To investigate the expression of Golgi phosphoprotein-3 (GOLPH3) in prostate cancer and determine its prognostic value.
Methods
Immunohistochemical staining for GOLPH3 was performed on tissue microarrays of 342 prostate patients. The correlation between GOLPH3 expression with its clinicopathologic factors was also analyzed in order to determine its prognostic significance.
Results
GOLPH3 expression of normal prostate tissues, benign prostate hyperplasia, high-grade prostatic intraepithelial neoplasia, and hormone-dependent prostate cancer (HDPC) did not show any statistically significant difference. In contrast, statistically significant difference was reported in moderate/intense GOLPH3 expression in cases diagnosed with HDPC and castration resistant prostate cancer (CRPC) (P < 0.0005). Moderate /intense expression of GOLPH3 was associated with androgen independence (P = 0.012), higher Gleason score (P = 0.017), bone metastasis (P = 0.024), higher baseline prostate-specific antigen (PSA) (P = 0.038), and higher PSA nadir (P = 0.032). A significantly negative correlation was found between moderate/intense GOLPH3 expression and disease-free survival (DFS) (HR = 0.28, P = 0.012) and overall survival (OS) (HR = 0.42, P = 0.027). Univariated analysis indicated that moderate/intense GOLPH3 expression created a significantly prognostic impact in patients with CRPC. On the other hand, multivariate analysis indicated that GOLPH3 was a significantly independent prognostic factor of DFS (P = 0.027) in all prostate cancer patients.
Conclusions
In this study, it was discovered that the overexpression of GOLPH3 is associated with the transition of prostate cancer from hormone sensitive phase to hormone refractory phase. GOLPH3 might be an important prognostic factor of DFS and OS in patients with prostate cancer. In totality, GOLPH3 could be used as a novel candidate in devising a more effective therapeutic strategy to tackle CRPC.
The online version of this article (doi:10.1186/1746-1596-7-127) contains supplementary material, which is available to authorized users.
Xing Hua, Lina Yu contributed equally to this work.
Competing interest
The authors declare no conflict of interest.
Authors’ contributions
XH, LNY and HS participated in the design of the study. XH wrote the manuscript. XXH and QX carried out the H&E and IHC staining. WHP and LF collected the clinical data and reviewed H&E and IHC slides. ZXL performed the statistical analysis. All authors read and approved the final manuscript.
Background
Prostate cancer is a major public health problem. According to reported estimates, prostate cancer is regarded as the second most common malignancy among men residing in the European Union and North America. In recent years, the morbidity rate of prostate cancer has been increasing steadily in China. For example, the annual morbidity rate of prostate cancer has increased by 14% since 1990. In contrast, the annual morbidity rate was quite stable in the 1970s and 1980s [1].
Most cases of prostate cancer are responsive to androgen ablation therapy in the initial stages. However, many tumors eventually become androgen-refractory. Thus, these tumors become resistant to hormonal therapy with the passage of time. Eventually, metastatic phenotypes proliferate in patients suffering from prostate cancer [2]. We have not been successful in devising an effective therapeutic approach to tackle cases of castration resistant prostate cancer (CRPC). In fact, few biomarkers are capable of reasonably distinguishing aggressive and non-aggressive tumors after diagnosis. In other words, biomarkers with greater sensitivity and specificity can provide evidences for the diagnosis and prognosis of CRPC [3, 4].
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Golgi phosphoprotein-3 (GOLPH3) has several alternative names, such as GPP34, GMx33, MIDAS, and yeast Vps74p. It is a member of the trans-Golgi matrix family and binds to PtdIns(4)P-rich trans-Golgi membranes and MYO18A. This indicates that a tensile force is required for efficient tubule and vesicle formation [5, 6]. Recently, several evidences suggest that GOLPH3 is an oncogene, representing a first-in-class Golgi oncoprotein. GOLPH3, a novel oncogene, is commonly targeted for amplification in human cancer. Note that, an enhanced activation of mTOR signaling represents a molecular basis of GOLPH3’s oncogenic activity [7, 8]. However, research studies have seldom studied the correlation between GOLPH3 expression and prognosis of Chinese patients with prostate cancer. In fact, very few studies have explored the transition from hormone-sensitive prostate cancer to CRPC. Taking this fact into consideration, we performed immunohistochemical assay to evaluate the expression of GOLPH3 in definite tissues. We also carried out retrospective follow-up analysis to explore the correlation between GOLPH3 expression and clinicopathologic factors associated with the prognosis of Chinese patients with prostate cancer.
