Cheng-Han Lee

Recurrent Somatic DICER1 Mutations in Nonepithelial Ovarian Cancers

BACKGROUNDnGermline truncating mutations in DICER1, an endoribonuclease in the RNase III family that is essential for processing microRNAs, have been observed in families with the pleuropulmonary blastoma-family tumor and dysplasia syndrome. Mutation carriers are at risk for nonepithelial ovarian tumors, notably sex cord-stromal tumors.nnnMETHODSnWe sequenced the whole transcriptomes or exomes of 14 nonepithelial ovarian tumors and noted closely clustered mutations in the region of DICER1 encoding the RNase IIIb domain of DICER1 in four samples. We then sequenced this region of DICER1 in additional ovarian tumors and in certain other tumors and queried the effect of the mutations on the enzymatic activity of DICER1 using in vitro RNA cleavage assays.nnnRESULTSnDICER1 mutations in the RNase IIIb domain were found in 30 of 102 nonepithelial ovarian tumors (29%), predominantly in Sertoli-Leydig cell tumors (26 of 43, or 60%), including 4 tumors with additional germline DICER1 mutations. These mutations were restricted to codons encoding metal-binding sites within the RNase IIIb catalytic centers, which are critical for microRNA interaction and cleavage, and were somatic in all 16 samples in which germline DNA was available for testing. We also detected mutations in 1 of 14 nonseminomatous testicular germ-cell tumors, in 2 of 5 embryonal rhabdomyosarcomas, and in 1 of 266 epithelial ovarian and endometrial carcinomas. The mutant DICER1 proteins had reduced RNase IIIb activity but retained RNase IIIa activity.nnnCONCLUSIONSnSomatic missense mutations affecting the RNase IIIb domain of DICER1 are common in nonepithelial ovarian tumors. These mutations do not obliterate DICER1 function but alter it in specific cell types, a novel mechanism through which perturbation of microRNA processing may be oncogenic. (Funded by the Terry Fox Research Institute and others.).

The mechanism of phenylephrine-mediated [Ca2+]i oscillations underlying tonic contraction in the rabbit inferior vena cava

1 We characterized the mechanisms in vascular smooth muscle cells (VSMCs) that produce asynchronous, wave‐like Ca2+ oscillations in response to phenylephrine (PE). Confocal imaging was used to observe [Ca2+]i in individual VSMCs of intact inferior vena cava (IVC) from rabbits. 2 It was found that the Ca2+ waves were initiated by Ca2+ release from the sarcoplasmic reticulum (SR) via inositol 1,4,5‐trisphosphate‐sensitive SR Ca2+ release channels (IP3R channels) and that refilling of the SR Ca2+ store through the sarcoplasmic‐endoplasmic reticulum Ca2+‐ATPase (SERCA) was required for maintained generation of the repetitive Ca2+ waves. 3 Blockade of L‐type voltage‐gated Ca2+ channels (L‐type VGCCs) with nifedipine reduced the frequency of PE‐stimulated [Ca2+]i oscillations, while additional blockade of receptor‐operated channels/store‐operated channels (ROCs/SOCs) with SKF96365 abolished the remaining oscillations. Parallel force measurements showed that nifedipine inhibited PE‐induced tonic contraction by 27% while SKF96365 abolished it. This indicates that stimulated Ca2+ entry refills the SR to support the recurrent waves of SR Ca2+ release and that both L‐type VGCCs and ROCs/SOCs contribute to this process. 4 Application of the Na+‐Ca2+ exchanger (NCX) inhibitors 2′,4′‐dichlorobenzamil (forward‐ and reverse‐mode inhibitor) and KB‐R7943 (reverse‐mode inhibitor) completely abolished the nifedipine‐resistant component of [Ca2+]i oscillations and markedly reduced PE‐induced tone. 5 Thus, we conclude that each Ca2+ wave depends on initial SR Ca2+ release via IP3R channels followed by SR Ca2+ refilling through SERCA. Na+ entry through ROCs/SOCs facilitates Ca2+ entry through the NCX operating in the reverse mode, which refills the SR and maintains PE‐induced [Ca2+]i oscillations. In addition some Ca2+ entry through L‐type VGCCs and ROCs/SOCs serves to modulate the frequency of the oscillations and the magnitude of force development.

Use of mutation profiles to refine the classification of endometrial carcinomas.

