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Erschienen in: BMC Medicine 1/2014

Open Access 01.12.2014 | Research article

Interaction between stress and the BDNFVal66Met polymorphism in depression: a systematic review and meta-analysis

verfasst von: Georgina M Hosang, Celia Shiles, Katherine E Tansey, Peter McGuffin, Rudolf Uher

Erschienen in: BMC Medicine | Ausgabe 1/2014

Abstract

Background

Major depression is a disabling psychiatric illness with complex origins. Life stress (childhood adversity and recent stressful events) is a robust risk factor for depression. The relationship between life stress and Val66Met polymorphism in the brain-derived neurotrophic factor (BDNF) gene has received much attention. The aim of the present work was to review and conduct a meta-analysis on the results from published studies examining this interaction.

Methods

A literature search was conducted using PsychINFO and PubMed databases until 22 November 2013. A total of 22 studies with a pooled total of 14,233 participants met the inclusion criteria, the results of which were combined and a meta-analysis performed using the Liptak-Stouffer z-score method.

Results

The results suggest that the Met allele of BDNF Val66Met significantly moderates the relationship between life stress and depression (P = 0.03). When the studies were stratified by type of environmental stressor, the evidence was stronger for an interaction with stressful life events (P = 0.01) and weaker for interaction of BDNF Val66Met with childhood adversity (P = 0.051).

Conclusions

The interaction between BDNF and life stress in depression is stronger for stressful life events rather than childhood adversity. Methodological limitations of existing studies include poor measurement of life stress.
Hinweise

Electronic supplementary material

The online version of this article (doi:10.​1186/​1741-7015-12-7) contains supplementary material, which is available to authorized users.

Competing interests

GMH has provided sponsored talks for Bristol-Myers Squibb.

Authors’ contributions

GMH was responsible for drafting the manuscript and collation of the data for analysis. KET undertook the analyses for the study, contributed to collation and checking the data. CS conducted the initial literature search and collation of data. RU and PMcG contributed to the design of the study and interpretation of the results. All authors were involved in drafting the manuscript and have given final approval of the version to be published.

Background

Major depression is a prevalent psychiatric illness that is associated with considerable morbidity and mortality [1]. Much research has been dedicated to uncovering its aetiology with mixed success. Environmental factors, such as childhood adversity [2, 3] and stressful life events [46] have been associated with the onset and course of major depression. However, not everyone exposed to such adversity develops this illness or relapses [6]; this has led researchers to explore stress vulnerability factors, including interactions with genetic influences [7]. The brain-derived neurotrophic factor (BDNF) gene has been implicated in stress vulnerability [8]. Both variation in this gene sequence and stress exposure influence expression and intracellular trafficking of the BDNF protein. Stress is hypothesised to cause a reduction in BDNF (protein) levels in the brain (particularly in regions linked to emotion), which alters mood and may cause depression [9]. Consequently, the BDNF gene has been identified as a stress vulnerability candidate generating much research, which has yet to be reviewed or synthesised.
The purpose of the present work was to systematically review and perform a meta-analysis on studies that have investigated the interaction between the Val66Met polymorphism in the BDNF gene and life stress (childhood adversity and stressful life events) in depression.
Major depression has a lifetime prevalence of 17% [10] and is diagnosed based on the presentation of depressive symptoms (for example, low mood, sleep disturbance and suicidal behaviours) that last at least 2 weeks [1]. Depressive episodes are also experienced by individuals suffering from bipolar disorder, although the defining feature of this condition is mania (symptoms include, elation, grandiosity and irritability) [11].
Major depression is considered one of the most burdensome diseases in the world [12] and it is projected that this illness will be the second leading cause of disease burden for developed countries by 2020 [13]. Better understanding of the aetiology of this debilitating disorder is urgently required so that steps can be taken to reduce the burden on the individual, their families and society as a whole.

Life stress and depression

There is a wealth of literature concerned with the impact of life stress and depression, with studies focusing on childhood adversity and stressful life events.