Materials and methods
We used the surgical prostate cancer database to retrospectively evaluate 342 patients. In the period extending from October 2002 to December 2009, these patients had undergone prostatectomy, transrectal prostate biopsy under ultrasound guidance, or transurethral resection of the prostate. Among the 342 patients, 139 (36.48%) suffered from hormone-dependent prostate cancer (HDPC). On the other hand, 102 (26.77%) patients were diagnosed with CRPC. 61 (16.01%) cases were diagnosed with high-grade prostatic intraepithelial neoplasia (HGPIN). 20 (5.25%) patients were diagnosed with benign prostate hyperplasia (BPH), while 20 (5.25%) cases were normal prostate tissue subjected to pancystectomy. All the specimens were fixed with formalin and embedded in paraffin. All the slides were blindly reviewed by five pathologists, and a consensus diagnosis was reached.
Clinical data, including Gleason score, baseline prostate-specific antigen (PSA), prostate-specific antigen nadir, bone metastasis, and follow-up status, were retrospectively obtained from Hospital Medical Records Room. On the other hand, paraffin-embedded prostate tissues were obtained from the Department of Pathology, the Fourth Affiliated Hospital of Jinan University, Guangzhou, China. The data analysis was approved by our hospital review board.
Tissue microarrays were constructed according to the previously described procedure [9]. Briefly, representative areas of prostate tissue from each of the 342 cases were identified on the corresponding slides stained with hematoxylin and eosin. Tissue cylinders with 1 mm diameter were punched from each donor tissue block so that they could penetrate into a recipient paraffin block. A tissue microarrayer was used in this procedure. The recipient paraffin block was subsequently cut, and the slices were transferred onto coated slides using adhesive tape. Then, the slides were dipped in paraffin to prevent oxidation. With the objective of minimizing tissue loss and problems associated with tumor heterogeneity, every sample was arrayed in triplicates.
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To determine the immunohistochemistry of these tissues, tissue microarray sections were stained and GOLPH3 expression was determined according to the procedure described in previous studies [10]. In summary, the primary antibody was raised against GOLPH3 (ProteinTech Group, Inc.; Cat#:19112-1-AP; 1:100 dilution). Staining for GOLPH3 was reckoned as positive provided cytoplasmic staining was observed in more than 10% of definite cells. In cases of positive staining, the intensity of stain were recorded as either weak (1+), moderate (2+), or intense (3+).
Statistical analysis was performed using SPSS16.0 software. Chi-square test was used to investigate the significance of the relationship between GOLPH3 and the individual variables. The relationship between GOLPH3 expression and their clinical outcomes was estimated through both univariate and multivariate analyses. The disease-free survival (DFS) and overall survival (OS) curves were estimated using the Kaplan Meier method, while the differences in the survival curves were compared using the log-rank test. A multivariate analysis was performed using Cox’s regression model. P values ≤0.05 were of statistical significance.
Results
In the 342 cases investigated in this study, distinct immunohistochemical staining (negative, 1+, 2+, or 3+) of GOLPH3 was reported (Figure 1). The association of the immunophenotype of GOLPH3 with various clinicopathological parameters has been enlisted in Table 1.
×
Table 1
Clinicopathologic characteristics of patients according to GOLPH3 status
Characteristics
Intensity of GOLPH3 expression
NNegative
%
Positive
Weak (1+)
%
Intense/moderate(2+/3+)
%
P-value
Number
8
2.34
239
69.88
95
27.78
—
Age,year
≤60
2
4.35
37
80.43
7
15.22
0.204
>60
11
3.72
198
66.89
87
29.39
Gleason score
<0.001
Gleason 2-6
5
15.15
21
63.64
7
21.21
Gleason 7
3
2.29
109
83.21
19
14.50
Gleason 8-10
4
5.20
22
28.57
51
66.23
PC
CRPC
4
3.92
15
14.71
83
81.37
<0.0005
HDPC
5
3.60
119
85.61
15
10.79
HGPIN and Nor
BPH
0
0
19
95.00
1
5.00
0.970
HGPIN
1
1.64
57
93.44
3
4.92
Normal tissue
1
5.00
18
90.00
1
5.00
As shown in Table 1, 18 (90%) out of 20 cases of normal prostate tissue, 19 (95%) out of 20 cases of BPH, and 56 (92%) out of 61 cases of HGPIN showed weak (1+) expression of GOLPH3. There were no statistically significant differences in GOLPH3 expression of BPH, normal prostate tissues, or HGPIN. 83 (81.37%) of 102 CRPC cases showed moderate/intense expression for GOLPH3, whereas 15 (14.71%) cases were detected with weak expression. On the other hand, 4 (3.92%) cases showed negative results for GOLPH3 expression. 15 (10.79%) of 139 HDPC cases showed moderate/intense expression of GOLPH3, while 119 (85.61%) reported weak expression. In contrast, 5 (3.60%) cases were tested negative for GOLPH3 expression. Moreover, moderate/intense expression of GOLPH3 was found in 3 (4.92%) of 61 HGPIN, 1 (5%) of 20 BPH cases, and 1 (5%) of 20 normal prostate tissue. There were statistically significant differences in GOLPH3 expression (moderate/intense) of CRPC and HDPC (P < 0.0005). In contrast, there was no statistical difference in GOLPH3 expression (moderate/intense) of HDPC and HGPIN, BPH, and normal prostate tissue. Moderate/intense expression of GOLPH3 was reported in CRPC cases (P = 0.012). As shown in Table 2, CRPC cases also reported higher Gleason score (P = 0.017), bone metastasis (P = 0.024), higher baseline PSA (P = 0.038), and higher PSA nadir (P = 0.032) .
