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Prognostic utility of epidermal growth factor receptor (EGFR) expression in prostatic acinar adenocarcinoma

Abstract

Background

Epidermal growth factor receptor (EGFR) is potential prognostic biomarker expressed in many human cancers. Prognostic significance of EGFR immunohistochemical expression has not been established in prostatic acinar adenocarcinoma, therefore we aimed to evaluate the frequency of expression of EGFR in prostatic adenocarcinoma and its association with other prognostic parameters.

Methods

The study included 123 cases of biopsy proven prostatic acinar adenocarcinoma treated at Liaquat National hospital, Karachi from January 2013 till December 2017. Paraffin blocks of all cases were retrieved; sections were cut and stained with haematoxylin and eosin. Pathologic characteristics including tumor quantification, WHO grade group, gleason score, perineural and lymphovascular invasion were evaluated. EGFR immunohistochemistry (IHC) was performed on all tissue blocks.

Results

Mean age of the patients included in the study was 69.05 ± 8.68 years. High gleason scores i.e. 8 & 9 were noted in 22% (27 cases) and 22.8% (28 cases) respectively. Similarly, 22.8% (28 cases) showed WHO grade group 5. 52.8% (65 cases) had > 50% tissue involvement by carcinoma and perineural invasion was seen in 37.4% (46 cases). Positive EGFR expression was noted in 18.7% (23 cases), while 81.3% (100 cases) showed negative EGFR expression. Significant association of EGFR expression was noted with gleason score (p-value = < 0.001), WHO grade (p = < 0.001), tumor quantification (p = 0.007) and perineural invasion (p = < 0.001). Moreover, significant association of EGFR expression was also seen with disease recurrence and Her2neu over expression. Patients with low gleason scores (score 6 and 7) and lower grade group (1, 2 & 3) were less likely to have positive EGFR expression as compared to patients with high gleason score (score 9) and higher grade group (5). Similarly, patients with perineural invasion were more likely to have positive EGFR expression.

Conclusion

We found a relatively low EGFR expression in our patients with prostatic adenocarcinoma; however, its association with poor prognostic parameters like high gleason score, higher grade group, perineural invasion, higher tissue involvement by cancer and disease recurrence signifies its importance as a prognostic parameter in prostatic acinar adenocarcinoma.

Introduction

Prostatic adenocarcinoma is one of the most common malignancies in males. Age standardized incidence of prostatic cancer in United States is 124.8/10,000. Prevalence of prostatic cancer in age group 61–70 years is 65%, while its 83% in age group 71–80 years [1]. The most common histologic subtype of prostatic cancer is acinar adenocarcinoma which arises from prostatic acini. The major prognostic parameters of prostatic acinar adenocarcinoma include gleason score, percentage of tissue involvement by cancer (tumor quantification) and perineural invasion [2, 3]. Epidermal growth factor receptor (EGFR) is a proto-oncogene which is overexpressed in many human cancers and serves as a prognostic biomarker and therapeutic target [4,5,6]. However, prognostic significance of EGFR immunohistochemical expression (IHC) has not been established in prostatic acinar adenocarcinoma, therefore we aimed to evaluate the frequency of expression of EGFR in prostatic adenocarcinoma and its association with other prognostic parameters.

Methods

Patients & methods

The study included 123 cases of biopsy proven prostatic acinar adenocarcinoma treated at Liaquat National hospital, Karachi. The duration of study was 5 years from January 2013 till December 2017. The approval of the study was taken from research and ethical review committee of Liaquat National Hospital. Informed written consent was taken from all patients that underwent surgery. Paraffin blocks of all cases were retrieved; sections were cut and stained with haematoxylin and eosin. Slides of all cases were reviewed by two senior histopathologists and findings were recorded. Pathologic characteristics including tumor quantification, WHO grade group, gleason score, perineural and lymphovascular invasion were evaluated. Specimens included prostatic chips and radical prostatectomies. Hospital records of all patients were reviewed to determine recurrence and disease free survival. EGFR immunohistochemistry (IHC) was performed on all tissue blocks.

Immunohistochemistry

DAKO EnVision method was used for EGFR IHC utilizing DAKO Monoclonal Mouse Anti-human Epidermal growth factor Receptor (EGFR), clone H11 according to manufacturers protocol. Both membranous and cytoplasmic staining for EGFR was assessed and recorded. Intensity of staining was scored as follows,

No staining (0),

Weak staining (1+): weak barely perceptible staining of membranes and weak cytoplasmic staining,

Intermediate staining (2+): Moderate staining of membranes easily appreciable on low power (40X) with moderate cytoplamic staining,

Strong staining (3+): Strong/ dense staining of membranes with moderate to strong cytoplasmic expression.

