2020
DOI: 10.1002/path.5372
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Interpretation of somatic POLE mutations in endometrial carcinoma

Abstract: Pathogenic somatic missense mutations within the DNA polymerase epsilon (POLE) exonuclease domain define the important subtype of ultramutated tumours (‘POLE‐ultramutated’) within the novel molecular classification of endometrial carcinoma (EC). However, clinical implementation of this classifier requires systematic evaluation of the pathogenicity of POLE mutations. To address this, we examined base changes, tumour mutational burden (TMB), DNA microsatellite instability (MSI) status, POLE variant frequency, an… Show more

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Cited by 276 publications
(236 citation statements)
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“…Our initial cohort comprised 3518 tumours, 3353 being classified to a single molecular subtype. Of the remaining 167 tumours, 30 were classified as MMRd– POLE mut ECs and will be reported separately (León‐Castillo et al ), leaving 138 tumours (3.9%) that were assigned a provisional status of multiple‐classifier with abnormal p53 (mutant p53 expression by IHC or a mutation in TP53 ). Stringent quality control including central pathological review resulted in the exclusion of 35 of these ECs for the following reasons: (1) reassignment of p53 immunostaining from mutant to wild‐type pattern ( n = 27, 21 being initially evaluated using tissue microarrays); (2) non‐pathogenic POLE variant ( n = 3); and (3) lack of evidence of MMRd on IHC review ( n = 1) (Figure ).…”
Section: Resultsmentioning
confidence: 99%
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“…Our initial cohort comprised 3518 tumours, 3353 being classified to a single molecular subtype. Of the remaining 167 tumours, 30 were classified as MMRd– POLE mut ECs and will be reported separately (León‐Castillo et al ), leaving 138 tumours (3.9%) that were assigned a provisional status of multiple‐classifier with abnormal p53 (mutant p53 expression by IHC or a mutation in TP53 ). Stringent quality control including central pathological review resulted in the exclusion of 35 of these ECs for the following reasons: (1) reassignment of p53 immunostaining from mutant to wild‐type pattern ( n = 27, 21 being initially evaluated using tissue microarrays); (2) non‐pathogenic POLE variant ( n = 3); and (3) lack of evidence of MMRd on IHC review ( n = 1) (Figure ).…”
Section: Resultsmentioning
confidence: 99%
“…A larger number of these triple-classifier cases will be required to study the biological behaviour of these ECs. Until then, considering the results reported by León-Castillo et al [18] on MMRd-POLEmut ECs and the present study, we suggest that these triple-classifiers be classified as POLEmut ECs if they have a pathogenic POLE EDM based on whole-exome sequencing (WES) data or, in the case of absence of WES data, if the POLE EDM corresponds to one of the 11 pathogenic mutations described by León-Castillo et al [18]. In tumours in which the triple-classifier ECs carry a POLE EDM that does not comply with the previous criteria, we recommend that they be classified as MMRd ECs, as discussed in depth by León-Castillo et al [18].…”
Section: Clinical Outcome Of Multiple-classifier Ecs Versus Single-clmentioning
confidence: 99%
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“…Results of the central reference laboratory p53 IHC were compared with results of TP53 mutation status for all cases and after removal of POLE mut and MMRd tumours . Binary analysis was carried out to assess concordance between p53 IHC and TP53 mutation by combining overexpression, complete absence and cytoplasmic patterns into a single abnormal/mutant (p53abn) score.…”
Section: Methodsmentioning
confidence: 99%
“…In order to translate this system into clinical practice, the ProMisE decision-tree and the TransPORTEC classifications emerged, mainly based on the assessment of three surrogate biomarker tests: (i) POLE sequencing; (ii) immunohistochemistry of mismatch repair proteins (MMR-IHQ); (iii) immunohistochemistry of the p53 protein [17][18][19]. These surrogate biomarkers categorize most ECs according to their molecular classification, but the method is limited by (i) systematic evaluation of the pathogenicity of POLE mutations is required [20]; (ii) p53 immunohistochemistry does not perfectly correlate with TP53 copy-number alterations; (iii) tumors harboring more than one classifying genomic aberration are difficult to classify; (iv) the algorithms do not include the evaluation of the significant heterogeneity seen in the copy-number-low group [21]. Despite these limitations, the scientific and clinical community supports incorporating the TCGA molecular classification in daily clinical practice for classifying EC patients.…”
Section: Risk Stratification Systemsmentioning
confidence: 99%