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Virchows Archiv
Published in: Virchows Archiv 2/2021

01-08-2021 | Original Article

The role of FOXL2, SOX9, and β-catenin expression and DICER1 mutation in differentiating sex cord tumor with annular tubules from other sex cord tumors of the ovary

Authors: Semen Onder, Ozge Hurdogan, Aysel Bayram, Ismail Yilmaz, Hamdullah Sozen, Ekrem Yavuz

Published in: Virchows Archiv | Issue 2/2021

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Abstract

Sex cord tumor with annular tubules (SCTAT) is a highly rare type of ovarian sex cord-stromal tumor (SCST), the diagnosis of which remains to be challenging. The aim of this study was to scrutinize the utility of three immunohistochemical markers including Forkhead box protein 2 (FOXL2), SOX9, and β-catenin and DICER1 mutation status in distinguishing SCTATs from other ovarian SCSTs. Nine cases of SCTAT, 10 Sertoli-Leydig cell tumor (SCLT), 10 adult-type granulosa cell tumor (AGCT), and 8 juvenile-type granulosa cell tumor (JGCT) were included in the study. SCTATs were characterized by diffuse and strong expression of SOX9, focal and weak expression of FOXL2, and the absence of DICER1 mutation. However, AGCTs and JGCTs displayed strong and diffuse expression of FOXL2, focal/no immunoreaction for SOX9. SLCTs generally showed moderate intensity of FOXL2 and SOX9 expression. Nuclear β-catenin expression was observed in none of SLCT, 1/9 of SCTAT, 6/8 JGCT, and 4/10 AGCT cases, respectively. DICER1 hotspot mutation was detected in only 3 cases of SLCT and 2 cases of JGCT. We conclude that in addition to strong and diffuse SOX9 expression, weak/absent expression of FOXL2 is suggestive for the diagnosis of SCTAT. Hence, we suggest that inclusion of these two markers, SOX-9 and FOXL2, to the immunohistochemical panel helps in differentiation of SCTAT from other SCSTs in addition to morphologic findings. We also conclude that SCTATs of the ovary do not harbor DICER1 hotspot mutation.
Literature
1.
Young RH (2018) Ovarian sex cord-stromal tumors: reflections on a 40-year experience with a fascinating group of tumors, including comments on the seminal observations of Robert E. Scully, MD. Arch Pathol Lab Med 142(12):1459–1484CrossRef
2.
Young RH (2018) Ovarian sex cord-stromal tumours and their mimics. Pathology 50(1):11CrossRef
3.
Lim D, Oliva E (2018) Ovarian sex cord-stromal tumours: an update in recent molecular advances. Pathology 50(2):178–189CrossRef
4.
Hanley KZ, Mosunjac MB (2019) Practical review of ovarian sex cord-stromal tumors. Surg Pathol Clin 12(2):587–620CrossRef
5.
Han Y, Li S, Wu L, Zhang X, Cao D (2016) Non-Peutz-Jeghers syndrome-associated ovarian sex cord tumor with annular tubules: report of a malignant case. J Obstet Gynaecol Res 42(2):224–227CrossRef
6.
Jaegle WT, Keyser EA, Messersmith L, Brady RO, Miller C (2018) Extraovarian sex cord tumor with annular tubules discovered arising from a leiomyoma. Gynecol Oncol Rep 26:17–20CrossRef
7.
Kim J, Field A, Schultz KAP, Hill DA, Stewart DR (2017) The prevalence of DICER1 pathogenic variation in population databases. Int J Cancer 141(10):2030–2036CrossRef
8.
Goulvent T, Ray-Coquard I, Borel S, Haddad V, Devouassoux-Shisheboran M, Vacher-Lavenu MC, Pujade-Laurraine E, Savina A, Maillet D, Gillet G, Treilleux I, Rimokh R (2016) DICER1 and FOXL2 mutations in ovarian sex cord-stromal tumours: a GINECO Group study. Histopathology 68(2):279–285CrossRef
9.
Rosario R, Cohen PA, Shelling AN (2014) The role of FOXL2 in the pathogenesis of adult ovarian granulosa cell tumours. Gynecol Oncol 133(2):382–387CrossRef
10.
Leung DTH, Fuller P, Chu S (2016) Impact of FOXL2 mutations on signaling in ovarian granulosa cell tumors. Int J Biochem Cell Biol 72:4CrossRef
11.
Al-Agha OM, Huwait H, Chow C, Yang W, Senz J, Kalloger SE, Huntsman DG, Young RH, Gilks CB (2011) FOXL2 is a sensitive and specific marker for sex cord-stromal tumors of the ovary. Am J Surg Pathol 35:11CrossRef
12.
Bremmer F, Behnes CL, Schildhaus HU, Gaisa NT, Reis H, Jarry H, Radzun HJ, Stroebel P, Schweyer S (2017) The role of beta-catenin mutation and SOX9 expression in sex cord-stromal tumours of the testis. Virchows Arch 470(4):421–428CrossRef
13.
Nicol B, Yao HH (2015) Gonadal identity in the absence of pro-testis factor SOX9 and pro-ovary factor beta-catenin in mice. Biol Reprod 93(2):35CrossRef
