1. Introduction
Investigating job-related strain involves studying the relationship between stressful aspects of jobs (i.e., stressor) and the results of exposure to the stressor (i.e., strain). Within this framework, the job strain model [
1] proposes that workers exposed to a combination of high job demands and low decision latitude have an increased risk of job strain, which is associated with cardiovascular diseases [
2], type 2 diabetes [
3], and depression [
4]. Stressful experiences at work are often attributed to adverse psychosocial environments. A number of studies have identified work-related stressors that contribute to job strain levels, including poor work environment, professional role ambiguity, tense interpersonal relations, lack of autonomy, and higher work intensity [
5,
6,
7]. One study of healthy workers found that workload was considered a job stressor, reflecting the demands placed upon an employee in their job that cause psychological and behavioral strain [
8]. Karasek and Theorell [
9] reported a clear association between job strain and levels of social support. The expanded model demonstrated that the support of co-workers and supervisors (workplace support) was one of the most important factors alleviating stress in the work environment. Some reports have shown that help from supervisors and coworkers can prevent occupational strain [
10]. In addition to workplace support, social support from family members and close friends can also decrease the effects of job strain [
11].
In addition to the aforementioned work-related psychosocial factors, individual differences also dictate the levels personal strain in the workplace [
12]. Some research has shown that individuals exhibit a broad range of behavioral and physiological responses to stressors [
13]. Adrenal responses to stress—reflecting deviations from normal physiological or psychological set points—demonstrate are a major function of the hypothalamic-pituitary-adrenal (HPA) axis in general adaptation syndrome [
14]. This axis is one of the body’s primary hormonal systems for responding to stress and the first to respond to social stressors [
15]. Indeed, the basal activity and reactivity of the HPA axis is modulated by and in turn modulates neurotransmitters such as serotonin (5-hydroxytryptamine, 5-HT) [
16]. Genetics can predict 5-HT system activation, given its relationship to strain [
17]. 5-HTR2A is the main receptor mediating 5-HT stimulation of the HPA axis [
18]; the rs6313 single nucleotide polymorphism in the 5-HTR2A gene has been linked to stress-related disorders such as major depression, anxiety, and mood disorder [
19,
20]. Furthermore, HTR2A variants have been implicated in the neurobiology of posttraumatic stress disorder [
21]. However, there is no information available regarding the role of the 5-HT2A receptor gene in job strain.
Employees in the Xinjiang Field Petroleum Administration Bureau have long working hours and arduous tasks, and engage in shift work every 6 months. Their workplaces are installations in arid deserts where they are subjected to isolation, extreme weather, and risk of accidents. Several studies reported that physical and mental health are affected by natural conditions, including the monotonous lifestyle of arid deserts and other harsh environments [
22,
23]. A positive association between stressors, social support, and outcome (i.e., strain) in employees has been demonstrated [
11,
24]. Most research has focused on white-collar workers [
25,
26]; there have been few studies on the relationship between work stressors, social support, 5-HTR2A polymorphism, and job strain in arid deserts petroleum workers. We carried out a cross-sectional study among petroleum workers in Xinjiang to investigate (1) the relationship between work stressors and job strain; (2) the association between social support and job strain; and (3) the relationship between 5-HTR2A polymorphism and job strain. The results provide insight into factors associated with job strain, and underscore the need to establish policies for protecting the health of arid deserts petroleum workers.
2. Methods
2.1. Study Subjects
This research was part of the Occupational Health Study of Petroleum Workers in China and was carried out between January and August 2013. The study protocol was approved by the Ethics Committee of Xinjiang Medical University (XJMU#2012005). Written informed consent was obtained from all participants. Study subjects were employees aged 20–60 years of both sexes who worked at the Xinjiang Petroleum Administration Bureau of China National Petroleum Corporation in Karamay City, Xinjiang Province, China. A total of 1181 subjects were recruited using a three-stage stratified sampling method. After applying the exclusion criteria, 810 subjects were eligible. Since some of subjects did not agree to participate in the study, 700 workers were ultimately included. In China, workers are required to undergo professional health examinations on a regular basis under the Industrial Safety and Health Act. During the annual professional health examination, we conducted face-to-face interviews with each participant to fill in the questionnaires. The general characteristics noted for each patient were age (<30, 30–40, 40–50, or >50 years), sex, job tenure (<10, 10–20, or >20 years), marital status (unmarried/married), and income level (<3000, 3000–5000, or >5000 yuan).