Childhood adversity

Childhood adversity is defined as stressful experiences that occur early in life; examples include abuse (such as sexual and physical abuse), neglect (failure of caretakers to provide the child with basic needs such as food or support), parental death and divorce. Significantly higher rates of childhood adversity are reported by adults with major depression compared to the general population [14]. Childhood adversity is also associated with worse course of depression, including lack of treatment response as well as more chronic and more frequent episodes [15].
Most studies in this area rely on retrospective reporting which is associated with various biases calling into question the validity and reliability of their findings. A recent study showed that whether childhood maltreatment is assessed prospectively (child protection database) or retrospectively (self-report), it is still significantly associated with major depression to a similar degree [16]. Moreover, Widom and colleagues [17] prospectively followed children who were abused or neglected (identified through court records), and found that as adults these individuals were at increased risk of major depression compared to matched controls.
Childhood adversity is a non-specific risk factor and has been linked to other emotional problems [18], psychiatric illnesses [16, 19, 20] and physical disorders [21, 22]. A better understanding of the specific mechanisms that underlie the childhood adversity/depression association is needed.

Stressful life events

Stressful life events are described as circumstances that have a negative impact on an individual (for example, stress) that occur close to the onset or relapse of the illness [23]. Stressful events such as bereavement and divorce are common, but people’s responses to such events vary, some appear to cope well and others spiral into a depressive episode [6, 24]. Although it has been shown that stressful life events cluster before a depressive episode or worsening of symptoms [4, 25], there is strong evidence that one such event is sufficient to trigger an episode onset [26].
Investigating the relationship between stressful events and depression is not as straightforward as establishing whether an event occurred or not, various elements must be considered. Determining the direction of association is important, are stressful events generated by the individual and influenced by depressive symptoms (dependent events), or is it that such events occur ‘out of blue’ and trigger depressive episodes (independent events)? Establishing the event severity is essential as their impact differs between individuals and is dependent on circumstance. These key issues are addressed with the collection of contextual and biographical information best achieved using semi structured interviews [2729]. Studies employing this method have consistently shown that severe independent events are linked to the onset, relapse and exacerbation of depressive symptoms [5, 25, 30], illustrating a causal relationship.
There is strong evidence for an association between life stress and depression, research now focuses on identifying stress vulnerability factors in depression including genetic factors [31, 32].

Gene/environment interactions

Genetic sensitivity to one’s environment or gene-environment interactions [33], has spurred much mental health research following Caspi and colleagues’ [31] study. Their results showed that the low expressing short allele of the serotonin-transporter-linked promoter region polymorphism (5-HTTLPR; a functional variant in the serotonin transporter gene) increased depressive symptoms, rates of diagnosed depression and suicidality following exposure to stressful events and childhood maltreatment [31].
Many studies that attempted to replicate these results adopted different designs using divergent samples/populations, which resulted in mixed success [34, 35]. The reviews [7, 28, 36] and meta-analytic studies [15, 37] published on this topic suggest that the interaction is strongest between 5-HTTLPR and childhood adversity, rather than recent stressful events [37]. Life stress assessment is crucial, with studies that used objective measures or semi structured interviews rather than crude self-report questionnaires detecting the interaction with the 5-HTTLPR variant [37]. The relationship between life stress and the serotonin transporter gene is fairly consistent for persistent and recurrent depression [14, 38, 39].
Other genes have been implicated in stress vulnerability including the CRHR1[40, 41], FKBP5[42] and BDNF[43] genes. The relationship between the Val66Met variant in the BDNF gene and stress in depression has been widely researched and thus a systematic review and meta-analysis is warranted to synthesise the literature.

