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Authors' reply

Published online by Cambridge University Press:  02 January 2018

I. Reid
Affiliation:
Department of Psychiatry, University of Dundee, Ninewells Hospital, Dundee DD1 9SY, UK
C. Stewart
Affiliation:
Department of Psychiatry, University of Dundee, Ninewells Hospital, Dundee DD1 9SY, UK
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Abstract

Type
Columns
Copyright
Copyright © 2001 The Royal College of Psychiatrists 

It was kind of Drs S. H. & R. Zaman to take an interest in our paper. In their thoughtful response they draw attention to the time course of LTP induction (seconds to minutes), and point out that this does not correlate with the time required for the effects (presumably, clinical response) of antidepressant treatments. The key issue is not the speed with which LTP induction itself occurs, which is unchanged by stress or antidepressant treatments (Stewart & Reid, 1993). It is rather the time course of changes induced in the regulation of LTP by antidepressant treatments (the so-called ‘metaplasticity’ referred to in our paper) that is important. This develops gradually, requiring at least six spaced ECT treatments for maximum effect (Stewart et al, 1994) or 14 days of fluoxetine treatment (Stewart & Reid, 2000). Interestingly, the effects of ECT on the degree to which LTP can be induced are detectable even 40 days after the end of a course (Stewart & Reid, 2000). These periods each correlate very nicely with antidepressant response, with the last described also mirroring the time course of relapse after successful ECT treatment in humans without antidepressant prophylaxis. Changes in excitatory post-synaptic potentials are seen, however, immediately after a single electroconvulsive application in experimental studies (Stewart et al, 1994), but they are smaller and more transient than those seen after a series of applications. This also accords with clinical observation: severely ill patients receiving ECT often show clear but transient responses after the first treatment in a course.

Of course, these are electrophysiological observations, and they may be mediated by ultrastructural neuronal changes. In this sense, we agree with the subtle point being made by Zaman & Zaman. Our aims are to draw together rather than disaggregate structural and functional phenomena. That is why we used the term connectivity in the review to refer to both functional and ultrastructural (e.g. dendritic) changes underlying the plasticity of neuronal connections, which we wished to distinguish from more gross effects such as cell death or proliferation. The fact that “molecular signalling pathways” to “dendritic structural changes” and to LTP overlap is precisely why we classed them together as candidate contributors to the neurobiology of depressive disorder. They may be dissociable, as Zaman & Zaman point out, but this is not in itself evidence for or against the role of the regulation of LTP in affective disorder.

In any event the functional (electrophysiological plasticity) and structural changes (microanatomical plasticity) described in our review are each associated in reciprocal fashion with stress and antidepressant treatments, respectively — neither structural nor functional changes have been shown to have a causal role in depressive disorder. It does not allow that either phenomenon is a prerequisite for depressive states.

Footnotes

EDITED BY MATTHEW HOTOPF

References

Stewart, C. & Reid, I. (1993) Electroconvulsive stimulation and synaptic plasticity in the rat. Brain Research, 620, 139141.10.1016/0006-8993(93)90280-ZGoogle Scholar
Stewart, C. & Reid, I. (2000) Repeated ECS and fluoxetine administration have equivalent effects on hippocampal synaptic plasticity. Psychopharmacology, 148, 217223.10.1007/s002130050045Google Scholar
Stewart, C., Jeffrey, K. & Reid, I. C. (1994) LTP-like synaptic efficacy changes following electroconvulsive stimulation. Neuroreport, 5, 10411044.10.1097/00001756-199405000-00006Google Scholar
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