The classification of endometrial carcinomas is based on pathological assessment of tumour cell type; the different cell types (endometrioid, serous, carcinosarcoma, mixed, undifferentiated, and clear cell) are associated with distinct molecular alterations. This current classification system for high‐grade subtypes, in particular the distinction between high‐grade endometrioid (EEC‐3) and serous carcinomas (ESC), is limited in its reproducibility and prognostic abilities. Therefore, a search for specific molecular classifiers to improve endometrial carcinoma subclassification is warranted. We performed target enrichment sequencing on 393 endometrial carcinomas from two large cohorts, sequencing exons from the following nine genes: ARID1A, PPP2R1A, PTEN, PIK3CA, KRAS, CTNNB1, TP53, BRAF, and PPP2R5C. Based on this gene panel, each endometrial carcinoma subtype shows a distinct mutation profile. EEC‐3s have significantly different frequencies of PTEN and TP53 mutations when compared to low‐grade endometrioid carcinomas. ESCs and EEC‐3s are distinct subtypes with significantly different frequencies of mutations in PTEN, ARID1A, PPP2R1A, TP53, and CTNNB1. From the mutation profiles, we were able to identify subtype outliers, ie cases diagnosed morphologically as one subtype but with a mutation profile suggestive of a different subtype. Careful review of these diagnostically challenging cases suggested that the original morphological classification was incorrect in most instances. The molecular profile of carcinosarcomas suggests two distinct mutation profiles for these tumours: endometrioid‐type (PTEN, PIK3CA, ARID1A, KRAS mutations) and serous‐type (TP53 and PPP2R1A mutations). While this nine‐gene panel does not allow for a purely molecularly based classification of endometrial carcinoma, it may prove useful as an adjunct to morphological classification and serve as an aid in the classification of problematic cases. If used in practice, it may lead to improved diagnostic reproducibility and may also serve to stratify patients for targeted therapeutics. Copyright

14-3-3 fusion oncogenes in high-grade endometrial stromal sarcoma

14-3-3 proteins are ubiquitously expressed regulators of various cellular functions, including proliferation, metabolism, and differentiation, and altered 14-3-3 expression is associated with development and progression of cancer. We report a transforming 14-3-3 oncoprotein, which we identified through conventional cytogenetics and whole-transcriptome sequencing analysis as a highly recurrent genetic mechanism in a clinically aggressive form of uterine sarcoma: high-grade endometrial stromal sarcoma (ESS). The 14-3-3 oncoprotein results from a t(10;17) genomic rearrangement, leading to fusion between 14-3-3ε (YWHAE) and either of two nearly identical FAM22 family members (FAM22A or FAM22B). Expression of YWHAE–FAM22 fusion oncoproteins was demonstrated by immunoblot in t(10;17)-bearing frozen tumor and cell line samples. YWHAE–FAM22 fusion gene knockdowns were performed with shRNAs and siRNAs targeting various FAM22A exons in an t(10;17)-bearing ESS cell line (ESS1): Fusion protein expression was inhibited, with corresponding reduction in cell growth and migration. YWHAE–FAM22 maintains a structurally and functionally intact 14-3-3ε (YWHAE) protein-binding domain, which is directed to the nucleus by a FAM22 nuclear localization sequence. In contrast to classic ESS, harboring JAZF1 genetic fusions, YWHAE–FAM22 ESS display high-grade histologic features, a distinct gene-expression profile, and a more aggressive clinical course. Fluorescence in situ hybridization analysis demonstrated absolute specificity of YWHAE–FAM22A/B genetic rearrangement for high-grade ESS, with no fusions detected in other uterine and nonuterine mesenchymal tumors (55 tumor types, n = 827). These discoveries reveal diagnostically and therapeutically relevant models for characterizing aberrant 14-3-3 oncogenic functions.

Interstitial localization of telomeric DNA sequences in the Indian muntjac chromosomes: further evidence for tandem chromosome fusions in the karyotypic evolution of the Asian muntjacs

The Indian muntjac is believed to have the lowest chromosome number in mammals (2n = 6 in females and 2n = 7 in males). It has been suggested that a series of tandem chromosome fusions from an ancestral Chinese muntjac-like species (2n = 46) may have occurred during the karyotypic evolution of the Indian muntjac. In an earlier study, hybridization signals generated by the Chinese muntjac centromeric heterochromatin DNA probe (C5) were found to be distributed interstitially in the chromosomes of the Indian muntjac, providing supportive evidence for the tandem chromosome fusion theory. In this study, the highly conserved human telomeric DNA sequence (TTAGGG)n was localized by fluorescence in situ hybridization (FISH) on the metaphase chromosomes of three Cervidae species: the Indian muntjac, Chinese muntjac, and woodland caribou. As expected, hybridization signals were observed at the termini of almost every chromosome in all three species. In addition, interstitial hybridization signals were detected in chromosomes 1 and 2 of the Indian muntjac. The observed interstitial telomeric signals appeared to correspond to specific interstitial centromeric heterochromatin sites. These interstitial telomeric signals could represent remnant DNA sequences from the ancestral species telomeres, further supporting the tandem chromosome fusion theory. Furthermore, these observations permit the elucidation of the chromosome sites where breakage and fusion most likely occurred during the restructuring of the ancestral Chinese muntjac-like chromosomes to form the present day Indian muntjac karyotype.

