A-methylacyl-coa Racemase (amacr) and Prostate- Cancer Risk: a Meta-analysis of 4,385 Participants

Background: Alpha-methylacyl-CoA racemase (AMACR) is a mitochondrial and peroxisomal enzyme that is overexpressed in prostate cancer. The aim of this study was to confirm and expand the findings that the PCa risk increased in men associated with AMACR expression across various geographic regions.


Introduction
Prostate cancer (PCa) is the most frequently diagnosed noncutaneous malignancy in men, and the second leading cause of male cancer-related mortality in the United States [1]. The incidence of prostate cancer in Asia, including in China and Japan, has been increasing, although it is lower than that in the Western world [2]. Diagnosis of prostate cancer glands can sometimes present a diagnostic challenge for pathologists, since prostate carcinoma can mimic benign prostate glands [3]. and the architectural or cytologic clues for the diagnosis of carcinoma may not always be seen in small foci of suspicious glands. Also, Tissue diagnosis of prostate cancer can be difficult in needle biopsies or in a small focus of cancer of radical prostatectomies, presenting one of the major challenges in surgical pathology. underdiagnosis of a small focus of prostatic adenocarcinoma might delay early treatment and cause severe adverse consequences for patients. Therefore, a PCa specific marker could be be of great importance and usefulness to adjunct to facilitate critical diagnostic decisions with high sensitivity and specificity [4].
Although prostate-specific antigen (PSA) is the main criteria for PCa diagnosis, it has poor specificity to cancer, highly expressed in noncancerous prostatic tissues as well as in cancerous tissues and often lead to over diagnosis and overtreatment. Consequently a new scenario is needed to identify potentially aggressive or lethal PCa to better support clinical decisions [5].
AMACR (alpha-methylacyl-CoAracemase), an enzyme currently used in prostate cancer diagnosis, which is a peroxisomal and mitochon drial enzyme that was preferentially overexpressed to approximately 80% of prostate cancer detected in prostate biopsies [6][7]. However, AMACR is not 100% sensitive, and its expression is not limited to prostatic adenocarcinoma but may also be seen in several of its histologic mimics [8], resulting in many potential caveats in its use [9]. Accordingly, evaluation of AMACR as new markers of prostatic adenocarcinoma is needed.
In an attempt to confirm the potential role of AMACR expression as a prognostic biomarker, we completed a metaanalysis of AMACR expression in men of Asia and European lineage across different geographic regions with PCa.

Search Strategy and Selection Criteria
We undertook a comprehensive literature review with search terms (Table 1) without language restriction. We restricted the search to Medline, Web of Science and the Cochrane Library.
The last quest was updated on March 13, 2013. Bibliographies of relevant retrieved studies and recent reviews were also scanned for additional publications. When more than one studies with the same population were identified, only the most recent or complete one was included in this meta-analysis.
Studies were included if they fulfilled the following criteria: 1) cases were pathologically verified to have adenocarcinoma of the prostate (International Classification of Diseases-10: C61), 2) the control group consisted of subjects who were men and free of PCa, 3) studies investigating the association of AMACR with PCa risk as the main outcome.

Data Extraction and Quality Assessment
This meta-analysis was conducted according to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) [10] and Meta-analysis of Observational Studies in Epidemiology (MOOSE) [11] guidelines.
Study characteristics, ethnicity of included subjects, numbers of cases and control subjects, and positive staining were extracted for factors of interest. The authors of published studies were also contacted for requesting necessary data that were not provided. Quality assessment was undertaken independently by at least two authors (Ning Jiang, Shimiao Zhu, Jing Chen). Two authors (Liqun Zhou, Yuanjie Niu) independently did the literature search and extracted data. Any disagreements were resolved through discussion with authors (Niu and Zhou).

Data Analysis and Presentation
The effect estimates of choice were odds radio (OR) for dichotomous variables and the corresponding 95% confidence intervals (CI). The random effects model of DerSimonian and Laird was prespecified for use in all estimates because of the suspected a priori that studies were conducted by various authors with different populations and had different designs (eg, casecontrol and case series studies). Heterogeneity was evaluated using the Q test [12]. We also calculated the quantity I 2 statistic that represented the percentage of total variation across studies. As a guide, I 2 values of 25%, 50%, and 75% correspond to low, medium, and high levels of heterogeneity [13]. The funnel plot was addressed to reveal the potential publication bias. All analyses were conducted using Review Manage, version 5.2 (The Cochrane Collaboration, Oxford, U.K.).

Meta-analysis Results
The pooled result revealed that positive AMACR by IHC was significantly associated with increased diagnosis of PCa (OR = 76.08; 95% CI, 25.53-226.68; P,0.00001) (Figure 2). Funnel plot asymmetry couldn't be observed (Figure 3), which suggested no significant publication bias existing.
In consideration of the potential different expression of AMACR in different races, we yielded enthnicity-based subgroup-analyses (Figure4). Subgroup-analysis showed that findings didn't substantially change when only Caucasians (OR = 51.23; 95% CI, 19.41-135.24; P,0.00001), or Asians were included  (OR = 209.90; 95% CI, 8.33-5287.64; P,0.00001). Both the results of subgroup-analyses showed that heterogeneity was usually a variation affecting the degree of risk rather than direction of effect.
We next explored the positive AMACR by PCR in relation to PCa risk. Pooled results suggested that positive AMACR was associated with PCa (OR = 33.60; 95% CI, 4.67-241.77; P,0.00001) ( Figure 5). There was also no significant publication bias observed.

Discussion
In this study, we explored the association between the AMACR and PCa risk in 22 studies from various geographic regions including European and Asia. AMACR expression by IHC was significantly associated with increased diagnosis of PCa (OR = 76.08; 95% CI, 25.53-226.68; P,0.00001). The overall-analysis provided strong replication of the initial findings, confirming the AMACR for PCa.
AMACR is a well-characterized enzyme that plays a key role in peroxisomal b-oxidation of dietary branched fatty acids and C27bile acid intermediates. It catalyzes the conversion of (R)-a-methylbranched-chain fatty acyl-CoA esters to their (S)-stereoisomers. AMACR was identified as being overexpressed in prostate carcinoma cells when compared with benign or normal prostate epithelial cells [6]. The function of AMACR in prostate cancer has not been clarified yet. Several investigators have examined the mechanistic relationships between AMACR expression and hormone status. It has been reported that AMACR expression in hormone-sensitive cell lines and found its expression remained unchanged after exposure to antiandrogen drugs, suggesting that AMACR expression may not be directly regulated by the androgen pathway [36]. a-methylacyl-CoA racemase could not  affect the stabilization of androgen receptor or modulate the expression of the androgen receptor-targeted gene, it indicating that the expression of AMACR is independent of androgen receptor-mediated signaling [37]. But Suzue et al [38] analyzed patients who had received hormonal therapy and found that those with localized prostate carcinoma had significantly diminished levels of AMACR expression. However, the exact mechanism by which hormonal therapy influences the expression level of AMACR remains elusive. Further studies are needed to further explore the mechanisms.
Strengths of this study include its large sample size. Because of this, the geographic regions were distinguished in subgroupanalyses. However, our results are based on unadjusted estimates, some un-provided parameters known to be associated with prostate carcinogenesis, such as inherent nature, might substantially confound the presented results.

Conclusion
Meta-analysis of the comprehensive literature revealed that the AMACR expression was strongly associated with PCa risk in man from various regions. There was no varying between Caucasian and Asian man.

Supporting Information
Checklist S1 PRISMA checklist.