BDNF and life stress in depression

BDNF is a protein involved in the proliferation, differentiation and survival of neuronal cells and regulation of synaptic plasticity and connectivity in the adult brain [44]. Research suggests that BDNF may also be influential in sensitivity to stress.
According to the ‘neurotrophic hypothesis’ of depression [8, 45], stress reduces BDNF activity, which results in decreased function in limbic brain regions (for example, hippocampus) involved in emotion processing and cognition. This reduction in turn is posited to be associated with depressed mood; while antidepressant therapy is hypothesised to reverse this effect [9, 45]. There is evidence that stress and trauma result in decreased BDNF levels in both rodents [46, 47] and humans [48, 49]. The findings from several meta-analyses show that lower serum BDNF levels are detected among depressed patients relative to controls but these levels are normalised with antidepressant treatment [50, 51]. There is some debate surrounding the link between BDNF, antidepressants and (hippocampal) neurogenesis (see [52] for more a detailed discussion). Together the evidence presented generally supports the ‘neurotrophic hypothesis’ of depression.
A single nucleotide polymorphism (SNP) in the BDNF gene (that is, Val66Met; rs6265) has been shown to influence the activity of the BDNF protein. This SNP results in the substitution of valine (Val) to methionine (Met) [53]. Although the BDNF gene consists of several polymorphisms many are in high linkage disequilibrium and highly correlated [54, 55].
The Met allele of the BDNF Val66Met polymorphism has been linked with reduced BDNF activity [44], memory impairment [56] and harm avoidance [57]. Individuals with at least one Met allele of this SNP and at high risk of affective disorders (co-twin diagnosed with a mood disorder) have elevated evening cortisol levels, which suggests altered stress response [58].
Transgenic mice that are Met carriers of BDNF Val66Met exhibit increased anxiety-related behaviours under stress conditions [59], as well as decreased BDNF levels in the hippocampus [60], in line with the ‘neurotrophic hypothesis’.
The research highlighted thus far presents a case for a significant interaction between BDNF Val66Met and life stress in depression. The purpose of the current paper is to systematically review and meta-analyse the literature concerned with this interaction addressing the specific question: ‘is there a significant interaction between the Met variant of BDNF Val66Met and life stress in depression?’

Methods

Data sources and search strategy

The systematic review was performed according to the ‘Preferred Reporting Items for Systematic Reviews and Meta-Analyses’ (PRISMA) guidelines [61]. The literature searches were undertaken using PsychINFO, and PubMed up until 22 November 2013 for original research studies. The search terms were synonyms for depression, life stress and the BDNF Val66Met polymorphism (see Table 1). These terms were searched for in the articles’ titles, keywords, tests and measures. Only papers published in the English language were considered for inclusion. The reference lists of identified studies were also searched by hand for relevant papers.
Table 1
Terms used for literature search
Keyword(s)
Additional search terms used
1. Depression
Depressive disorder OR major depressive disorder OR depression OR major depression OR unipolar depression OR depressive symptoms
2. Life stress
Stressful life events, OR life events OR negative life events OR adverse life events OR events OR stress OR stressors OR childhood maltreatment OR childhood adversity OR childhood stress OR child abuse OR child neglect OR adversity
3. BDNF Val66Met polymorphism
Brain-derived neurotrophic factor gene OR BDNF OR rs6265 OR Val66Met

Eligibility criteria

The eligibility criteria were stipulated as follows: utilisation of human participants; depression (illness onset or relapse) or its symptoms were assessed; focus on BDNF Val66Met polymorphism (rs6265); childhood adversity and/or stressful life events (a range of types of events) were assessed; the interaction between stress and the BDNF Val66Met polymorphism was investigated. Studies in gross departure of Hardy-Weinberg equilibrium were excluded (for example, P ≤0.001).

