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Concordance of DNA Mismatch Repair Proteins in Primary Esophagogastric Adenocarcinomas and Distant Metastases

Article Information

Juliana Knief1*, Ekaterina Petrova2, Pamela Lazar-Karsten3, Ulrich Wellner2, Richard Hummel2, Christoph Thorns1

1Department of Pathology, Marienkrankenhaus Hamburg, Hamburg, Germany

2Department of Surgery, University Hospital of Schleswig-Holstein, Campus Luebeck, Luebeck, Germany

3Department of Pathology, University Hospital of Schleswig-Holstein, Campus Luebeck, Luebeck, Germany

*Corresponding Author: Juliana Knief, Department of Pathology, Marienkrankenhaus Hamburg, 22087 Hamburg, Germany

Received: 06 January 2020; Accepted: 14 January 2020; Published: 20 February 2020

Citation: Juliana Knief, Ekaterina Petrova, Pamela Lazar-Karsten, Ulrich Wellner, Richard Hummel, Christoph Thorns. Concordance of DNA Mismatch Repair Proteins in Primary Esophagogastric Adenocarcinomas and Distant Metastases. Journal of Surgery and Research 3 (2020): 013-019.

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Abstract

Introduction: Mismatch repair proteins (MMR) are commonly evaluated during routine workup in a variety of epithelial tumours. The incidence of deficiency in upper gastrointestinal carcinomas varies between 10-20%. In colorectal adenocarcinomas, mismatch repair protein expression shows high concordance between primary tumours and metastases but up to date no such data is available for esophagogastric adenocarcinomas.

Materials and Methods: 41 primary adenocarcinomas of the esophagogastric junction and matched distant metastases were analysed using immunohistochemistry with antibodies against MLH1 and MSH2. DNA mismatch repair status (deficient or proficient) was determined and correlated with clinical outcome.

Results: Concordance of mismatch repair status between primary tumours and metastases was relatively low (52.5%). No correlation with clinical features and no impact on overall survival could be demonstrated although mismatch repair protein proficiency showed a trend towards prolonged survival (p=0.097).

Conclusion: In contrast to colorectal carcinomas, concordance of MMR in esophagogastric carcinomas is low. Therefore, clinicians and pathologists alike should exercise caution when choosing tissue for immunohistochemical evaluation as these results might influence therapeutic procedures (i.e. the application of immune checkpoint inhibitors).

Keywords

Mismatch Repair Proteins, Metastases, Esophagogastric Adenocarcinoma, Biomarkers

Mismatch Repair Proteins articles, Metastases articles, Esophagogastric Adenocarcinoma articles, Biomarkers articles

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Article Details

1. Introduction

Mismatch repair proteins (MMR) have been extensively investigated, especially in colorectal carcinomas, with a reported incidence of mismatch repair protein deficiency (MMRd) between 10%-20% [1]. Additionally, deficient cases are commonly associated with improved clinical outcome although this effect cannot be demonstrated in all studies [2, 3]. Comparison between primary tumours in the colon and metastases has been attempted with most studies reporting high concordance rates of approximately 95% [4-6]. Additionally, MMRd tumours have been shown to be responsive to immune checkpoint therapies, thus providing a potential novel therapeutic strategy for those patients [7]. In upper gastrointestinal carcinomas data is scarce but the incidence of MMRd is comparable - recently we could show that 27.2% of analysed adenocarcinomas of the esophagogastric junction showed loss of MLH1 and/or MSH2 although no association with patients’ survival was identifiable [8, 9]. No studies addressing the possible differences between mismatch repair protein status in primary tumours and metastases exist for this entity. We therefore aimed to determine whether mismatch repair protein expression showed high concordance between primary tumours and metastases and whether MMR status was prognostic in metastatic disease. Additionally, our analyses might provide a rationale to identify patients who benefit from immune checkpoint inhibition therapy.

2. Materials and Methods

2.1 Selection of cases

Samples (formalin-fixed, paraffin-embedded tissue, FFPE) of 41 adenocarcinomas of the esophagogastric junction and matched distant metastases which had been surgically removed at the University Hospital Schleswig-Holstein, Campus Luebeck during 1992-2014 were analysed. The study was approved by the local Ethics Committee beforehand (reference 14-242A), follow-up data was available for all patients.