2.2. Work Stressors
We used a validated version of Occupational Stress Inventory-Revised [
27], which provides measures for an integrated theoretical model linking sources of stress in the work environment, psychological strains experienced by individuals as a result of work stressors, and coping resources available to combat the effects of stressors and alleviate strain. The questionnaire included three subscales: Occupational Roles Questionnaire (ORQ), Personal Strain Questionnaire (PSQ), and Personal Resources Questionnaire (PRQ). In this study, the ORQ and PSQ were used to evaluate work-related stressors and job strain, respectively.
The ORQ had six dimensions: Role overload, Role insufficiency, Role ambiguity, Role boundary, Responsibility, and Physical environment. Each of the six scales includes 10 items, with scores ranging from 1 to 5. Higher scores on the ORQ indicated more work stressors.
2.3. Job Strain
The Personal Strain Questionnaire (PSQ) measures the outcome of work stressors manifested as personal strain within the following categories: Vocational strain, Psychological strain, Interpersonal strain, and Physical strain. Subjects responded to each item on a five-point Likert scale ranging from 1 (never) to 5 (always). For PSQ subscales, a higher score indicated a severe level of job strain.
We used standard scoring for the PSQ to further classify the job strain group. Raw scores for each dimension were converted to T scores (mean ± SD, 50 ± 10) based on the general population of China [
28]. T scores ≥70, between 60 and 69, and ≤59 indicated high, moderate, and low levels of job strain, respectively [
28].
2.4. Social Support Assessment
Social support was measured with the Chinese Social Support Rating Scale [
29], which consists of 10 items divided into three dimensions: objective and subjective support and use of social support. Higher scores indicated better social support from family, friends, and colleagues. Each item was scored differently: maximum scores of 4 for items 1–4 and 8–10, 20 for item 5, and 9 for items 6 and 7, for a total score of 66. Total scores <33, 33–45, and <45 indicated low, moderate, and high levels of social support, respectively.
2.5. DNA Sampling and Genotyping
Venous blood samples were obtained as part of the health examination and were anonymized. Samples were collected in EDTA-containing tubes from each participant following a 12-h fast. Genomic DNA was purified from the samples using a whole blood genome extraction kit (Tiangen Biotech, Beijing, China) and stored at −20 °C until use. Tag single nucleotide polymorphisms (SNPs) of 5-HTR2A in the Chinese Han population were identified in the Haplotype Map database (National Center for Biotechnology Information, Bethesda, MD, USA). The SNPs rs6313, rs1923884, and rs2070040 were genotyped with the SNaPshot SNP assay. Data were analyzed using GeneMapper 4.1 (Applied Biosystems, Foster City, CA, USA).
2.6. Statistical Analysis
Data were analyzed using SPSS for Windows v.17.0 software (SPSS Inc., Chicago, IL, USA). The χ2 test was used to analyze the distribution of general characteristics among different job strain groups and evaluate Hardy-Weinberg equilibrium. Hardy-Weinberg equilibrium (HWE) is assumed when observed genotype and allele frequencies between parents and their offspring are in equilibrium in a population. When p > 0.05, the research object is representative of the general population. Job strain scores of different genotypes and social support groups were analyzed as continuous variables and evaluated by one-way analysis of variance. Odds ratios (ORs) and 95% confidence intervals (CIs) were determined for risk associated with job strain by ordinal logistic regression. The tests were two-tailed and the significance level was set at p < 0.05.