Table 2
Correlationship between clinicopathologic characteristics of patients and intensity of GOLPH3 expression
Characteristics
Intensity of GOLPH3 expression
P value
C value
Androgen dependence
0.012
0.144
Yes
No
Gleasone Score
0.017
0.421
Gleason 2-6
Gleason 7
Gleason 8-10
Bone metastasis
0.024
0.398
Yes
No
Baseline PSA
0.038
0.181
≤10ng/ml
>10ng/ml
PSA nadir
0.032
0.312
≤1ng/ml
>1ng/ml
According to statistical research reports of June 2010, the average follow-up time was 38.5 months (range, 10–91 months). Among the 241 patients with prostate cancer, 44 (18.26%) were lost to follow-up and 31 (12.86%) succumbed to death. In the five-year period, the DFS and OS rates were 68.2 and 71.6%, respectively. All the 241 prostate cancer patients were examined to determine their GOLPH3 status. In the five-year period, the DFS rates of patients with moderate/intense GOLPH3 expression was 43.1%. On the other hand, DFS rates for patients with weak GOLPH3 expression was 87.2% during the five-year study period. The overall survival rate of patients with moderate/intense GOLPH3 expression was 45.4%. But, the overall survival rate of patients with weak GOLPH3 expression was 89.3%. Compared to patients with moderate/intense GOLPH3 expression, patients with weak GOLPH3 expression had a significant longer DFS (HR = 0.28, P = 0.012) and OS (HR = 0.42, P = 0.027; data not shown) (Figure 2).
×
Table 3 enlists the statistically significant predictors of DFS within the univariate analysis. Higher Gleason score, higher prostate-specific antigen nadir, positive bone metastasis, and moderate/intense positive GOLPH3 expression were the parameters that were correlated with shorter DFS. Compared to patients with intense or moderate GOLPH3 expression, the patients whose tumor cells showed weak expression of GOLPH3 had significantly better outcomes in terms of DFS (P<0.001). In the multivariate analysis, moderate/intense GOLPH3 expression continued to be a significant predictor of DFS while simulating a model containing all the clinicopathologic variables (P = 0.027; Table 3).
Table 3
Univariate and multivariate analyses of disease-free survival in prostate patients
Variables
Univariate
Multivariate
HR
95%CI
P value
HR
95%CI
P value
Age,year (≤60 vs>60)
0.87
0.51―1.46
0.238
0.81
0.46―1.61
0.312
Gleasone Score (2–6 vs 7 or 8–10)
4.37
2.64―5.81
<0.001
5.04
3.61―6.47
<0.001
Bone metastasis (Yes vs No)
5.56
3.67―7.02
<0.001
5.44
3.46―7.11
<0.001
Baseline PSA (≤10 vs>10ng/ml)
3.24
1.89―4.51
<0.001
3.03
1.94―5.74
<0.001
PSA nadir (≤1 vs 1ng/ml)
4.21
2.97―5.84
<0.001
4.76
3.43―6.56
<0.001
Androgen dependence (Yes vs No)
0.64
0.37―1.53
<0.001
0.71
0.44―1.49
<0.001
GOLPH3 (++/+++ vs +)
0.45
0.34―0.69
0.004
0.54
0.41―0.69
0.027
Discussion
Prostate cancer is a serious illness that continues to present several different challenges to the urologists, pathologists, radiologists and oncologists [11]. In recent times, the incidence rate of prostate cancer has been steadily increasing in China. Prostate cancer is the most common non-dermatologic cancer. Despite the high incidence rate of prostate cancer, its clinical course of treatment is often unpredictable [12, 13]. While treating prostate cancer at an advanced stage, patients are subjected to surgical or pharmacological castration. This is the most widely accepted method of treating prostate cancer at an advanced stage. However, the prostate tumor becomes hormone refractory after a period of 14 to 36 months. As the prostate tumor undergoes a transition from the hormone refractory stage to metastatic stage, it poses severe problems in clinical management [14]. Gleason score [15], PSA [16, 17], clinical stage, and prostate volume are crucial parameters that need to be considered in the treatment of prostate cancer. Gleason score is an important prognostic factor for predicting biochemical failure, systemic recurrence, and overall patient survival [18]. However, there may be variations in comprehending the Gleason score among pathologists [19]. Note that, elevated levels of PSA can also be associated with BPH and prostatitis [20]. Therefore, these biomarkers seem inadequate to precisely determine the possibility of recurrence or metastasis. Therefore, the underlying molecular mechanisms of prostate carcinogenesis should be further investigated and elucidated. These efforts will help us in finding a reliable biomarker that can help us in improving the evaluation and prognosis of patients with CRPC [21].
