The Munich vulnerability study on affective disorders: overview of the cross-sectional observations at index investigation

Background: An altered nocturnal sleep pattern and a dysfunction of the hypothalamic–pituitary–adrenocortical system are neurobiological abnormalities typical for depression. A persistence of these neurobiological alterations during remission has been shown to be associated with an increased risk for a relapse. However, it remains unclear whether these persisting abnormalities are trait markers indicative of an increased vulnerability for affective disorders or only represent biological scars acquired during past episodes. Thus, respective examinations need to be performed in the premorbid state in order to answer this open question. Methods: In the present article we have summarized the various results of the index investigation of a prospectively designed study in which we investigated 54 healthy first-degree relatives (high-risk probands; HRPs) of patients with an affective disorder using polysomnography, the combined dexamethasone corticotropine-releasing hormone (DEX-CRH) test and psychometric measurements. Results: In the cross-sectional part of this study the HRPs, as a group, exhibited a depression-like sleep EEG profile and DEX-CRH test result, while their psychometric profile was characterized by elevated scores on the measures Rigidity and Autonomic lability. On an individual level, 35% of the HRPs were identified as conspicuous in at least two of the three areas under investigation. Conclusions: The question of whether these abnormalities do indeed reflect trait markers indicative of an increased vulnerability for depression will be answered by the longitudinal part of the study that allows for the retrospective identification of the premorbid status of those HRPs who develop an affective disorder during the follow-up period.     

Combined dexamethasone/corticotropin releasing hormone test predicts treatment response in major depression - a potential biomarker?

BACKGROUND: Exaggerated corticotropin (ACTH) and cortisol response to the combined dexamethasone (DEX)/corticotropin releasing hormone (CRH) test, indicating impaired regulation of the hypothalamus-pituitary-adrenocortical (HPA) system, is frequently observed in depression. In the present study, we examined whether change in HPA system function during the first weeks of hospitalization predicts response to antidepressant treatment in major depression and thus constitutes a potential biomarker. METHODS: We conducted the DEX/CRH test in 50 inpatients suffering from severe major depression, once after study inclusion and a second time 2 to 3 weeks later while under continuous antidepressant treatment. RESULTS: We found increased ACTH and cortisol responses to the first DEX/CRH test compared with healthy control subjects. In the second DEX/CRH test 2 to 3 weeks later, 36 of the 50 patients showed an attenuated cortisol response, while 14 patients did not display improvement or exhibited even aggravation of the altered HPA system function. Improved HPA system regulation in the second DEX/CRH test was associated with beneficial treatment response after 5 weeks and a higher remission rate at the end of hospitalization. CONCLUSIONS: The results suggest that change in HPA system regulation assessed with repeated DEX/CRH tests is a potential biomarker that may predict clinical outcome at follow-up. There is consensus that the drug development process could be improved, once reliable biomarkers become available that help to allow a judgement regarding the efficacy of a novel drug candidate. The combined DEX/CRH test seems to be a promising candidate for such a biomarker.     

The Munich vulnerability study on affective disorders: premorbid polysomnographic profile of affected high-risk probands.

BACKGROUND: The most characteristic alterations in the sleep electroencephalogram (EEG) during major depression are a shortened latency to rapid eye movement (REM) sleep and an elevated REM density. Because these changes persist in remission, they might represent vulnerability markers. To identify vulnerability markers, we investigated premorbid sleep EEG parameters in healthy high-risk probands (HRPs) with a positive family history of affective disorders. METHODS: We identified 136 depressed inpatients from referrals to our hospital who had first-degree relatives with an affective disorder as well as first-degree relatives with no current or lifetime history of psychiatric disorders. The latter (the HRP group) were investigated by polysomnography. During the follow-up period, 20 HRPs developed an affective disorder. Their premorbid sleep data were analyzed. RESULTS: Premorbid sleep EEG of affected HRPs showed an increased REM density (total night and first REM period) compared with the control group without personal or family history of a psychiatric disorder. CONCLUSIONS: Increased REM density can be observed not only in patients with depression, but also in their healthy relatives. Moreover, it is predictive for the onset of a psychiatric disorder. Therefore, it can be recommended as a possible endophenotype of these diseases.     