2.2 Construction of tissue Microarrays (TMAs)

In accordance with the manufacturer’s instructions, tissue microarrays were constructed using the manual QuickRay® kit (Unitma, Seoul, Korea). One representative core per primary tumour and metastasis (each 2mm in diameter) was dissected. Appropriate positive and negative controls were included.

2.3 Immunohistochemistry and its evaluation

Immunohistochemical studies were performed using a standard, three-step immunoperoxidase technique and the automated Menarini Bond Max System (Menarini Diagnostics, Berlin, Germany) with the following antibodies: MLH1 (Cell Marque, clone G168-728, dilution 1:50) and MSH2 (Cell Marque, Rocklin, California, USA, clone G219-1129, dilution 1:100). Nuclear staining was evaluated as being either negative/absent or positive/retained. DNA mismatch repair status was then calculated using both markers, showing mismatch repair proficiency (MMRp) when expression of both markers was retained or mismatch repair deficiency (MMRd) when expression of one or both markers was lost.

2.4 Statistics

Statistical analysis was conducted using SPSS Statistics version 22 (IBM, Ehringen, Germany). Survival differences, outcome and overall survival were analysed via Kaplan-Meier estimate (including Log rank-test). Correlation of expression differences in primary tumours and metastases was determined with Fisher’s exact-test, correlation with clinical parameters was assessed using Chi-square-test. A p-value < 0.05 was considered to be statistically significant.

3. Results

3.1 Clinical characteristics of the study population

41 patients were included, 36 patients were male (87.8%), 5 female (12.2%) with a median age of 56 years (ranging from 27 to 72 years. Most tumours were locally advanced with the majority (34 cases 82.9%) presenting with infiltration beyond the muscularis propria (pT3 and pT4). Lymph node metastases were common (33 cases; 80.4%) as well as lymphovascular invasion (28 cases; 68.3%). The most common metastatic sites were non-regional lymph nodes (7 cases; 17.1%), liver (6 cases; 14.6%), soft tissue (5 cases; 12.2%), bone, peritoneum and chest wall (4 cases each; 9.8%). Characteristics of the study group are summarized in Table 1.

3.2 MMR status in primary tumours and metastases

14 primary tumours (34.1%) showed loss of expression of either MLH1 or MSH2 (MMRd) while 27 cases showed nuclear staining for both markers (MMRp). Loss of MLH1 was observed in 8 carcinomas, while the remaining 6 tumours showed loss of both immunohistochemical markers. None of the cases were MSH2 negative alone. 15 metastases (36.6%) showed loss of one or both markers, being classified as MMRd, 25 showed retained expression (MMRp), 1 case was not evaluable. MLH1 expression alone was lost in 3 cases while 7 tumours showed absence of MSH2 staining. In the remaining 5 carcinomas expression of both markers was lost. Overall, 11 metastases showed a shift from MMRp to MMRd, while 8 showed MMR proficiency with the primary tumour classified as MMRd. In 21 cases MMR status was stable between primary tumour and metastasis (concordance rate 52.5%).

3.3 Correlation with clinical characteristics

Statistical analysis showed no significant correlation between mismatch repair protein status and various clinical features such as gender, pT- and pN-stage, lymphovascular invasion, perineural invasion and completeness of surgical resection (p-values 0.138-0.975). Characteristics of the study population are summarized in Table I.

3.4 Correlation with overall survival

Considering MMR status in primary tumours, overall survival was not different between MMRd and MMRp groups (p=0.826) with median survival times of 44.62 months +/- 17.56 months for MMRd tumors and 41.52 months +/- 9.97 months for MMRp tumors. Using MMR status of metastatic sites, overall survival was markedly better for MMRp cases, though not statistically significant (p=0.097). Median survival times were 21.92 months +/- 5.44 months for MMRd cases and 56.08 months +/- 13.82 months for MMRp cases. Appropriate survival curves are shown in Figure 1.

