neurological conditions such as stroke, epilepsy and Alzheimer's disease has been postulated. In many instances, susceptible neurons are located in regions rich in Zn2+ where nerve growth factor (NGF) levels rise as a result of insult. Although the interaction of Zn2+ with this neurotrophin has previously been suggested, the direct actions of the ion on NGF function have not been explored. Molecular modeling studies predict that Zn2+ binding to NGF will induce structural changes within domains of this neurotrophin that participate in the recognition of TrkA and p75NTR. We demonstrate here that Zn2+ alters the conformation of NGF, rendering it unable to bind to p75NTR or TrkA receptors or to activate signal transduction pathways and biological outcomes normally induced by this protein. Similar actions of Zn2+ are also observed with other members of the NGF family, suggesting a modulatory role for this metal ion in neurotrophin function.

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Survival of Cholinergic Forebrain Neurons in Developing p75 ^NGFR -Deficient Mice

Zee

Ross

Riopelle

et al. 1996

Science

193

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The functions of the low-affinity p75 nerve growth factor receptor (p75(NGFR)) in the central nervous system were explored in vivo. In normal mice, approximately 25 percent of the cholinergic basal forebrain neurons did not express TrkA and died between postnatal day 6 and 15. This loss did not occur in p75(NGFR)-deficient mice or in normal mice systemically injected with a p75(NGFR)-inhibiting peptide. Control, but not p75(NGFR)-deficient, mice also had fewer cholinergic striatal interneurons. Apparently, p75(NGFR) mediates apoptosis of these developing neurons in the absence of TrkA, and modulation of p75(NGFR) can promote neuronal survival. Cholinergic basal forebrain neurons are involved in learning and memory.

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Depressive Symptoms in Parkinson's Disease: A Comparison With Disabled Control Subjects

Ehmann

Beninger

Gawel

et al. 1990

J Geriatr Psychiatry Neurol

138

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A high incidence of depressive symptoms has been observed in patients with Parkinson's disease (PD). PD involves a loss of central monoamines, and a decrease of monoamines has been implicated in depression; therefore, it is possible that depressive symptoms in PD result from the loss of endogenous neurotransmitters. However, it is equally possible that depressive symptoms represent a reaction to the chronic disabling course of PD. By comparing depressive symptoms in PD patients to those in matched patients with other chronic disabling diseases not involving a loss of central monoamines, it may be possible to decide between these alternatives. Thus, depressive symptoms were assessed in 45 patients with PD and 24 disabled controls that did not differ from the PD subjects on a measure of functional disability. Results showed that PD subjects obtained significantly higher total scores on the Beck Depression Inventory (BDI) than controls. PD subjects scored significantly higher than controls on BDI items grouped to reflect cognitive-affective and somatic depressive symptoms. The BDI scores of PD subjects were not reliably related to age, sex, duration of PD, or clinical ratings of PD symptom severity or functional disability. Self-rated disability and the number of recent medical problems were the greatest predictors of depressive symptoms. These findings supported the hypothesis that depressive symptoms in PD may not represent solely a reaction to disability.

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Histochemical characterization of sensory neurons with high-affinity receptors for nerve growth factor

et al. 1989

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Approximately one half of the neurons in the lumbar dorsal root ganglion of adult rats display high-affinity receptors for nerve growth factor (NGF). To ascertain which types of sensory neurons are potentially responsive to NGF, adjacent cryostat sections of rat dorsal root ganglia were processed either for NGF-receptor using radioautography or by one of four histochemical procedures. Histograms of the densities of neuronal labelling by radioiodinated NGF were examined for subpopulations of lumbar sensory neurons with thiamine monophosphatase enzyme activity or with immunoreactivity for calcitonin gene-related peptide (CGRP), substance P, or somatostatin. Virtually all neurons with strong CGRP immunoreactivity had high-affinity NGF binding sites, although some neurons with faintly positive CGRP immunoreactivity lacked such NGF binding. A subpopulation of large neurons, approximately 5% of the total, had dense labelling by 125I-NGF but were not stained by this immunohistochemical technique for CGRP. Of the three major populations of small neurons those with substance P immunoreactivity were consistently and heavily labelled by radioiodinated NGF whereas those with somatostatin immunoreactivity or thiamine monophosphatase activity were not specifically labelled by radioautography. For these primary sensory neurons in mature rats the genes for substance P and CGRP seem to be strongly expressed only in neurons capable of responding to NGF. On the other hand, neurons containing somatostatin and thiamine monophosphatase invariably lack high-affinity NGF receptors.

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