Low-Grade Ovarian Serous Neoplasms (Low-Grade Serous Carcinoma and Serous Borderline Tumor) Associated With High-Grade Serous Carcinoma or Undifferentiated Carcinoma

Boyd, Clinton; McCluggage, W. Glenn

doi:10.1097/pas.0b013e31823732a9

Cited by 76 publications

(42 citation statements)

References 32 publications

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“…Specifically, a borderline tumor that is associated with a BRAF V600E mutation may be more likely to remain a borderline tumor and in only rare cases progress to carcinoma, whereas a borderline tumor that is associated with a TP53 or NRAS mutation, is on an obligate path to carcinoma; those with NRAS mutations resulting in grade 1 or grade 2 features, while those with TP53 mutations result in high-grade tumors with genomic instability and widespread copy number alterations. An alternative hypothesis for the development of high-grade serous invasive cancer with adjacent SBT is that the SBT component is not a precursor lesion, but is part of the invasive tumor that morphologically resembles SBT, representing a better differentiated component (15). If so, we would expect to see no genome-level difference (point mutation, copy number change) between the SBT and invasive components of SBT-EOC tumors, but may see differences in gene expression consistent with differentiation.…”

Section: Discussionmentioning

confidence: 99%

“…A review of 100 tumors reported areas of SBT in 2% of high-grade cases (2). Boyd and McCluggage described two cases (15). Dehari and colleagues (16) identified three cases of high-grade carcinoma associated with SBT (from 210 serous ovarian tumors) and in two cases mutation analysis showed the same KRAS mutations in both components, indicating a clonal relationship.…”

Section: Introductionmentioning

confidence: 99%

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Genomic Classification of Serous Ovarian Cancer with Adjacent Borderline Differentiates RAS Pathway and TP53-Mutant Tumors and Identifies NRAS as an Oncogenic Driver

Emmanuel

Chiew

George

et al. 2014

Clinical Cancer Research

111

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Purpose: Low-grade serous ovarian carcinomas (LGSC) are Ras pathway-mutated, TP53 wild-type, and frequently associated with borderline tumors. Patients with LGSCs respond poorly to platinumbased chemotherapy and may benefit from pathway-targeted agents. High-grade serous carcinomas (HGSC) are TP53-mutated and are thought to be rarely associated with borderline tumors. We sought to determine whether borderline histology associated with grade 2 or 3 carcinoma was an indicator of Ras mutation, and we explored the molecular relationship between coexisting invasive and borderline histologies.Experimental Design: We reviewed >1,200 patients and identified 102 serous carcinomas with adjacent borderline regions for analyses, including candidate mutation screening, copy number, and gene expression profiling.Results: We found a similar frequency of low, moderate, and high-grade carcinomas with coexisting borderline histology. BRAF/KRAS alterations were common in LGSC; however, we also found recurrent NRAS mutations. Whereas borderline tumors harbored BRAF/KRAS mutations, NRAS mutations were restricted to carcinomas, representing the first example of a Ras oncogene with an obligatory association with invasive serous cancer. Coexisting borderline and invasive components showed nearly identical genomic profiles. Grade 2 cases with coexisting borderline included tumors with molecular features of LGSC, whereas others were typical of HGSC. However, all grade 3 carcinomas with coexisting borderline histology were molecularly indistinguishable from typical HGSC.Conclusion: Our findings suggest that NRAS is an oncogenic driver in serous ovarian tumors. We demonstrate that borderline histology is an unreliable predictor of Ras pathway aberration and underscore an important role for molecular classification in identifying patients that may benefit from targeted agents. Clin Cancer Res; 20(24); 6618-30. Ó2014 AACR.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Genomic Classification of Serous Ovarian Cancer with Adjacent Borderline Differentiates RAS Pathway and TP53-Mutant Tumors and Identifies NRAS as an Oncogenic Driver

Emmanuel

Chiew

George

et al. 2014

Clinical Cancer Research

111

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“…On a molecular level, LGSC are genomically stable and harbor somatic mutations in KRAS and BRAF in approximately half of cases; these mutations are mutually exclusive [22,23]. Although patients with LGSC may present with low-grade tumor recurrence, some cases of recurrence like HSGC or concomitant HGSC and LGSC have also been reported [24]. A thorough examination of the tumor is recommended in order to screen areas for HGSC.…”

Section: Low-grade Scmentioning

confidence: 99%

Ovarian Cancer: A Heterogeneous Disease

Kossaï¹,

Leary²,

Scoazec³

et al. 2017

Pathobiology

283

204

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Ovarian cancer encompasses a collection of neoplasms with distinct clinicopathological and molecular features and prognosis. Despite there being a variety of ovarian cancer subtypes, these are treated as a single disease. Tremendous efforts have been made to characterize these subtypes and identify tumoral pathways and potential biomarkers for therapeutic strategies. As in other cancer types, tumor heterogeneity appears to be very high across subtypes and within a single tumor, representing a major cause of treatment failure. We describe the morphological and molecular heterogeneity among ovarian cancers and discuss recent advances in our understanding of intratumor heterogeneity.