Data extraction

Variety of data were extracted from included studies in accordance with other gene-environment interaction reviews [37, 62] (see Table 2). When publications reported results for both childhood adversity and recent stressful life events they were included in each environmental stressor group; but the results for each stressor were averaged and included in the overall analyses. The data was extracted and confirmed by two authors (GMH and KET). Where studies used multiple life stress and/or depression measures, the data yielded from interviews was included in the analyses. If the information required was not reported or unclear the authors of the original article were contacted.
Table 2
Summary of studies examining the interaction between life stress and brain-derived neurotrophic factor ( BDNF ) Val66Met in depression
Source
N
Females,%
Age at study assessment (Mean or range)
Ancestry
Study design
Stressor
Life stress assessment
Outcome
Averaged one-sided Pvalue
Kaufman et al., 2006 [79]
194
51
9.3 years
Mixed
Cross-sectional
Childhood adversity
Children taken into care
Depressive symptoms
0.6765
Kim et al., 2007 [43]
732
59
65 years and over
East Asian
Cross-sectional
Stressful life events
Researcher-administered questionnaire
Depression diagnosis
0.000315
Wichers et al., 2008 [73]
464
100
18 to 46 years
European
Longitudinal twin study
Childhood adversity
Questionnaire
Depressive symptoms
0.009
Aguilera et al., 2009 [66]
470
55
22.9 years
European
Cross-sectional
Childhood adversity
Questionnaire
Depressive symptoms
0.637
Bukh et al., 2009 [82]
290
66
38.5 years (median)
European
Case only
Stressful life events
Interview
Depression onset
0.004
Gatt et al., 2009 [88]
374
51
36.2 years
European
Cross-sectional
Childhood adversity
Questionnaire
Depressive symptoms
0.272
Hosang et al., 2010 [75]
1,085
62
37.83 years
European
Case–control
Stressful life events
Researcher-administered questionnaire
Bipolar disorder relapse
0.02
Lavebratt et al., 2010 [68]
950
58
20 to 64 years
European
Longitudinal survey
Childhood adversity and Stressful life events
Questionnaire
Depressive diagnosis
0.5
Nederhof et al., 2010 [80]
1,096
53
16.13 years
European
Longitudinal study
Childhood adversity
Questionnaires and interviews
Depressive symptoms
0.3525
Carver et al., 2011 [76]
133
74
18.71 years
Mixed
Cross-sectional
Childhood adversity
Questionnaire
Depression diagnosis
0.01
Elzinga et al., 2011 [81]
1,435
69
42.2 years
European
Case only
Childhood adversity and stressful life events
Interview
Depression diagnosis and symptom severity
0.4325
Juhasz et al., 2011 [74]
1,269
70
34.04 years
Caucasian
Cross-sectional
Childhood adversity and stressful life events
Questionnaire
Depression diagnosis
0.13165
Chen et al., 2012 [69]a
780
51
13.6 years
Han Chinese
Longitudinal twin study
Stressful life events
Questionnaire
Depressive symptoms
0.9875
Grabe et al., 2012 [70]a
2,035
53
55.6 years
Caucasian
Case only
Childhood adversity
Questionnaire
Depressive symptoms
0.785
Herbert et al., 2012 [83]
279
100
36.8 years
Caucasian
Longitudinal study
Stressful life events
Interview
Depression diagnosis
0.0935
Perea et al., 2012 [77]
302
50
18 years
Mixed (Columbian population)
Cross-sectional
Childhood adversity and stressful life events
Questionnaire
Depressive symptoms
0.01725
Quinn et al., 2012 [65]
240
59
40.01 years
Unknown
Cross-sectional
Childhood adversity
Questionnaire
Melancholic subtype of depression diagnosis
0.5
Caldwell et al., 2013 [71]a
124
66
21.97 years
Mixed
Cross-sectional
Childhood adversity
Questionnaire
Depressive symptoms
0.8705
Comasco et al., 2013 [67]
1,393
50
17 to 18 years
European
Cross-sectional
Childhood adversity
Questionnaire
Depressive symptoms
0.251
La Greca et al., 2013 [78]
116
54
8.85 years
Mixed
Cross-sectional
Childhood adversity
Questionnaire
Depressive symptoms
0.167833
Jiang et al., 2013 [89]a
238
73
61.7 years
Caucasians
Cross-sectional
Stressful life events
Carer of person with dementia
Depressive symptoms
0.9805
Brown et al., 2013 [85]
234
100
37 years
Caucasian
Longitudinal study
Childhood adversity and stressful life events
Interview
Depressive episode onset
0.431
Total
14,233
        
Average sample size
647
       
0.03
aTested Val recessive model.

Quality appraisal of studies

The methodological quality of included studies was evaluated against a quality checklist, derived from the STREGA (‘Strengthening the Reporting of Genetic Association Studies’) and STROBE (‘Strengthening the Reporting of Observational Studies in Epidemiology’) checklists [63, 64], which have been used by other gene-environment interaction meta-analyses [37].
In accordance with current guidelines and previous reviews of gene-environment interaction studies [37], the studies were not weighted by quality scores or excluded based on low scores, but the information is presented in Additional file 1 for readers’ evaluation.