14.
Kato N, Fukase M, Motoyama T (2004) Expression of a transcription factor, SOX9, in Sertoli-stromal cell tumors of the ovary. Int J Gynecol Pathol 23(2):180–181CrossRef
15.
Barrionuevo FJ, Hurtado A, Kim GJ, Real FM, Bakkali M, Kopp JL, Sander M, Scherer G, Burgos M, Jiménez R (2016) Sox9 and Sox8 protect the adult testis from male-to-female genetic reprogramming and complete degeneration. Elife 5:e15635
16.
Kanai Y, Hiramatsu R, Matoba S, Kidokoro T (2005) From SRY to SOX9: mammalian testis differentiation. J Biochem 138(1):13–19CrossRef
17.
Hersmus R, Kalfa N, de Leeuw B, Stoop H, Oosterhuis JW, de Krijger R, Wolffenbuttel KP, Drop SLS, Veitia RA, Fellous M, Jaubert F, Looijenga LHJ (2008) FOXL2 and SOX9 as parameters of female and male gonadal differentiation in patients with various forms of disorders of sex development (DSD). J Pathol 215(1):31–38CrossRef
18.
Buell-Gutbrod R, Ivanovic M, Montag A, Lengyel E, Fadare O, Gwin K (2011) FOXL2 and SOX9 distinguish the lineage of the sex cord-stromal cells in gonadoblastomas. Pediatr Dev Pathol 14(5):391–395CrossRef
19.
Zhao C, Bratthauer G, Barner R, Vang R (2006) Immunohistochemical analysis of SOX9 in ovarian sertoli cell tumors and other tumors in the differential diagnosis. Int J Gynecol Pathol 26:9
20.
Shang S, Hua F, Hu ZW (2017) The regulation of beta-catenin activity and function in cancer: therapeutic opportunities. Oncotarget 8(20):33972–33989CrossRef
21.
Chang H, Gao F, Guillou F, Taketo MM, Huff V, Behringer RR (2008) Wt1 negatively regulates beta-catenin signaling during testis development. Development 135(10):1875–1885CrossRef
22.
Kommoss S, Anglesio MS, Mackenzie R, Yang W, Senz J, Ho J, Bell L, Lee S, Lorette J, Huntsman DG, Blake Gilks C (2013) FOXL2 molecular testing in ovarian neoplasms: diagnostic approach and procedural guidelines. Mod Pathol 26(6):860–867CrossRef
23.
Kao CS, Cornejo KM, Ulbright TM, Young RH (2015) Juvenile granulosa cell tumors of the testis: a clinicopathologic study of 70 cases with emphasis on its wide morphologic spectrum. Am J Surg Pathol 39(9):1159–1169CrossRef
24.
Papanastasopoulos P, Repanti M, Damaskou V, Bravou V, Papadaki H (2008) Investigating differentiation mechanisms of the constituent cells of sex cord-stromal tumours of the ovary. Virchows Arch 453(5):465–471CrossRef
25.
Stavrinou S, Clark A, Irving J, Lee CH, Oliva E, Young R, Sriraksa R, Magdy N, van Noorden S, McCluggage WG, el-Bahrawy M (2016) Differential expression of E-cadherin and catenins in ovarian sex cord stromal tumours. Histopathology 69(2):298–306CrossRef
26.
Stewart CJ et al (2013) beta-Catenin and E-cadherin expression in stage I adult-type granulosa cell tumour of the ovary: correlation with tumour morphology and clinical outcome. Histopathology 62(2):257–266CrossRef
27.
Gullo I, Batista R, Rodrigues-Pereira P, Soares P, Barroca H, do Bom-Sucesso M, Sobrinho-Simões M (2018) Multinodular goiter progression toward malignancy in a case of DICER1 syndrome: histologic and molecular alterations. Am J Clin Pathol 149(5):379–386CrossRef
28.
Heravi-Moussavi A, Anglesio MS, Cheng SWG, Senz J, Yang W, Prentice L, Fejes AP, Chow C, Tone A, Kalloger SE, Hamel N, Roth A, Ha G, Wan ANC, Maines-Bandiera S, Salamanca C, Pasini B, Clarke BA, Lee AF, Lee CH, Zhao C, Young RH, Aparicio SA, Sorensen PHB, Woo MMM, Boyd N, Jones SJM, Hirst M, Marra MA, Gilks B, Shah SP, Foulkes WD, Morin GB, Huntsman DG (2012) Recurrent somatic DICER1 mutations in nonepithelial ovarian cancers. N Engl J Med 366(3):234–242CrossRef
29.
Kato N, Kusumi T, Kamataki A, Tsunoda R, Fukase M, Kurose A (2017) DICER1 hotspot mutations in ovarian Sertoli-Leydig cell tumors: a potential association with androgenic effects. Hum Pathol 59:41–47CrossRef
Metadata
Title
The role of FOXL2, SOX9, and β-catenin expression and DICER1 mutation in differentiating sex cord tumor with annular tubules from other sex cord tumors of the ovary
Authors
Semen Onder
Ozge Hurdogan
Aysel Bayram
Ismail Yilmaz
Hamdullah Sozen
Ekrem Yavuz
Publication date
01-08-2021
Publisher
Springer Berlin Heidelberg
Published in
Virchows Archiv / Issue 2/2021
Print ISSN: 0945-6317
Electronic ISSN: 1432-2307
DOI
https://doi.org/10.1007/s00428-021-03052-2

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