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“…The acquisition of KRAS or BRAF and possibly other mutations in tubal derived inclusions and serous cystadenomas result in their transformation to serous borderline tumors and ultimately, low-grade serous carcinomas. Third, a small proportion of high-grade serous carcinomas may develop from low-grade serous carcinomas or serous borderline tumors after the acquisition of additional mutations such as TP53 [41,42]. The latter pathway may explain why in some high-grade serous carcinomas, there is neither evidence of tubal involvement nor TIC lesions.…”

Section: Editorial Commentarymentioning

confidence: 99%

Fallopian Tube as Main Source for Ovarian and Pelvic (Non-Endometrial)Serous Carcinomas

Zheng

Fadare

2012

J Clinic Experiment Pathol

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In 2012, it is estimated that 22,280 new cases of ovarian carcinoma will be diagnosed in the United States, with 15500 associated deaths [1]. The high case fatality rate of ovarian cancers, most of which are high-grade serous adenocarcinomas, can be attributed to the advanced stage at which most patients with this disease present, and their attendant poor prognoses at this stage [2]. Attempts at screening and early detection of ovarian cancer, using a combination of transvaginal ultrasounds, measurements of serum CA-125 and other biomarkers, have largely been unsuccessful due to their lack of sufficient specificity and sensitivity in the general population [3][4][5]. Prophylactic oophorectomies, which surveys shown are performed in a substantial portion of postmenopausal women [6][7][8][9], remain a subject of debate as a way a reducing the mortality of ovarian cancers. In any event, the failure of most current preventive methods is evidenced by the fact that the overall mortality for ovarian carcinoma has largely remained unchanged for several decades [10]. A logical approach to a seemingly intractable problem is to re-assess and question some fundamental assumptions, in this case the cell and organ of origin for "ovarian" or pelvic non-endometrial serous carcinomas. In this regard, the last decade has seen the emergence of a robust body of evidence that implicates the fallopian tube as the origin for most pelvic serous carcinomas that have traditionally been assumed to be of ovarian origin [11].Several theories of ovarian carcinogenesis have been proposed over the years. Most assume the ovarian surface epithelium undergo malignant transformation. In incessant ovulation theory, a perpetual cycle of damage and repair of the ovarian surface epithelium increases the risk of malignant transformation [12]. The hormonal theory postulates that estrogen and gonadotropins cause stimulation and proliferation, and potentially malignant transformation of the ovarian surface epithelium [13]. Ovarian inclusions cysts are thought to develop from the ovarian surface epithelium, possibly after ovulation [14,15]. Based on morphologic observations [16], the fact that inclusions are more commonly identified in the ovary contralateral to cancerharboring ovaries [17,18], and the extremely rare occurrence of early serous carcinomas within the inclusions [19,20], it was assumed that after the ovarian surface epithelium invaginates into the underlying stroma to form inclusions, it undergoes mullerian metaplasia under the influence of the local stromal microenvironment [20,21], then potentially undergoes malignant transformation resulting in carcinomas corresponding to the different cell types (serous, endometrioid, clear cell, mucinous and transitional cell). The notion that the ovarian surface epithelium is the source for ovarian serous carcinomas has endured for decades, its relatively weak evidentiary basis notwithstanding, due to the absence of a competing theory that can incorporate the available evidence into a convincing and log...

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Low-Grade Ovarian Serous Neoplasms (Low-Grade Serous Carcinoma and Serous Borderline Tumor) Associated With High-Grade Serous Carcinoma or Undifferentiated Carcinoma

Cited by 76 publications

References 32 publications

Genomic Classification of Serous Ovarian Cancer with Adjacent Borderline Differentiates RAS Pathway and TP53-Mutant Tumors and Identifies NRAS as an Oncogenic Driver

Genomic Classification of Serous Ovarian Cancer with Adjacent Borderline Differentiates RAS Pathway and TP53-Mutant Tumors and Identifies NRAS as an Oncogenic Driver

Ovarian Cancer: A Heterogeneous Disease

Fallopian Tube as Main Source for Ovarian and Pelvic (Non-Endometrial)Serous Carcinomas

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