4. Discussion
This study investigated the relationship between 5-HTR2A gene polymorphisms, work stressors, social support, and job strain among Chinese workers. We found that higher scores for role overload and responsibility were associated with high job strain level, which is consistent with previous findings on occupational strain among Chinese Han teachers [
30]. Petroleum workers often work overtime and night shifts, and spend an excessive amount of time and energy completing their performance goals; they therefore lack the time to find relief from the competitive pressures they face. In a Canadian study, responsibility was related to greater depersonalization, feelings of lower personal accomplishment, and greater somatization and strain [
31]. The absence of proper monitoring in this line of work can lead to accidents, environmental pollution, or corporate property damage; as a result, oil workers bear more responsibility, which causes a higher level of strain.
Social support plays a significant role in an individual’s ability to cope with job strain. This is consistent with previous findings showing that a higher level of job strain is observed in individuals with lower levels of support [
32,
33]. Moreover, it has been reported that women with low social support from their colleagues had higher levels of cortisol, the hormone released during strain [
34]. Several studies have shown that interpersonal relationships with clients, coworkers, and supervisors are important predictors of psychological distress [
35]. Interpersonal strain represents a specific disengagement reaction towards demanding interpersonal interactions and social pressures at work, through which an individual creates emotional and cognitive distance from others [
27]. We found that low social support increased the risk of experiencing job strain, especially vocational and interpersonal strain.
Few studies to date have investigated the association between 5-HTR2A genes and job strain. The results of our study indicate that the AA genotype of rs2070040 and CC genotype of rs6313 were associated with serious vocational strain. The observed associations between the three single nucleotide polymorphisms and job strain provide further evidence of the functional role of the 5-HTR2A gene in the development of job strain. Some studies have found a link between the A allele of rs2070040—an SNP in the 5-HTR2A promoter—and postpartum depression [
36]. In addition, compared to the T variant, the C allele of rs6313 was more closely associated with lower 5-HTR2A mRNA and protein expression [
37], which may be a response to increased levels or release of 5-HT in the brain. Moreover, 5-HT regulates the release of the HPA axis peptides corticotropin-releasing hormone and adrenocorticotropic hormone, along with the adrenal hormone cortisol [
38] to modulate the stress response. 5-HT2A receptors of the hypothalamic paraventricular nucleus (PVN) participate in HPA axis activation [
39]. The high-risk CC genotype has been linked to various stress-related disorders [
40,
41].
There were some limitations to the present study. Firstly, due to its cross-sectional nature, the results suggested an association between 5-HTR2A gene polymorphism and job strain but did not indicate a causal relationship. Secondly, we used a self-reported questionnaire to measure job strain levels; the responses may have therefore lacked accuracy and yielded false-positive results. Ideally, a quantitative analysis of serum cortisol levels should be carried out to substantiate the results of the questionnaire. Thirdly, the study subjects were all from the Chinese Han population, and therefore the results may not be generalizable to other ethnic groups and populations, which would require a longitudinal cohort study. Finally, we investigated only three tag SNPs, but it is possible that other polymorphisms of the 5-HTR2A gene affect susceptibility to job strain.
5. Conclusions
The Occupational Stress Inventory-Revised Questionnaire, Chinese Social Support Rating Scale, and SNaPshot single nucleotide polymorphism assay were used to evaluate the relationship between work stressors, social support, and 5-HT2A receptor polymorphisms on job strain in petroleum workers in arid deserts. The results revealed that work overload and responsibility were strongly associated with job strain in petroleum workers, and that low social support and the CC genotype of the 5-HTR2A gene were risk factors for job strain. Our findings demonstrate the effects of genetics and environmental factors on the etiology of job strain, and suggest possible factors that account for differences in individual susceptibility. Based on these results, our primary policy suggestion is to set up a proactive workplace intervention to reduce job strain in petroleum workers (focusing on carriers of the CC genotype), including measures to promote good interpersonal relationships with co-workers, supervisors, family, and friends and minimize the risk of work stressors.