Percentage of positively stained cells was scored (ranging from 0 to 100%).

Moderate to strong staining in more than 10% cells was considered positive for EGFR expression (Fig. 1). Moreover, intensity score was multiplied with percentage of positively stained cells to calculate and overall IHC score ranging from 0 to 300.

Fig. 1
figure 1

EGFR expression in prostatic acinar adenocarcinoma, a) Negative EGFR 400X expression, IHC score 0, b) Positive EGFR expression, 400X Intensity score 2+ (moderate), 70% of tumor cells showing positive EGFR expression, IHC score = 70 X 2 = 140

Her2neu IHC was performed on representative tissue blocks using Polyclonal Rabbit Anti-human c-erbB-2 oncoprotein by DAKO envision method and interpreted according CAP/ASCO guidelines. Membranous reactivity of Her2neu was scored into 0 (negative), 1+ (weak), 2+ (equivocal) and 3+ (strong) according CAP guidelines of reporting Her2neu in breast cancer. 0 and 1+ staining was taken as negative. 3+ staining were taken as positive. For 2+ (equivocal) cases Fluorescent insitu hybridization (FISH) testing was done using FDA approved Path Vysion Her2 DNA Probe kit and results were interpreted according to CAP guidelines. Results were recorded as negative (not amplified) or positive (amplified) according to ASCO/CAP recommendations [7].

Statistical analysis

We used statistical package for social sciences (SPSS 21) for data compilation and analysis. For quantitative variables we calculated mean and standard deviation, while frequency and percentage were assessed for qualitative variables. Independent t-test and ANOVA were used to compare mean difference. Chi square test and Fisher exact test was applied to determine association. Odds ratios were calculated by univariate binary logistic regression for significant variables. Survival curves were plotted using Kaplan-Meier method. P-value of ≤0.05 was taken as significant.

Results

Mean age of the patients included in the study was 69.05 ± 8.68 years. Mean follow up time was 21.67 + 12.56 months. High gleason scores i.e. 8 & 9 were noted in 22% (27 cases) and 22.8% (28 cases) respectively. Similarly, 22.8% (28 cases) showed WHO grade group 5. 52.8% (65 cases) had > 50% tissue involvement by carcinoma and perineural invasion was seen in 37.4% (46 cases). 14.6%(18 cases) were those of radical prostatectomy specimens while 85.4% (105 cases) while transuretheral resections (TURP). Recurrence of the disease was noted in 26.8% cases. Her2neu expression was noted in 28.2% cases. Patient characteristics are shown in Table 1.

Table 1 Clinicopathologic characteristics of studied population (n = 123)

EGFR expression in prostatic carcinoma

Positive EGFR expression was noted in 18.7% (23 cases), while 81.3% (100 cases) showed negative EGFR expression. Significant association of EGFR expression was noted with gleason score (p-value = < 0.001), WHO grade (p = < 0.001), tumor quantification (p = 0.007), perineural invasion (p = < 0.001) and disease recurrence (p = < 0.001) as shown in Table 2.

Table 2 Association of EGFR expression with clinicopathologic parameters in prostatic acinar adenocarcinoma

Patients with low gleason scores (score 6 and 7) and lower grade group (1, 2 & 3) were less likely to have positive EGFR expression as compared to patients with high gleason score (score 9) and higher grade group (5). Similarly, patients with perineural invasion and disease recurrence were more likely to have positive EGFR expression (Table 3).

Table 3 Odds ratio for patients with positive EGFR expression

Table 4 shows comparison of mean IHC scores with various clinicopathological parameters and reveals significantly increased IHC scores in cases with gleason score 9 / grade group 5 and cases showing perineural invasion.

Table 4 Comparison of mean EGFR IHC scores with clinicopathologic parameters

Similar to EGFR, Her2neu expression also showed significant association with poor prognostic factors like tumor grade, tumor quantification and disease recurrence. Moreover, Her2neu expression was also found to be associated with EGFR expression as shown in Table 5.

Table 5 Association of Her2 neu expression with clinicopathologic parameters in prostatic acinar adenocarcinoma

Significant association of both EGFR and Her2neu expression was seen with disease free survival (Figs. 2 and 3).

Fig. 2
figure 2

Kaplan-Meier of Recurrence for EGFR expression (disease-free survival)

Fig. 3
figure 3

Kaplan-Meier of Recurrence for Her2 neu expression (disease-free survival)

Discussion

In the present study, we found an overall low EGFR expression in prostatic acinar adenocarcinoma in our patient population i.e. 18.7%. On the other hand, significant association of EGFR overexpression was noted with poor prognostic parameters like higher gleason score, perineural invasion and higher tissue involvement by carcinoma which are major prognostic factors in prostatic carcinoma. Moreover, significant association of EGFR expression was noted with disease recurrence and Her2neu expression. To our knowledge, this is the first study evaluating EGFR expression in prostatic carcinoma in Pakistani patients and overall data regarding EGFR expression in prostatic carcinoma is limited connoting the importance of the present study.