The clinicopathologic features of YWHAE-FAM22 endometrial stromal sarcomas: a histologically high-grade and clinically aggressive tumor.

Endometrial stromal sarcoma (ESS) is a genetically heterogenous group of uterine sarcomas, of which almost half are associated with JAZF1 rearrangement. We recently identified a novel genetic fusion between YWHAE and FAM22A/B in ESS harboring t(10;17)(q22;p13) and herein describe the clinicopathologic features of 13 YWHAE-FAM22 ESS cases (11 primary and 3 metastatic) and compare them with 20 ESS cases with JAZF1 rearrangement. Ten of 11 primary uterine tumors contained morphologically high-grade areas composed of round cells arranged in nests with a delicate stromal capillary network. The tumor cells showed large nuclei with irregular nuclear contours and significant mitotic activity (>10 mitoses/10 HPF) in addition to focal tumor necrosis, in contrast to JAZF1 ESS, which lacked a nested growth pattern, were composed of cells with small round/oval nuclei, and typically had <5 MF/10 HPF. In 7 of the 11 uterine tumors, there was an additional cytologically bland and mitotically weakly active spindle cell component with a fibrous/fibromyxoid stroma (ESS, fibromyxoid variant). Two metastatic tumors (pulmonary) also contained round cell and spindle cell components, whereas 1 metastasis (vaginal) was composed solely of the spindle cell component. In both primary and metastatic tumors, the spindle cells were diffusely positive for estrogen and progesterone receptors and CD10, in contrast to the round cell areas, which were negative. Clinically, 10 of 12 patients with YWHAE-FAM22 ESS presented with FIGO stages II to III disease, in contrast to only 4 of 16 patients with JAZF1 ESS presenting with stages II to III disease (P<0.05). Tumors with YWHAE-FAM22 rearrangements constitute a distinct group of ESS, which is associated with high-grade morphology and aggressive clinical behavior compared to JAZF1 ESS. Thus, their distinction from typical JAZF1 ESS is important for prognostic and therapeutic purposes.

Cyclin D1 as a diagnostic immunomarker for endometrial stromal sarcoma with YWHAE-FAM22 rearrangement.

Endometrial stromal sarcoma (ESS) characterized by YWHAE-FAM22 genetic fusion is histologically higher grade and clinically more aggressive than ESS with JAZF1-SUZ12 or equivalent genetic rearrangements, hence it is clinically important to recognize this subset of ESS. To identify diagnostic immunomarkers for this biologically defined ESS subset, we compared gene expression profiles between YWHAE-FAM22 ESS and JAZF1-rearranged ESS. These studies showed consistent upregulation of cyclin D1 in YWHAE-FAM22 ESS compared with JAZF1-SUZ12 ESS. Immunohistochemically, the high-grade round cell component of all 12 YWHAE-FAM22 ESS demonstrated diffuse (≥70%) moderate to strong nuclear cyclin D1 staining, and this diffuse positivity was not seen in 34 ESSs with JAZF1 and equivalent genetic rearrangements or in 21 low-grade ESS with no demonstrable genetic rearrangements. In a series of 243 non-ESS pure uterine mesenchymal and mixed epithelial-mesenchymal tumors, only 2 of 8 undifferentiated endometrial sarcomas with nuclear uniformity and 1 of 80 uterine leiomyosarcomas demonstrate diffuse cyclin D1 immunoreactivity. Both cyclin D1-positive undifferentiated endometrial sarcomas showed diffuse strong CD10 staining, which is consistently absent in the high-grade round cell component of YWHAE-FAM22 ESS. The low-grade spindle cell component of YWHAE-FAM22 ESS showed a spatially heterogenous cyclin D1 staining pattern that was weaker and less diffuse overall. Our findings indicate that cyclin D1 is a sensitive and specific diagnostic immunomarker for YWHAE-FAM22 ESS. When evaluating high-grade uterine sarcomas, cyclin D1 can be included in the immunohistochemical panel as an indicator of YWHAE-FAM22 ESS.

POLE exonuclease domain mutation predicts long progression-free survival in grade 3 endometrioid carcinoma of the endometrium.