Statistical analyses

The Liptak-Stouffer z-score method was used to combine studies at the level of significance tests with the results weighted by sample size. This approach has been used by another meta-analysis of gene-environment interactions [37]. This method involves a number of steps. First, the P values from the eligible studies were extracted and converted to one-tailed values, with those less than 0.50 indicating greater Met allele stress sensitivity and P values of greater than 0.50 corresponding to Val allele stress sensitivity in depression. Second, these P values were transformed into z-scores using a standard normal curve. Positive z-scores were assigned to P <0.50 and negative z-scores corresponded to P >0.50. Third, the z-scores were combined and weighted to take into account the study sample size. The following formula was used to do this:
Zw = i = 1 k w i z i i = 1 k w i 2
The weighting factor wi corresponds to each study’s sample size, k indicates the number of total studies, and Zi corresponds to the z-scores of individual studies. Zw, which is the outcome of this test, follows a standard normal distribution and thus related probability corresponds with a standard normal distribution table. This approach was used on the overall and stratified analyses.
Sensitivity analyses were undertaken to determine whether the results were considerably influenced by any single study; the procedure involved systematically excluding each study and recalculating the significance of the result.
To assess the potential impact of publication bias on the meta-analysis results the fail-safe N was calculated for all analyses. In line with Karg and colleagues [37], the number of studies with a P value equal to 0.50 and a sample size of 647 (average sample size of the studies analysed in the overall meta-analysis) were calculated that would need to be included in the weighted Liptak-Stouffer analyses to obtain a non-significant result. The ratio between the fail-safe and the actual number of studies published provides an estimation of the possibility of publication bias effecting our findings.

Results

Study selection

A combination of the predefined search terms (depression + life stress + BDNF Val66Met) resulted in 1,019 hits; after duplicates were removed, 236 studies remained (see Figure 1). The abstracts of these articles were reviewed and those studies that reported on the interaction between life stress and BDNF Val66Met in depression were included. No existing systematic or meta-analytic reviews were found.

Overall evidence for BDNF × stress in mood disorders

Out of the 22 studies included, 8 reported a significant interaction between life stress (either life events or child adversity) and the Met variant of BDNF Val66Met in depression (see Table 2 and Figure 2).
Other studies provided partial evidence of a significant stress × BDNF for specific types of depression [65], childhood adversity [66, 67] or detected a gender specific effect [68].
Several studies found a significant interaction between life stress and BDNF in depression using a Val recessive model [6971]. The allele frequencies of the BDNF Val66Met polymorphism differs between ethnic groups, with the Met allele frequency highest among Asian populations [72]. Two of these studies used either a Han Chinese sample [69], or a cohort with mixed ethnicity [71], which may have contributed to the unusual finding with a Val recessive model.

Meta-analysis result

Combining the results from the identified studies with a total of 14,233 participants showed that the interaction between the Met variant of the BDNF Val66Met polymorphism significantly moderates the relationship between life stress and depression (P = 0.03). When findings from studies that used Caucasian samples were meta-analysed separately (to account for the potential confounding effect of population stratification), the results failed to reach conventional level of significance although they were in the expected direction (P = 0.07).
The sensitivity analyses showed that the results remained significant after removing each study in turn (>0.004 P <0.049) with the exception of 4 studies [43, 7375]. In terms of publication bias, to make these results non-significant (P = 0.05), more than 11 unpublished or undiscovered studies with an average sample of 657 participants reporting a non-significant finding (P = 0.50) would need to exist. This corresponds to a fail-safe ratio of 2 studies not included in the meta-analysis for every included study.
Since there is evidence for the differential interaction effect with child adversity and stressful life events with other SNPs (for example, 5-HTTLPR[43]), the results pertaining to the impact of these types of stressors and the BDNF gene were examined.

