Affective disorders, antidepressant drugs and brain metabolism

Moretti, Antonio; Gorini, A.; Villa, R. F.

doi:10.1038/sj.mp.4001353

Cited by 101 publications

(71 citation statements)

References 143 publications

(119 reference statements)

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“…Both ROS levels and total antioxidant reactivity improved towards non-diabetic values on administration of a drug that produces an antidepressant effect in these animals (clonazepam) [63,64]. These findings are consistent with previous reports suggesting that the mitochondrial electron transport chain may be an overlooked target of antidepressant action [65]. Thus, the evidence to date suggests that oxidative stress may be a key element in the pathophysiology of comorbid type 1 diabetes and MDD, and this requires further investigation.…”

Section: Immuno-inflammatory Factorssupporting

confidence: 81%

Type 1 diabetes mellitus and major depressive disorder: evidence for a biological link

et al. 2011

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Aims/hypothesis A growing body of research suggests that the prevalence of major depressive disorder (MDD) in children and youth with type 1 diabetes mellitus is significantly higher than that of youth without type 1 diabetes and is associated with increased illness severity. The objective of this article is to review the current literature on the pathophysiology of these two common diseases with respect to potential areas of overlapping biological dysfunction. Methods A search of English language articles published between 1966 and 2010 was conducted and augmented with manual review of reference lists from the identified publications. Results The evidence suggests plausible mechanisms whereby a biological relationship between type 1 diabetes and MDD may exist. These include the effects of circulating cytokines associated with autoimmune diabetes, the direct impact of insulin deficiency on neurogenesis/neurotransmitter metabolism, the effects of the chronic hyperglycaemic state, occurrence of iatrogenic hypoglycaemia and the impact of basal hyperactivity of the hypothalamic-pituitary-adrenal axis. Major depressive disorder (MDD) is highly prevalent among children and adolescents with type 1 diabetes mellitus. The prevalence of MDD among youth with type 1 diabetes (20-27%) is at least two to three times greater than the 5-8% background rate of MDD reported for non-diabetic youth [1, 2]. Early-onset MDD is severe, and in combination with diabetes (the third most common chronic disease in childhood), is associated with poorer diabetes control, increased Conclusions/interpretation

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Section: Immuno-inflammatory Factorssupporting

confidence: 81%

Type 1 diabetes mellitus and major depressive disorder: evidence for a biological link

et al. 2011

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“…Apart from an imbalance of the neurotransmitter homeostasis, aberrant metabolic as well as immune-related functions are thought to contribute to the pathogenesis of affective disorders. A hypothetical deficit of energy as indicated by reduced levels of ATP and creatine phosphate in the brain of many patients (Moretti et al, 2003) as well as an over-reactive immune system as mirrored by increases in cytokine levels are features that occur during disease manifestation (Penninx et al, 2003;Thomas et al, 2005). Here, drug-induced autophagy might serve several functions: first, energy metabolism might be partly reconstituted Figure 11 A model of the autophagy-and cholesterol-related effects of AMI on astrocytes.…”

Section: Discussionmentioning

confidence: 99%

Antidepressant Drugs Diversely Affect Autophagy Pathways in Astrocytes and Neurons—Dissociation from Cholesterol Homeostasis

Zschocke

Zimmermann

Berning

et al. 2011

Neuropsychopharmacol

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In the search for antidepressants' (ADs') mechanisms of action beyond their influence on monoaminergic neurotransmission, we analyzed the effects of three structurally and pharmacologically different ADs on autophagic processes in rat primary astrocytes and neurons. Autophagy has a significant role in controlling protein turnover and energy supply. Both, the tricyclic AD amitriptyline (AMI) and the selective serotonin re-uptake inhibitor citalopram (CIT) induced autophagy as mirrored by pronounced upregulation and cellular redistribution of the marker LC3B-II. Redistribution was characterized by formation of LC3B-II-positive structures indicative of autophagosomes, which associated with AVs in a time-dependent manner. Deletion of Atg5, representing a central mediator of autophagy in MEFs, led to abrogation of AMI-induced LC3B-I/II conversion. By contrast, VEN, a selective serotonin and noradrenaline reuptake inhibitor, did not promote autophagic processes in either cell type. The stimulatory impact of AMI on autophagy partly involved class-III PI3 kinase-dependent pathways as 3-methyladenine slightly diminished the effects of AMI. Autophagic flux as defined by autophagosome turnover was vastly undisturbed, and degradation of long-lived proteins was augmented upon AMI treatment. Enhanced autophagy was dissociated from drug-induced alterations in cholesterol homeostasis. Subsequent to AMI-and CIT-mediated autophagy induction, neuronal and glial viability decreased, with neurons showing signs of apoptosis. In conclusion, we report that distinct ADs promote autophagy in neural cells, with important implications on energy homeostasis.

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“…Several studies have shown that SJW and hyperforin can upregulate gene expressions related to increasing glycolysis and cellular glucose uptake in the hippocampus and other tissue (Krusekopf and Roots, 2005;Pennington et al, 2009). A recent 31 P-MRS study suggests that agents with the ability to increase brain ATP levels may show antidepressant effect (Moretti et al, 2003). A variety of antidepressants including imipramine, amitriptyline and clomipramine increase the ATP generation of astrocytes in vitro and this may affect the differentiation of astrocytes (Trzeciak et al, 1995).…”

Section: Dysfunction-related Oligodendrocyte Malfunction In Mddmentioning

confidence: 99%

Hyperforin promotes mitochondrial function and development of oligodendrocytes

Wang

Zhang

et al. 2011

Journal of Neurochemistry

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Major depressive disorder is a common severe psychiatric disorder with unknown etiology. Recent studies show that the loss and malfunction of oligodendrocytes are closely related to the neuropathological changes in depression, which can be reversed by antidepressant treatment. St. John's wort is an effective and safe herbal treatment for depression in several clinical trials. However, the underlying mechanism of its therapeutic effects is unclear. In this study, we evaluated the effects of hyperforin, a iii ACKNOWLEDGEMENTS

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Affective disorders, antidepressant drugs and brain metabolism

Cited by 101 publications

References 143 publications

Type 1 diabetes mellitus and major depressive disorder: evidence for a biological link

Type 1 diabetes mellitus and major depressive disorder: evidence for a biological link

Antidepressant Drugs Diversely Affect Autophagy Pathways in Astrocytes and Neurons—Dissociation from Cholesterol Homeostasis

Hyperforin promotes mitochondrial function and development of oligodendrocytes

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