The Munich vulnerability study on affective disorders: premorbid psychometric profile of affected individuals

OBJECTIVE: We conducted a longitudinal high-risk study to identify psychometric vulnerability markers for affective disorders. METHOD: We examined 82 healthy subjects [high-risk probands (HRPs)] with at least one first-degree relative suffering from an affective disorder. The premorbid psychometric profile of 20 HRPs who developed a psychiatric disorder during follow-up was compared with the profile of control subjects without personal and family history of psychiatric disorders matched for age and gender. RESULTS: Somatization, complaints (vegetative lability), and perception of strain are increased in HRPs who developed a psychiatric disorder. These alterations were not influenced by the time interval until the onset of the disorder. CONCLUSION: The premorbid psychometric profile in subjects at high risk for affective disorders is characterized by somatization, complaints, and elevated perception of strain. Together with previous findings our results suggest that these alterations can be regarded as potential vulnerability markers for affective disorders.     

The Munich vulnerability study on affective disorders: microstructure of sleep in high-risk subjects

Vulnerability markers for affective disorders have focused on stress hormone regulation and sleep. Among rapid eye movement (REM) sleep, increased REM pressure and elevated REM density are promising candidates for vulnerability markers. Regarding nonREM sleep, a deficit in amount of and latency until slow wave sleep during the first half of the night is a characteristic for depression. To further elucidate whether changes in the microstructure of sleep may serve as vulnerability markers we investigated the premorbid sleep composition in 21 healthy high-risk proband (HRPs) with a positive family history for affective disorders and compared HRPs with a control group of healthy subjects (HCs) without personal and family history for psychiatric disorders. The sleep electroencephalogram (EEG) was conventionally scored and submitted to a quantitative EEG analysis. The main difference in sleep characteristics between HRPs and HCs was an abnormally increased REM density. Differences in the spectral composition of sleep EEG were restricted to an increased power in the sigma frequency range. Since the HRP group comprised six unrelated and 15 related subjects we controlled for sibling effects. We could replicate the increased REM density in the group of HRPs whereas elevated power in the low sigma frequencies persisted only with approaching significance. The present study further supports elevated REM density as putative vulnerability marker for affective disorders. However, sleep EEG in our group of HRPs did not show slow wave sleep abnormalities. Ongoing follow up investigations of HRPs will clarify whether the observed increase in sigma EEG activity during nonREM sleep is of clinical relevance with respect to the likelihood to develop an affective disorder.     

Longitudinal neuroendocrine changes assessed by dexamethasone/CRH and growth hormone releasing hormone tests in psychotic depression

Although psychotic depression has been reported to exhibit a greater degree of dysregulation of hypothalamic-pituitary-adrenocortical (HPA) function than non-psychotic depression, little is known concerning hypothalamic-pituitary-somatotropic (HPS) function in psychotic depression and how neuroendocrine function changes after treatment. To investigate the longitudinal changes in HPA and HPS system function in psychotic depression, we performed repeated dexamethasone/corticotropin releasing hormone (DEX/CRH) tests and growth hormone (GH) releasing hormone (GHRH) tests in inpatients with major depressive disorder. The psychotic depression group exhibited greater elevation of ACTH responses to the DEX/CRH test and stronger decreases in GH responses to the GHRH test than the non-psychotic depression group at admission. At discharge, the neuroendocrine responses to the DEX/CRH test of the psychotic depression group were still stronger than those of the non-psychotic depression group, though there were no significant differences in severity of depression between the groups. There were significant longitudinal changes in neuroendocrine responses to the DEX/CRH test between admission and discharge. The psychotic depression group exhibited increased GH responses to GHRH at discharge compared with those at admission, whereas no significant longitudinal change in GH response was found in the non-psychotic depression group. Consequently, there were no significant differences in GH responses to GHRH between the psychotic and non-psychotic depression groups at discharge. The results of GHRH test showed no significant relationships with severity of depression except psychotic features and the results of the DEX/CRH test. Our findings suggest that the HPS axis may be associated with psychotic features rather than general severity of depression. Further longitudinal studies are needed to clarify the role of HPS function in psychotic depression and whether sustained dysregulation of HPA function in psychotic depression is associated with a poor outcome after discharge.     