Childhood adversity

In all, 16 studies explored the interaction between childhood adversity and BDNF in depression, 4 reported a significant effect [73, 74, 76, 77] and 5 showed partial support for this interaction [6568, 78] (see Table 3).
Table 3
Studies included in the childhood adversity meta-analysis
Source
Sample size
One-sided Pvalue
Kaufman et al., 2006 [79]
194
0.6765
Wichers et al., 2008 [73]
464
0.009
Aguilera et al., 2009 [66]
470
0.637
Gatt et al., 2009 [88]
374
0.272
Lavebratt et al., 2010 [68]
642
0.5
Nederhof et al., 2010 [80]
1,096
0.3525
Carver et al., 2011 [76]
133
0.01
Juhasz et al., 2011 [74]
1,269
0.0018
Elzinga et al., 2011 [81]
1,435
0.435
Grabe et al., 2012 [70]
2,035
0.785
Quinn et al., 2012 [65]
240
0.5
Perea et al., 2012 [77]
302
0.016
La Greca et al., 2013 [78]
116
0.167833
Caldwell et al., 2013 [71]
124
0.8705
Comasco et al., 2013 [67]
1,393
0.251
Brown et al., 2013 [85]
234
0.431
Total
10,521
 
Average sample size
658
0.051
For instance, rather than investigating child adversity as one overarching construct, Aguilera and colleagues [66] focused on different types and only found a significant interaction between child sexual abuse and BDNF. Given the acknowledged heterogeneity in major depression [1], Quinn and associates [65] explored the impact of the child adversity-BDNF interaction on different subtypes of the disorder and found a significant effect for non-melancholic depression only.
The childhood adversity measures used by studies is particularly noteworthy, with all of the those reporting a significant interaction relying on questionnaires, while many of those studies not reporting an effect utilised more objective methods [7981].

Childhood adversity: meta-analysis results

In meta-analysing the results from included studies with a combined sample of 10,521 individuals, a trend towards a significant interaction between childhood adversity and BDNF in depression was detected (P = 0.051), but was not improved on when only those studies with Caucasian samples were analysed (P = 0.08).
In undertaking sensitivity analyses, the results remained non-significant after removing each study in turn (>0.052 P <0.27), with the exception of 6 [66, 68, 70, 71, 79, 81].

Stressful life events

The stressful events-BDNF interaction in depression was investigated in 11 studies using a combined sample of 7,594 individuals; 5 uncovered a significant effect (see Table 4). The majority of these studies used either researcher-administered questionnaires [43, 75] or interviews [82], while the non-replicating studies relied on self-report checklists with one exception [83].
Table 4
Studies included in the stressful life events meta-analysis
Source
Sample size
One-sided Pvalue
Kim et al., 2007 [43]
732
0.000315
Bukh et al., 2009 [82]
290
0.004
Hosang et al., 2010 [75]
1,085
0.02
Lavebratt et al., 2010 [68]
950
0.5
Juhasz et al., 2011 [74]
1,269
0.2615
Elzinga et al., 2011 [81]
1,435
0.43
Chen et al., 2012 [69]
780
0.9875
Perea et al., 2012 [77]
302
0.0185
Herbert et al., 2012 [83]
279
0.0935
Jiang et al., 2013 [89]
238
0.9805
Brown et al., 2013 [85]
234
0.0004
Total
7,594
 
Average sample size
690
0.01
Bipolar disorder was the focus of one study [75], which found that the effect of stressful life events on episodes of bipolar depression were significantly greater in Met allele carriers (Met/Met and Val/Met) relative to those with the Val/Val genotype. However, no such pattern was reported for manic episodes [75].

Stressful life events: meta-analysis results

A significant interaction between stressful life events and the Met variant of BDNF Val66Met (P = 0.01) was found; the results remained significant when the analyses were restricted to studies using Caucasian samples (P = 0.027).
Sensitivity analysis showed the P value remained significant with the exclusion of each study from the analysis (>0.001 P <0.023), except for 2 [43, 75].
For this result to be non-significant (P = 0.05) more than 14 unpublished or unidentified studies need to exist with an average sample of 690 participants and a non-significant result (P = 0.50). This corresponds to a fail-safe ratio of 1 study not included for every study entered into the meta-analysis.

