The Hypothalamic-Pituitary-Adrenal Axis in Major Depressive Disorder

Varghese, Femina P.; Brown, E. Sherwood

doi:10.4088/pcc.v03n0401

Cited by 192 publications

(117 citation statements)

References 69 publications

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“…The resulting neuroinflammation increases oxidative stress, which changes neuronal membrane stability and affects catecholamine neurotransmission, a mechanism involved in traditional depressive pathophysiology 35. Similarly, peripheral SA levels increase brain inflammation through activation of toll‐like receptor 4 in the hypothalamus 36 and may be responsible for dysregulation of the hypothalamus‐pituitary‐adrenal axis, a frequent observation in depressed populations 37. Taken together, we postulate that the association of lignoceric acid, PA, and SA with inflammation may be relevant in the progression of depression in CAD.…”

Section: Discussionmentioning

confidence: 99%

Novel Phospholipid Signature of Depressive Symptoms in Patients With Coronary Artery Disease

Chan

Suridjan

Mohammad

et al. 2018

JAHA

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BackgroundDepression in patients with coronary artery disease (CAD) is associated with increased cardiovascular morbidity. Given the proinflammatory actions of phospholipids, aberrant phospholipid metabolism may be an etiological mechanism linking CAD and depression. Our primary objective was to identify a phospholipid biomarker panel that characterizes CAD patients with significant depressive symptoms from those without.Methods and ResultsWe performed a targeted lipidomic analysis on CAD patients with significant depressive symptoms (n=37, Center for Epidemiologic Studies Depression score ≥16) and those without (n=49). Phospholipid species were selected using partial least‐square discriminant analysis, and the ability of the resulting model to discriminate between groups was evaluated using receiver operator characteristic curves. Biosignature scores were calculated from this model, and analyses of covariance were performed to compare intergroup differences in biosignature scores, with adjustment for clinical differences between patients. Those with significant depressive symptoms had lower cardiopulmonary fitness, more prevalent history of depression, and a greater number of vascular risk factors. A model of 10 phospholipid species had an area under the curve value of 0.84 (95% confidence interval 0.72‐0.95), sensitivity of 0.73, and specificity of 0.71. This model passed permutation testing (n=1000, P<0.001). Biosignature scores were higher in those with significant depressive symptoms after adjustment for potential confounders (F[1.86]=14.39, P<0.0005).ConclusionsThe present findings support the role of proinflammatory phospholipid species in the presence of depression in CAD patients from the CAROTID trial (Coronary Artery Disease Randomized Omega‐3 Trial in Depression). Future investigations should aim to replicate findings in larger data sets and clarify possible pathophysiological mechanisms.Clinical Trial Registration URL: https://www.clinicaltrials.gov. Unique identifier: NCT00981383.

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Section: Discussionmentioning

confidence: 99%

Novel Phospholipid Signature of Depressive Symptoms in Patients With Coronary Artery Disease

Chan

Suridjan

Mohammad

et al. 2018

JAHA

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“…Furthermore, the effects of chronic boredom could be further examined with respect to depression. One of the most highly replicated findings in biological psychiatry is the association of prolonged hypersecretion of HPA axis hormones, including cortisol, and depression (Nemeroff & Evans, 1984;Sachar et al, 1985;Varghese & states.…”

Section: Discussionmentioning

confidence: 99%

“…Examining the psychophysiology of boredom in such a manner could also help clarify whether boredom is characterized by an increase or a decrease in physiological arousal. Research has indicated that resting heart rates are elevated in individuals with depression as are cortisol levels (Kamphuis et al, 2007;Nemeroff & Evans, 1984;Sachar et al, 1985;Taylor, 2010;Varghese & Brown, 2001;Whooley et al, 2008). It seems then that both boredom and symptoms of depression may be associated with increased physiological arousal.…”

Section: Boredom and Depressionmentioning

confidence: 99%

Characterizing the psychophysiological signature of boredom

2013

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“…Major depressive disorder (MDD) is one of the most common psychiatric illnesses with a lifetime prevalence of greater than 17% in the general population (Osterlund et al, 1998;Varghese and Brown, 2001). Several studies have consistently reported that MDD episodes are twice as common in women as compared to men (Angold and Worthman, 1993;Weissman et al, 1993;Kornstein, 1997;Llewellyn et al, 1997).…”

Section: Stress and Anxiety-related Behaviorsmentioning

confidence: 99%

Estrogen receptor beta in the brain: From form to function

Weiser

Foradori

Handa

2008

Brain Research Reviews

191

159

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Estrogens have numerous effects on the brain, both in adulthood and during development. These actions of estrogen are mediated by two distinct estrogen receptor (ER) systems, ER alpha (ERα) and ER beta (ERβ). In brain, ERα plays a critical role in regulating reproductive neuroendocrine function and behavior, however, a definitive role for ERβ in any neurobiological function has been slow in forthcoming. Clues to the function of ERβ in the central nervous system can be gleaned from the neuroanatomical distribution of ERβ and the phenotypes of neurons that express ERβ. ERβ immunoreactivity has been found in populations of GnRH, CRH, vasopressin, oxytocin and prolactin containing neurons in the hypothalamus. Utilizing subtype-selective estrogen receptor agonists can help determine the roles for ERβ in non-reproductive behaviors in rat models. ERβ selective agonists exert potent anxiolytic activity when animals were tested in a number of behavioral paradigms. Consistent with this, ERβ selective agonists also inhibited the ACTH and corticosterone response to stress. In contrast, ERα selective agonists were found to be anxiogenic and correspondingly increased the hormonal stress response. Taken together, our studies implicate ERβ as an important modulator of some non-reproductive neurobiological systems. The molecular and neuroanatomical targets of estrogen that are mediated by ERβ remain to be determined.A number of splice variants of ERβ mRNA have been reported in brain tissue. Imaging of eGFP labeled chimeric receptor proteins transfected into cell lines show that ERβ splice variation can alter trafficking patterns and function. The originally described ERβ (herein termed ER-β1) is characterized by possessing a high affinity for estradiol. Similar to ERα, it is localized in the nucleus and is trafficked to nuclear sites termed "hyperspeckles" following ligand binding. In contrast, ER-β2 contains an 18 amino acid insert within the ligand binding domain and as a result can be best described as a low affinity form of ERβ. A delta3 (δ3) variant of ERβ has a deletion of the 3rd exon (coding for the second half of the DNA binding domain) and as a result does not bind an estrogen response element in DNA. δ3 variants are trafficked to a unique low abundance and larger nuclear site following ligand binding. A delta4 (δ4) variant lacks exon 4 and as a result is localized to the cytoplasm. The amount of individual splice variant mRNAs varies depending upon brain region. Examination of neuropeptide promoter regulation by ERβ splice variants demonstrate that ERβ functions as a constitutively active transcription factor. Moreover, it appears that splice variation of ERβ alters its ability to regulate transcription in a promoter-dependent and ligand-dependent fashion.

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The Hypothalamic-Pituitary-Adrenal Axis in Major Depressive Disorder

Cited by 192 publications

References 69 publications

Novel Phospholipid Signature of Depressive Symptoms in Patients With Coronary Artery Disease

Novel Phospholipid Signature of Depressive Symptoms in Patients With Coronary Artery Disease

Characterizing the psychophysiological signature of boredom

Estrogen receptor beta in the brain: From form to function

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