Sleep deprivation and hypothalamic-pituitary-adrenal (HPA) axis activity in depressed patients

In the present study we investigated HPA axis activity in depressed patients treated with partial sleep deprivation (PSD) in order to identify endocrinological characteristics related to PSD responsiveness. Thirty-three drug-free patients (14 men, 19 women) suffering from major depression according to DSM-IV criteria were treated with PSD. Response to PSD was defined as a reduction of at least 30% according to the 6-item version of the Hamilton Depression Scale (6-HAMD). Subsequently, the combined dexamethasone-suppression/CRH-stimulation test (DEX/CRH test) was performed. Patients were pretreated with 1.5 mg dexamethasone (DEX) at 23:00 h and challenged with 100 microg corticotropin-releasing hormone (CRH) the following day. Postdexamethasone cortisol concentrations (before CRH administration) served as parameters for the DST status (dexamethasone suppression test). The cortisol stimulation after CRH was used as measurement for the DEX/CRH test status. Of the depressive patients, 54.5% (18 out of 33) responded to PSD. DST suppressors (postdexamethasone cortisol levels < 15 ng/ml) showed a significantly greater reduction in 6-HAMD scores after PSD than DST nonsuppressors. Furthermore, a significant negative correlation between postdexamethasone cortisol levels and reduction in 6-HAMD scores after PSD could be established. However, there was no relationship between the cortisol stimulation following CRH challenge and response to PSD. Although the combined DEX/CRH challenge test is a more sensitive marker for HPA axis dysregulation in depression than the standard DST, the negative feedback of the HPA system reflected by the DST status is apparently more closely associated with response to partial sleep deprivation in major depressive disorder.     

Neuropeptides and the hypothalamic-pituitary-adrenocortical (HPA) system: review of recent research strategies in depression.

Depressed patients show a variety of alterations in hypothalamic-pituitary-adrenocortical (HPA) system regulation which is reflected by increased pituitary-adrenocortical hormone secretion at baseline and a number of aberrant neuroendocrine function tests. The latter include the combined dexamethasone (DEX) suppression/corticotropin-releasing hormone (CRH) challenge test, in which CRH was able to override DEX induced suppression of ACTH and cortisol secretion. Whereas the abnormal HPA activation in these patients improved in parallel with clinical remission, persistent HPA dysregulation was associated with an increased risk of relapse. Moreover, healthy subjects at high genetic risk for depression also showed this phenomenon as a trait marker. In consequence, it has been concluded that HPA alteration and development as well as course of depression may be causally related. As evidenced from clinical and preclinical studies, underlying mechanisms of these abnormalities involve impairment of central corticosteroid receptor function which leads to enhanced activity of hypothalamic neurons synthesising and releasing vasopressin and CRH. These neuropeptides mediate not only neuroendocrine but also behavioural effects. Recent research provided evidence that CRH can induce depression-like symptoms in animals and that these signs are mediated through the CRH1 receptor subtype. Hence, therapeutical application of new compounds acting more specifically on the HPA system such as CRH1 receptor antagonists appear to be a promising approach for future treatment options of depression. In conclusion, research in neuroendocrinology provided new insights into the underlying pathophysiology of depression and, in consequence, may lead to the development of new therapeutic tools.     