Discussion

A total of 22 studies with a combined sample of 14,233 participants met the eligibility criteria, 8 of which reported a significant interaction between life stress and the Met variant of BDNF Val66Met. The overall meta-analysis found evidence for a significant interaction between life stress and BDNF in depression using a Met dominant model. When the analyses were stratified by type of stressor, the results were strongest for stressful life events while the effect of childhood adversity failed to reach conventional levels of significance.
These findings help build a lifespan model of causation for major depression focusing on several gene-stress interactions. Research shows that childhood adversity (distal and stable risk factor) significantly interacts with the short allele of the 5-HTTLPR[37], while the findings from this meta-analysis suggest that the stressful life events (proximal and provoking factor) significantly interacts with the Met variant of BDNF in depression.
It has also been postulated that individuals who are genetically sensitivity to adverse experiences (for example, Met carriers) may benefit most from positive environments or even the lack of adversity, under the ‘differentially susceptibility’ hypothesis [84]. One study [85] found that the likelihood of experiencing a depressive episode was significantly reduced among individuals with at least one Met allele of BDNF but only in the absence of a severe stressful event. It is possible that interventions that focus on providing supportive and positive environments would be most beneficial to individuals who are genetically sensitivity to stress.
The aetiology of psychiatric disorders such as major depression is complex and is likely to involve multiple interactions between genetic variants and environmental factors. Few studies have explored the three-way interaction between childhood adversity, stressful life events and stress vulnerability genetic variants [86]. A wealth of research shows that adversity in childhood sensitises individuals to adult stressful life events increasing their risk for major depression [87]. Given the mounting evidence that genetic variants such as BDNF Val66Met polymorphism are important stress vulnerability factors sets the stage for future studies that should explore the childhood adversity × stressful life events × BDNF interaction in the context of depression.

Child adversity

When examining the specific influence of child adversity, 4 out of 16 studies reported a significant interaction with BDNF Val66Met for depression, and 5 were able to provide partial support for this interaction [6568]. However, the results from the meta-analysis of these studies provided only a trend towards a significant effect.
On closer inspection of these results it appears that the childhood adversity-BDNF relationship in depression may be complex, with some studies reporting a significant interaction among women and not men [68, 73], and for specific subtypes of depression (non-melancholic) [65]. In addition, specific forms of childhood adversity maybe driving these associations (for example, child sexual abuse [66]). More research in this area is warranted focusing on specific forms of adversity and depression subtypes as well as investigating gender differences.
The non-replicating studies have two characteristics that are noteworthy. Firstly, some studies which failed to detect any evidence for a child adversity × BDNF in depression used child and adolescent cohorts [79, 80]. Secondly, more reliable (for example, interviews [80, 81]) and objective measures [79] of childhood adversity were adopted by these studies in comparison to those which found evidence for a gene-environment interaction who mainly used questionnaires (for example, [74, 76]). There are several possible explanations for these null findings. The interaction between child adversity and BDNF may be developmentally sensitive and only manifests later in life (beyond adolescence). It is also possible that the BDNF-childhood adversity relationship in depression is a measurement artefact. Thus, future studies should assess an adult sample using interviews or objective measures of child adversity.

Stressful life events

The results of the meta-analysis showed that the effect of stressful life events on depression is significantly moderated by the BDNF polymorphism. The majority of the positive studies measured stressful events using researcher-administered questionnaires or interviews while the majority of the non-replicating studies utilised self-report checklists. It is possible that more objective and sensitive approaches to measuring stressful life events are required to observe its interaction with BDNF in depression.

BDNF

The BDNF gene consists of a number of polymorphisms which may also be relevant for gene-environment interactions in depression [55]. The majority of published studies have focused BDNF Val66Met, which allows for the present meta-analysis, but it would be useful for future studies to explore the relationship between other BDNF polymorphisms and stress in depression.

Limitations

The studies reviewed in this article are subject to a number of limitations. Firstly, different life stress measures were employed. Questionnaires present the biggest challenge as they rely on self-report and are vulnerable to various biases such as the participant’s subjective interpretation of what counts as an event and enquire about a restricted number of events. Despite these limitations, most studies relied on self-report questionnaires, casting doubt on their results. Some studies have attempted to overcome these problems by using trained researchers to administer the questionnaires providing some improvement. More robust methods, such as life stress interviews or use of social services records of child maltreatment are more objective and combat many of the biases associated with self-report.
Secondly, the majority of included studies used Caucasian samples, which may have influenced the results. It is possible that the BDNF × stress in depression is only relevant to Caucasian populations, although significant interactions have been reported among Asian [43] and ethnically mixed populations [76, 77]. Future studies need to recruit participants from non-Caucasian backgrounds to test the generalisability of the BDNF × stress in depression to other ethnic groups.
Thirdly, several included studies may have limited power due to their restricted sample sizes (for example, [65, 78]). For the current study, power analyses revealed that using the pooled samples provided greater than 80% power to detect significant effects of all three interactions tested in this project (these are, (1) life stress × BDNF, (2) childhood adversity × BDNF, (3) stressful life events × BDNF in depression).
Finally, the statistical approach used to conduct the current meta-analysis relied on combining the P values of existing studies, which were weighted by sample size. This approach was adopted to maximise the number of studies that could be included, with the aim of reducing biases associated with selecting a homogeneous set of studies and to better reflect the current evidence in this field. The meta-analytic method of combining P values could be improved upon by using traditional approaches that focus on combining effect sizes, which benefit from providing the magnitude of an effect.