Characteristic

All cases

MMRp

MMRd

p-value

Total n

41

25

15

Gender

Male

36

22

13

0.902

Female

5

3

2

pT

(low) pT0

1

1

0

0.975

pT1a

0

0

0

pT1b

3

2

1

pT2

3

2

1

(high) pT3

29

17

11

pT4a

3

2

1

pT4b

2

1

1

pN

pN0

8

6

2

0.850

pN1

8

4

3

pN2

11

7

4

pN3

14

8

6

LVSI

Present

28

17

11

0.722

Absent

13

8

4

Perineural invasion

Present

13

6

7

0.138

Absent

28

19

8

Surgical resection

Complete

33

21

11

0.414

Incomplete

8

4

4

Table 1: Clinicopathologic characteristics of the study population according to MMR status in metastases.

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Figure 1: Kaplan Meier curves showing survival differences in primary tumors and metastases in relation to MMR status. Left: Assessment using MMR status in primary tumors (p=0.826). Right: Assessment in metastases (p= 0.097).

4. Conclusion

Reported incidences of mismatch repair protein deficiency vary but approximately 10-20% of colorectal carcinomas are MMRd-rates are comparable for upper gastrointestinal tract carcinomas [1, 3, 10]. In our study we could demonstrate incidence rates that were slightly higher, especially concerning tumours that metastasized: 34.1% of primary tumours and 36.6% of metastases showed loss of one or both mismatch repair proteins. Appropriately, in our cohort which consisted mainly of patients with advanced tumours (82.9% of patients initially presented with pT3- and pT4-stages) a clear, though not statistically significant, difference in overall survival could be seen when comparing MMRd and MMRp cases (p=0.097). Patients with retained expression of mismatch repair proteins had markedly prolonged survival with a median of 56.08 months while patients with MMR deficiency showed survival times of 21.92 months which contrasts reports stating that MMRd tumours often show a more favourable clinical course and prolonged survival [2, 3, 11]. However, when taking into consideration only primary tumours, survival times were almost equal between MMRd and MMRp cases (p=0.826). Correlation of MMR status and clinical features showed no statistically significant differences (p-values 0.138-0.975)-this is in line with prior studies concerning gastric carcinomas which demonstrated no association between MMR status and various clinicopathologic factors [11, 12].

Reported concordance rates concerning MMR status are almost always very high, in colorectal carcinomas concordance rates of approximately 95% are reported while no such data is available for gastric and esophagogastric carcinomas [5]. Interestingly, our study revealed a much lower concordance rate of 52.5% which is in stark contrast to earlier results in colon carcinomas. Nevertheless, a thorough literature research showed that for other biomarkers and other entities, reported discordance rates are much higher. Especially for gastric and esophagogastric carcinomas, several studies comparing primary tumours and metastases reported discordance rates of 20-50%, for instance analysing Her2, c-MET, p53 [13-16]. This is attributed to the fact that several large studies could demonstrate that esophagogastric adenocarcinomas are often heterogeneous in their biomarker expression between primary tumours and metastases and show discordances in up to 63% providing potential barriers to personalized medicine and precision therapies [17]. Therefore, our results underline the previously reported heterogeneity of biomarker expression in this entity and should caution clinicians and pathologists alike to select appropriate material for immunohistochemical testing.

In addition to its sometimes attributed prognostic value, assessment of mismatch repair protein expression in primary tumours and metastases carries therapeutic value as well as MMRd tumours show markedly better response to immune checkpoint therapies because of their high immunogenic potential with elevated levels of tumour-infiltrating lymphocytes and PD-L1 expression [18, 19]. Therefore, concerning esophagogastric carcinomas, it might be crucial to test not only tissue from primary tumours but also from metastatic sites to stratify patients according to their potential therapeutic response. Further analyses might elucidate the true biological value of changes in expression profiles between primary tumours and metastases and provide a rationale for testing in daily practice.

Conflicts of Interest

None.

Author Contributions

JK and PLK performed morphological and immunohistochemical studies, analyzed the data and wrote the manuscript. EP, UW and RH contributed cases and clinical data and revised the manuscript. CT designed the research, performed morphological studies and revised the manuscript. All authors read and approved the final version of the manuscript.

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