The combined DEX-CRH test in treatment course and long-term outcome of major depression

Neuroendocrine studies strongly suggest that the hypothalamic-pituitary-adrenocortical (HPA) system plays a crucial role in the development and course of depression. The interaction between the disease process and HPA system function in long-term course, however, is unclear. Since improvement of HPA system deterioration has been demonstrated to be associated with treatment response, the question has arisen whether the course of therapy response as reflected by, for example, early improvement or response (after 1 or 2 weeks of therapy) is also based on HPA system dysfunction and whether the course of HPA regulation during treatment is only a state marker or has additional predictive implications for long-term outcome. In order to elucidate these questions a long-term study was carried out to investigate whether HPA system disturbance is associated (1) with the course of treatment response, predominantly early treatment response, during acute depression and (2) with the long-term course of depression, i.e. number of episodes. Twenty patients with affective disorders who participated in earlier controlled antidepressant treatment studies over 6 weeks were enrolled in an exploratory follow-up study. Using the combined DEX/CRH test it was demonstrated that (1) early improvement, early treatment response and beneficial treatment outcome after 6 weeks were associated with a lower HPA system activity and that (2) in long-term course of depression the HPA system deterioration increases in parallel with the number of previous episodes. These findings suggest that HPA system alterations are closely related to treatment response and long-term outcome of depression.     

Attenuation of HPA Axis Hyperactivity and Simultaneous Clinical Deterioration in a Depressed Patient treated with Mirtazapine

It has been suggested that hypothalamic-pituitaryadrenal (HPA) system dysregulation plays an important role in the pathophysiology of depression and that normalization of HPA axis hyperactivity precedes successful treatment with antidepressants. We report the case of a 61-year-old patient suffering from a major depressive episode who underwent the combined dexamethasone suppression/CRH stimulation test (DEX/CRH test) before and again after one week of mirtazapine treatment. While the patient showed a marked decrease of cortisol and ACTH secretion during the DEX/CRH test within one week, a pronounced and ongoing deterioration of depressive symptoms with suicidal thoughts occurred that was resistant to antidepressant medication and had to be treated with electroconvulsive therapy. Apparently, mirtazapine rapidly attenuates HPA axis hyperactivity in depressed patients via direct pharmacoendocrinological effects. However, this amelioration of HPA system dysregulation is not necessarily accompanied by clinical improvement.     

Attenuation of HPA axis hyperactivity and simultaneous clinical deterioration in a depressed patient treated with mirtazapine.

It has been suggested that hypothalamic-pituitary-adrenal (HPA) system dysregulation plays an important role in the pathophysiology of depression and that normalization of HPA axis hyperactivity precedes successful treatment with antidepressants. We report the case of a 61-year-old patient suffering from a major depressive episode who underwent the combined dexamethasone suppression/CRH stimulation test (DEX/CRH test) before and again after one week of mirtazapine treatment. While the patient showed a marked decrease of cortisol and ACTH secretion during the DEX/CRH test within one week, a pronounced and ongoing deterioration of depressive symptoms with suicidal thoughts occurred that was resistant to antidepressant medication and had to be treated with electroconvulsive therapy. Apparently, mirtazapine rapidly attenuates HPA axis hyperactivity in depressed patients via direct pharmacoendocrinological effects. However, this amelioration of HPA system dysregulation is not necessarily accompanied by clinical improvement.     

Plasma corticosterone, dexamethasone (DEX) suppression and DEX/CRH tests in a rat model of genetic vulnerability to depression