Conclusions

A total of 22 studies with a pooled sample of 14,233 individuals were included in this review, of which 8 provided evidence in support of an interaction between life stress and the BDNF Val66Met polymorphism in depression. A meta-analysis provided evidence for an interaction between the Met variant of the BDNF Val66Met polymorphism and life stress in the causation of depression. When stratified by the type of stress, the results of the meta-analyses were only significant for stressful life events and not childhood adversity. This suggests that serotonin transporter and BDNF genes may confer sensitivity to early and late environmental factors respectively and play complementary yet distinct roles in the depression aetiology.

Acknowledgements

We would like to express our gratitude to Siobhan Lynch for her input into and comments on early drafts of this manuscript. We are grateful to Annette La Greca, Betty Lai, Kent Nilsson, Gabriella Juhasz, Marieke Wichers, Joan Kaufman, Justine Gatt, Andrew Kemp, Esther Nederhof, George Brown, Lourdes Fañanas, Maria Claudia Lattig, Jin-Sang Yoon, Silvia Alemany, Hans Grabe and Christian Schwan for providing supplementary information on their studies. GMH was supported by a Medical Research Council (MRC) and Economic Social Research Council (ESRC) UK Interdisciplinary Postdoctoral Fellowship (PTA-037-27-0165) at the time of writing the paper. RU is supported by the Canada Research Chairs program (http://​www.​chairs-chaires.​gc.​ca/​home-accueil-eng.​aspx). The funding sources had no role in designing the present study, writing the manuscript or the decision to submit.
This article is published under license to BioMed Central Ltd. This is an open access article distributed under the terms of the Creative Commons Attribution License (http://​creativecommons.​org/​licenses/​by/​2.​0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Competing interests

GMH has provided sponsored talks for Bristol-Myers Squibb.

Authors’ contributions

GMH was responsible for drafting the manuscript and collation of the data for analysis. KET undertook the analyses for the study, contributed to collation and checking the data. CS conducted the initial literature search and collation of data. RU and PMcG contributed to the design of the study and interpretation of the results. All authors were involved in drafting the manuscript and have given final approval of the version to be published.
Anhänge

Authors’ original submitted files for images

Below are the links to the authors’ original submitted files for images.
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Zurück zum Zitat Jiang R, Brummett BH, Babyak MA, Siegler IC, Williams RB: Brain-derived neurotrophic factor (BDNF) Val66Met and adulthood chronic stress interact to affect depressive symptoms. J Psychiatr Res. 2013, 47: 233-239. 10.1016/j.jpsychires.2012.10.009.CrossRefPubMed Jiang R, Brummett BH, Babyak MA, Siegler IC, Williams RB: Brain-derived neurotrophic factor (BDNF) Val66Met and adulthood chronic stress interact to affect depressive symptoms. J Psychiatr Res. 2013, 47: 233-239. 10.1016/j.jpsychires.2012.10.009.CrossRefPubMed
Metadaten
Titel
Interaction between stress and the BDNFVal66Met polymorphism in depression: a systematic review and meta-analysis
verfasst von
Georgina M Hosang
Celia Shiles
Katherine E Tansey
Peter McGuffin
Rudolf Uher
Publikationsdatum
01.12.2014
Verlag
BioMed Central
Erschienen in
BMC Medicine / Ausgabe 1/2014
Elektronische ISSN: 1741-7015
DOI
https://doi.org/10.1186/1741-7015-12-7

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