ReviewThe pathogenesis of clinical depression: Stressor- and cytokine-induced alterations of neuroplasticity
Section snippets
Neurochemical underpinning of depressive illness
Depressive illness has long been associated with disturbances of brain 5-HT, norepinephrine (NE) and dopamine activity, variations of 5-HT1A and 5-HT2 receptors, as well as α1-NE or β-NE receptors (Maes and Meltzer 1995, Schatzberg and Schildkraut 1995). The data concerning 5-HT variations in depression have probably been the most widely studied. Evidence in favor of the perspective that 5-HT is involved in depression comes not only from studies showing that pharmacological manipulation of 5-HT
Neurotrophic factors in depression
Analysis of the underpinnings of depression has increasingly focused on deficiencies of neuroplasticity and impaired production of trophic factors (Manji et al., 2001). The target of experimental agents has included treatments that promote cell survival such as the growth factor, BDNF, and the anti-apoptotic protein, bcl-2 (Duman 2004, Hashimoto et al 2004, Manji and Duman 2001). These have received particular attention as stressors and depression have been implicated in alterations of neuronal
Neuroplasticity and depression
The belief that depression is strictly a disorder of neurochemical imbalances has undergone reconsideration with the realization that some degree of impaired neuronal survival or structural abnormalities may be evident in this disorder (Harrison 2002, Manji et al 2001). Essentially, the “depressed brain” may be unable to produce appropriate adaptive neuronal responses (e.g. such as changes of synaptic connections or dendritic branching required to deal with stressors or other environmental
Neurotrophins and cytokines
Cytokines, such as IL-1, IL-2, IL-6 and TNF-α, serve as growth factors in peripheral immune cells. These signaling molecules and their receptors have also been identified within the brain, increase in response to traumatic brain injury and neurological disturbances (Roth et al 2004, Rothwell 1999; Vezzani et al., 2000; Wang and Shuaib, 2002), and may contribute to depressive states (Maes, 1999). Depending on a number of factors (e.g. cytokine concentrations, timing of application, endogenous vs
Stress–cytokine–depression connection
As indicated earlier, through their effects on neuroendocrine and neurotransmitter functioning, stressors may be fundamental in the provocation of affective disorders. Thus, in relating depression to cytokines or to growth factors, it would seem propitious to consider whether stressors affect these physiological messengers, and whether cytokines are capable of eliciting depressive-like states. Indeed, systemic cytokine challenges may induce many of the neurochemical alterations ordinarily
Animal models: sickness and depression
Administration of cytokines, such as IL-1β, or activation of macrophages and other inflammatory immune cells by systemic LPS treatment, provokes behavioral symptoms (reduced locomotion, increased sleep, curled body posture, ptosis, piloerection) collectively referred to as sickness behavior (Maier and Watkins 1998, Dantzer 2001). Although these behaviors are thought to be of adaptive significance, as they may serve to minimize energy expenditure, they are also reminiscent of the neurovegetative
Concluding remarks
As depicted in Fig. 1, multiple factors may contribute to depression by impairing neuronal plasticity and disturbing neurochemical functioning in key mood regulatory brain regions. In this review we suggested that cytokines play an integral role in provoking these two outcomes through their pleiotropic effects upon several physiological systems, including (1) HPA axis activity and CRH activity at limbic sites, (2) monoamine utilization, (3) microglial release of oxidative species, (4) apoptotic
Acknowledgments
Supported by funds from the Natural Science and Engineering Research Council of Canada (NSERC) and by the Canadian Institutes of Health Research (CIHR). S.H. and H.A. are CIHR Canada Research Chairs.
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