The hypothalamo-pituitary-adrenal (HPA) axis is hyperactive in major depressive disorder (MDD), and baseline cortisol levels are usually elevated in MDD patients, with alterations of the circadian hormone secretion pattern. The dexamethasone (DEX) suppression test (DST) has been extensively applied to diagnose a dysregulation of the HPA axis in MDD, but it has only a limited sensitivity to, and specificity for, depression. The DEX/CRH test, which combines the DST with a corticotropin-releasing hormone (CRH) challenge, has proved more reliable to show HPA axis dysfunction in MDD. We have applied these two tests to a putative model of vulnerability to depression in rodents, the Roman high-(RHA) and low-(RLA) Avoidance rat lines. As compared to RHA, RLA rats are behaviorally inhibited, they show an exaggerated response of the HPA axis to stress, and are more prone to develop depressive-like features when exposed to chronic stress. Our results show that (a) there were no significant differences in circadian plasma corticosterone (CORT) levels and/or secretion patterns between the two lines; (b) in the DST test, CORT was suppressed to the same extent in RHA and RLA rats; and c) in the DEX/CRH test, areas-under-the-curve (AUCs) and CORT delta (peak minus baseline) responses were significantly larger in RLA rats. One possible interpretation of these data is that an increased response to CRH could be a trait marker (or endophenotype) for depression, whereas alterations of circadian glucocorticoid secretion patterns and non-suppression of the daily glucocorticoid rise by dexamethasone could be state markers, i.e. features that are only present during depressive episodes.     

Neuropeptides and the Hypothalamic-Pituitary-Adrenocortical (HPA) System: Review of Recent Research Strategies in Depression

Summary: Depressed patients show a variety of alterations in hypothalamic-pituitary-adrenocortical (HPA) system regulation which is reflected by increased pituitary-adrenocortical hormone secretion at baseline and a number of aberrant neuroendocrine function tests. The latter include the combined deamethasone (DEX) suppression/corticotropin-releasing hormone (CRH) challenge test, in which CRH was able to override DEX induced suppression of ACTH and cortisol secretion. Whereas the abnormal HPA activation in these patients improved in parallel with clinical remission, persistent HPA dysregulation was associated with an increased risk of relapse. Moreover, healthy subjects at high genetic risk for depression also showed this phenomenon as a trait marker. In consequence, it has been concluded that HPA alteration and development as well as course of depression may be causally related. As evidenced from clinical and preclinical studies, underlying mechanisms of these abnormalities involve impairment of central corticosteroid receptor function which leads to enhanced activity of hypothalamic neurons synthesising and releasing vasopressin and CRH. These neuropeptides mediate not only neuroendocrine but also behavioural effects. Recent research provided evidence that CRH can induce depression-like symptoms in animals and that these signs are mediated through the CRH1 receptor subtype. Hence, therapeutical application of new compounds acting more specifically on the HPA system such as CRH1 receptor antagonists appear to be a promising approach for future treatment options of depression. In conclusion, research in neuro-endocrinology provided new insights into the underlying pathophysiology of depression and, in consequence, may lead to the development of new therapeutic tools.

This paper was given on the occasion of the Young Investigator Award 1998, presented to Dr Hatzinger by the Swiss Society of Biological Psychiatry (SSBP)     

Improvement of working but not declarative memory is correlated with HPA normalization during antidepressant treatment

Previous research demonstrated that depression is associated with hyperactivity of the hypothalamus-pituitary-adrenocortical (HPA) system after stimulation. There is also strong evidence that the modulation of corticosteroids in the brain induces memory dysfunction which represents core features of depression. Antidepressant treatment with serotonin reuptake inhibitors (SSRIs) alleviates both dysfunctions. Thus, these previous observations propose a correlation between treatment induced changes of the endocrinological response of the HPA system to challenge with dexamethasone and CRH and changes of memory functions during antidepressant treatment. This study explores the relationship between depression, memory functions and the responsiveness of the HPA system as assessed by the combined DEX/CRH test during antidepressant treatment in n = 64 patients with major depression during a four weeks treatment with citalopram. We found that treatment induced changes of the cortisol response pattern in the DEX/CRH test were correlated with improvement of working memory but not so with episodic memory, sustained attention or global severity of depression. We suggest that improvement of working memory is more sensitive to the changes of hormones of the HPA system (e.g. cortisol) than other cognitive functions and the global severity of depression.     