Evaluation of EGFR overexpression in prostatic carcinoma and its role as prognostic biomarker has been evaluated in previous studies [8,9,10,11]. Lorenzo GD et al., found EGFR expression in 41.4 and 75.9% of non-metastatic prostatic carcinoma treated with radical prostatectomy and hormonal therapy followed by radical prostatectomy respectively. They found EGFR expression to be associated with high gleason score, high serum PSA and higher frequency of disease relapse and progression to androgen independence, thus proving an immense prognostic significance of EGFR expression in prostatic carcinoma [12]. Similarly, in another study EGFR was significantly correlated with high serum PSA levels, extraprostatic extension, seminal vesicle invasion and disease recurrence [13]. On the other hand, Back KH et al., found 40.9% EGFR expression in prostatic carcinoma and they didn’t find any significant association of EGFR expression with other clinicopathologic parameters except its inverse correlation with androgen receptor expression [14]. In contrast to these studies, we found a relatively low EGFR expression in our patients with prostatic adenocarcinoma; however, its association with gleason score, perineural invasion and higher tissue involvement signifies its importance as a prognostic biomarker in prostatic carcinoma. Moreover, we found a significant association of EGFR expression with worse disease free survival and recurrence.

The major limitation of the study was that we did not perform molecular studies to establish an association of positive IHC expression with molecular abnormalities and gene amplifications. Identification of underlying gene amplification may also help in identifying patients that can benefit from anti-EGFR therapy. Despite these limitations, the results of our study signify the prognostic utility of EGFR expression in prostatic acinar adenocarcinoma.

The overall expression of EGFR in prostatic carcinoma found in our study was low as explained earlier compared to the international data. This may be due to different cancer characteristics and underlying gene mutations in our population. Another explanation for this discordance may be difference in IHC interpretation in different studies. As many authors, didn’t incorporated the intensity of EGFR expression to evaluate IHC score and different cut offs were taken to define positive EGFR expression. Therefore, we suggest that IHC scores should be correlated with gene amplification to define a standard cut-off for positive EGFR IHC expression. On the other hand, the role of EGFR as a prognostic biomarker can’t be underestimated as we found a strong association of EGFR expression with prognostic parameters supported by international data.

Although, overall expression of EGFR in prostatic adenocarcinoma was low in our study, but its association with high grade and poor prognostic features signifies its importance in those patients not being benefited by conventional therapeutic regimens. Earlier studies also revealed association of EGFR expression with androgen receptor independence nullifying the role of anti-androgen therapy in these patients. Clinical trials involving the use of specific therapies are complex in design and require restricted ethical care [15, 16]. Therefore, role of these new therapeutic options like anti-EGFR therapy should be evaluated in patients with prostatic carcinomas of high histological grades (Gleason and WHO) that are outside the current therapeutic possibilities.

Conclusion

We found a relatively low EGFR expression in our patients with prostatic adenocarcinoma; however, its association with poor prognostic parameters likes high gleason score, higher grade group, perineural invasion, higher tissue involvement by cancer and poor disease free survival signifies its importance as a prognostic parameter in prostatic acinar adenocarcinoma.

Abbreviations

EGFR:

Epidermal growth factor receptor

IHC:

Immunohistochemistry

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Acknowledgments

We gratefully acknowledge all staff members of Pathology, Liaquat National Hospital, Karachi, Pakistan for their help and cooperation.

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Please contact first author (Atif Ali Hashmi) for data requests.

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Contributions

AAH, SKH and MI: main author of manuscript, have made substantial contributions to conception and design of study. HA, LN, MN, EYK, SB and NF: been involved in drafting the manuscript, revising it critically for important intellectual content. HA, LN, MN, EYK, SB and NF: have been involved in analysis of the data and gave final approval and revision of the manuscript. All authors read and approved the final manuscript.

Corresponding author

Correspondence to Atif Ali hashmi.

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Ethics approval and consent to participate

Ethics committee of Liaquat National Hospital, Karachi, Pakistan approved the study. Written informed consent was obtained from the patients for the participation.

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hashmi, A.A., Hashmi, S.K., Irfan, M. et al. Prognostic utility of epidermal growth factor receptor (EGFR) expression in prostatic acinar adenocarcinoma. Appl Cancer Res 39, 2 (2019). https://0-doi-org.brum.beds.ac.uk/10.1186/s41241-018-0069-5

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