In this study, GOLPH3 expression was detected in most benign and malignant tissues. It is interesting to note that 98 (40.66%) of 241 prostate cancer showed GOLPH3 moderate/intense expression. This result confirmed the findings of previous studies that reported an over expression of GOLPH3 in 37% of prostate cancer cases [7].
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Progression to androgen-independence is a complex process involving various combinations of clonal selection [22], adaptive up-regulation of anti-apoptotic genes [23‐25], androgen receptor transactivation in the absence of androgen or increased levels of coactivators [26, 27], and alternative growth factor pathways [27, 28]. According to this study, no statistically significant difference was found in GOLPH3 expression of normal prostate tissue, BPH, and HDPC. In contrast, there was a statistical difference in GOLPH3 expression of CRPC and HDPC cases (p<0.0005). These findings suggested that the oncogene GOLPH3 was highly conserved throughout evolution. In fact, GOLPH3 was strictly regulated in normal tissues, since it was essential for normal cell growth. Furthermore, these data suggest the possibility of associating the over-expression of GOLPH3 with the progression of prostate cancer. This probability is more pronounced in the transition from hormone-sensitive to hormone-refractory tumors. But, we cannot decipher the correlation of GOLPH3 expression with cellular hyperproliferation and tumorigenesis, especially during the early stages of prostate cancer development.
mTOR is a serine/threonine protein kinase, which is found in both rapamycin-sensitive and rapamycin-insensitive multimeric protein complexes. To regulate cell growth, cell-cycle progression, and cell differentiation, mTOR functions as a central signal integrator that receives signals from growth factors, nutrients, and cellular energy metabolism [29, 30]. Therefore, mTOR is recognized as a central coordinator of these fundamental biological processes [31‐33]. Note that, mTOR is an evolutionarily conserved protein kinase. Recent studies have reproted that GOLPH3 works as an oncoprotein promoting cell transformation and tumor growth by enhancing the activity of mTOR [7]. Since mTOR is required for cell differentiation, hyperactivation of mTOR may be associated with abnormal cell differentiation. In conclusion, an overexpression of GOLPH3 causes an abnormal differentiation of prostate cancer cells, thereby creating heterogeneity of tumor cells. New subclones with altered growth properties proliferate owing to this trait of heterogeneity. In fact, the transition from hormone-sensitive to hormone-refractory tumors can be probably attributed to this molecular mechanism.
In this research study, it was found that the incidence of Gleason score, PSA nadir, baseline PSA, and positive bone metastasis was higher in patients detected with moderate/intense GOLPH3 expression. In our study, we also demonstrated that GOLPH3 over-expression was significantly associated with a shorter DFS and OS. Multivariate analysis revealed a significant negative relationship between the over expression of GOLPH3 and DFS or OS. Therefore, we can conclude that GOLPH3 serves as a biomarker for predicting the severity of prostate cancer. GOLPH3 expression is an important parameter used in the prognosis of prostate cancer patients.
In this research study, we have discovered that GOLPH3 expression does not have any correlation with cellular hyperproliferation and tumorigenesis, particularly in the early stages of prostate cancer. On the other hand, over-expression of GOLPH3 could be correlated with the progression of prostate cancer from its hormone sensitive phase to hormone refractory phase. Furthermore, GOLPH3 might be a favorable prognostic factor of DFS and OS in patients diagnosed with prostate cancer. In this way, GOLPH3 expression serves as a reliable prognostic marker. In fact, determining the expression of GOLPH3 might also help in further elucidating the risk of progression of prostate cancer in patients. In conclusion, GOLPH3 can be a novel candidate for the development of an effective therapeutic strategy for CRPC.
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Acknowledgements
This work was supported by grants from the Science and technology projects of Guangdong Science and Technology Department(No. 2011B061200021)and the Medical Research Foundation of Guangdong Province (No. B2010271).
Open Access
This article is published under license to BioMed Central Ltd. This is an Open Access article is distributed under the terms of the Creative Commons Attribution License (
https://creativecommons.org/licenses/by/2.0
), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Competing interest
The authors declare no conflict of interest.
Authors’ contributions
XH, LNY and HS participated in the design of the study. XH wrote the manuscript. XXH and QX carried out the H&E and IHC staining. WHP and LF collected the clinical data and reviewed H&E and IHC slides. ZXL performed the statistical analysis. All authors read and approved the final manuscript.
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