Dex/CRH-test response and sleep in depressed patients and healthy controls with and without vulnerability for affective disorders

Sleep electroencephalographic (EEG) abnormalities and increased hypothalamo-pituitary-adrenal (HPA) axis activity are the most prominent neurobiological findings in depression and were suggested as potential biomarker for depression. In particular, increased rapid eye movement sleep (REM) density, deficit in slow wave sleep and excessive stress hormone response are associated with an unfavorable long-term outcome of depression. Recent studies indicate that the sleep and endocrine parameters are related to each other. This study investigated the association of sleep structure including a quantitative EEG analysis with the results of the combined dexamethasone (Dex)/corticotropin-releasing hormone (CRH)-test in 14 patients with a severe major depression, 21 healthy probands with a positive family history of depression (HRPs) and 12 healthy control subjects without personal and family history for psychiatric disorders. As expected patients with depression showed an overactivity of the HPA axis, disturbed sleep continuity and prolonged latency until slow wave sleep in the first sleep cycle. Differences in microarchitecture of sleep were less prominent and restricted to a higher NonREM sigma power in the HRP group. Dexamethasone suppressed cortisol levels were positively associated with higher NonREM sigma power after merging the three groups. We also observed an inverse association between the ACTH response to the Dex/CRH-test and rapid eye movement sleep (REM) density in HRPs, with suggestive evidence also in patients, but not in controls. This contra-intuitive finding might be a result of the subject selection (unaffected HRPs, severely depressed patients) and the complementarity of the two markers. HRPs and patients with high disease vulnerability, indicated by an elevated REM density, seem to have a lower threshold until an actual disease process affecting the HPA axis translates into depression, and vice versa. To summarize, our findings provide further evidence that the HPA axis is involved in the sleep regulation in depression. These associations, however, are not unidimensional, but dependent on the kind of sleep parameters as well as on the selection of the subjects.     

Relationships of DEX/CRH and GHRH test results to the outcome of depression--preliminary results suggest the GHRH test may predict relapse after discharge

To explore and compare hypothalamic-pituitary-somatotropic (HPS) axis function and hypothalamic-pituitary-adrenocortical (HPA) axis function in depression, the dexamethasone (DEX)/CRH test and growth hormone releasing hormone (GHRH) test were prospectively performed on patients with depression at the time of admission and discharge. The patients who relapsed within six months after discharge exhibited significantly lower growth hormone (GH) responses to GHRH at the time of discharge than those who did not relapse. There were no significant correlations between GH response to GHRH and the results of DEX/CRH tests after controlling for age, sex, and body mass index. The findings of this study suggest that results of the GHRH test may be a predictor of future relapse in patients with depression.     

Combined DEX/CRH test among Japanese patients with major depression

There is compelling evidence for an important role of the hypothalamus-pituitary-adrenal (HPA) axis abnormalities in the pathophysiology of major depressive disorder. Growing evidence has suggested that the combined dexamethasone (DEX)/CRH test is much more sensitive than the conventional DEX suppression test in order to detect HPA axis abnormalities. However, little data is currently available on DEX/CRH results for Asian populations, which prompted us to examine the sensitivity of the DEX/CRH test among Japanese subjects with major depression. The DEX/CRH test was administered in 20 inpatients with major depressive episode and 30 healthy controls. Significantly increased cortisol responses were observed for the patients, compared to the controls. There was a substantial difference in the distribution of non-suppressor, intermediate suppressor, and suppressor, which were defined in terms of cortisol response, was observed between the patients and controls (10, 60, and 30% in the patients vs. 0, 27, and 73% in the controls, P<0.01). Responses of ACTH showed a trend in the same direction. Within the depressed patients, individuals with a history of attempted suicide, in particular, tended to have enhanced responses to the DEX/CRH test, compared to those without such a history. Our results confirmed that the DEX/CRH test is a sensitive test to detect HPA axis abnormalities among Japanese patients with major depression. In addition, a possible relationship between suicidal acts and enhanced HPA axis abnormalities was suggested.     