OBJECTIVEnPOLE exonuclease domain mutations were recently found to occur in a subset of endometrial carcinomas and result in defective proof-reading function during DNA replication. The aim of this study is to further characterize the clinical and pathologic significance of POLE exonuclease domain mutations in high-grade endometrial carcinomas.nnnMETHODSnWe assessed for mutations in the exonuclease domain of POLE by Sanger sequencing in 53 grade 3 endometrioid, 25 serous, 16 clear cell and 5 dedifferentiated carcinomas. We correlated POLE mutation status with clinicopathologic features and molecular parameters. Univariate and multivariate survival analyses were performed using Kaplan-Meier and cox regression analyses.nnnRESULTSnPOLE exonuclease domain mutations were identified in 8 of 53 (15%) grade 3 endometrioid carcinomas and not in any other histotypes examined. Only 1 of the 8 grade 3 endometrioid carcinomas with POLE exonuclease domain mutation displayed deficient mismatch repair protein expression by immunohistochemistry (MSH6 loss), compared to 21 of 45 grade 3 endometrioid carcinomas with wild-type exonuclease domain. When analyzed together with published grade 3 endometrioid carcinomas by The Cancer Genome Atlas, the presence of POLE exonuclease domain mutation was associated with significantly better progression-free survival in univariate (p=0.025) and multivariate (p=0.010) analyses, such that none of the patients with POLE mutated tumors experienced disease progressionnnnCONCLUSIONSnPOLE exonuclease domain mutations occur in a subset of grade 3 endometrioid carcinomas and are associated with good clinical outcome. It can serve as an important prognostic molecular marker to guide the management of patients with grade 3 endometrioid carcinomas.

Ovarian and endometrial endometrioid carcinomas have distinct CTNNB1 and PTEN mutation profiles

Ovarian endometrioid carcinomas and endometrial endometrioid carcinomas share many histological and molecular alterations. These similarities are likely due to a common endometrial epithelial precursor cell of origin, with most ovarian endometrioid carcinomas arising from endometriosis. To directly compare the mutation profiles of two morphologically similar tumor types, endometrial endometrioid carcinomas (n=307) and ovarian endometrioid carcinomas (n=33), we performed select exon capture sequencing on a panel of genes: ARID1A, PTEN, PIK3CA, KRAS, CTNNB1, PPP2R1A, TP53. We found that PTEN mutations are more frequent in low-grade endometrial endometrioid carcinomas (67%) compared with low-grade ovarian endometrioid carcinomas (17%) (P<0.0001). By contrast, CTNNB1 mutations are significantly different in low-grade ovarian endometrioid carcinomas (53%) compared with low-grade endometrial endometrioid carcinomas (28%) (P<0.0057). This difference in CTNNB1 mutation frequency may be reflective of the distinct microenvironments; the epithelial cells lining an endometriotic cyst within the ovary are exposed to a highly oxidative environment that promotes tumorigenesis. Understanding the distinct mutation patterns found in the PI3K and Wnt pathways of ovarian and endometrial endometrioid carcinomas may provide future opportunities for stratifying patients for targeted therapeutics.

Clinicopathological analysis of endometrial carcinomas harboring somatic POLE exonuclease domain mutations.

The Cancer Genome Atlas described four major genomic groups of endometrial carcinomas, including a POLE ultramutated subtype comprising ∼10% of endometrioid adenocarcinoma, characterized by POLE exonuclease domain mutations, ultrahigh somatic mutation rates, and favorable outcome. Our aim was to examine the morphological and clinicopathological features of ultramutated endometrial carcinomas harboring somatic POLE exonuclease domain mutations. Hematoxylin and eosin slides and pathology reports for 8/17 POLE-mutated endometrial carcinomas described in the Cancer Genome Atlas study were studied; for the remaining cases, virtual whole slide images publicly available at cBioPortal (www.cbioportal.org) were examined. A second cohort of eight POLE mutated endometrial carcinomas from University of Calgary was also studied. Median age was 55 years (range 33–87 years). Nineteen patients presented as stage I, 1 stage II, and 5 stage III. The majority of cases (24 of the 25) demonstrated defining morphological features of endometrioid differentiation. The studied cases were frequently high grade (60%) and rich in tumor-infiltrating lymphocytes and/or peri-tumoral lymphocytes (84%); many tumors showed morphological heterogeneity (52%) and ambiguity (16%). Foci demonstrating severe nuclear atypia led to concern for serous carcinoma in 28% of cases. At the molecular level, the majority of the Cancer Genome Atlas POLE-mutated tumors were microsatellite stable (65%), and TP53 mutations were present in 35% of cases. They also harbored mutations in PTEN (94%), FBXW7 (82%), ARID1A (76%), and PIK3CA (71%). All patients from both cohorts were alive without disease, and none of the patients developed recurrence at the time of follow-up (median 33 months; range 2–102 months). In conclusion, the recognition of ultramutated endometrial carcinomas with POLE exonuclease domain mutation is important given their favorable outcome. Our histopathological review revealed that these tumors are commonly high grade, have obvious lymphocytic infiltrates, and can show ambiguous morphology. As they frequently harbor TP53 mutations, it is important not to misclassify them as serous carcinoma.