Hypothalamo-pituitary-adrenal function in patients with depressive disorders is correlated with baseline cytokine levels, but not with cytokine responses to hydrocortisone

Dysfunction of the hyopthalamo-pituitary adrenal (HPA) system is frequently found in major depression. In addition, signs of non-specific inflammatory system activation have been reported. However, very little is known about interactions between the HPA and immune systems in depressive patients. To assess HPA system function, we performed a combined dexamethasone suppression and corticotropin-releasing hormone stimulation (DEX/CRH) test in 14 depressive patients. Moreover, baseline nocturnal plasma levels of the inflammatory cytokines interleukin-6 (IL-6) and tumor necrosis factor (TNF)- were measured. In addition, the system was challenged with an intraveneous pulsatile injection of hydrocortisone (1 mg/kg body weight in total) and again cytokine levels were measured across one night. Baseline TNF- levels were negatively correlated with the amount of ACTH released upon CRH stimulation during the DEX/CRH test. Acute hydrocortisone administration suppressed TNF- and IL-6 levels independently of baseline HPA system activity. We conclude that chronic HPA system overactivity in depressed patients might compromise the production of inflammatory cytokines under baseline conditions. However, the responsivity of the cytokine production to acutely administered glucocorticoids does not seem to correlate with the state of the HPA system.     

Cortisol response in the combined dexamethasone/CRH test as predictor of relapse in patients with remitted depression. a prospective study

The development and course of depression is causally linked to impairment of central regulation of the hypothalamic-pituitary-adrenocortical (HPA) system. Previous research documented that the combined dexamethasone/corticotropin-releasing hormone (DEX/CRH) test identifies HPA dysfunction with high sensitivity. We evaluated the predictive validity for medium-term outcome of the cortisol response in the combined DEX/CRH test in 74 remitted patients previously suffering from major depressive disorder. Of the 74 patients, 61 remained in stable remission and 13 relapsed during the first 6 months after discharge from the hospital. Although the cortisol and ACTH responses in the DEX/CRH test did not differ between the two groups of patients on admission, the responses differed significantly just before discharge (P< 0.05). We defined two dichotomous variables as prediction rules indicating (1) the change between admission and discharge in the cortisol response to the DEX/CRH test, and (2) the effect of the CRH infusion on cortisol as compared to the baseline level in the DEX/CRH test prior to discharge only. An elevated cortisol response in the DEX/CRH test was correlated with a four- to six-fold higher risk for relapse than in individuals with a normal cortisol response. The two proposed rules for predicting relapse within the first 6 months after discharge could be optimized by including age and gender. Hence, an exaggerated cortisol response in the combined DEX/CRH test predicts the recurrence of depressive psychopathology. The test performance can be further optimized if gender and age are taken into account.     

Brain-derived neurotrophic factor Val66Met polymorphism and dexamethasone/CRH test results in depressed patients

Data suggest that both neurotrophic and hypothalamic-pituitary-adrenocortical (HPA) systems are involved in the pathophysiology of depression. The aim of the present study was to investigate whether the non-conservative brain-derived neurotrophic factor (BDNF) Val66Met polymorphism has an impact on HPA axis activity in depressed patients. At admission, the dexamethasone/CRH (DEX/CRH) test was performed in 187 drug-free in-patients suffering from major depression or depressed state of bipolar disorder (DSM-IV criteria). Moreover, genotyping of BDNF Val66Met polymorphism was carried out using the fluorescence resonance energy transfer method (FRET). Homozygous carriers of the Met/Met genotype showed a significantly higher HPA axis activity during the DEX/CRH test than patients carrying the Val/Val or Val/Met genotype (ACTH, cortisol). Our results further contribute to the hypothesized association between HPA axis dysregulation and reduced neuroplasticity in depression and are consistent with the assumption that BDNF is a stress-responsive intercellular messenger modifying HPA axis activity.