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Is Endometriosis a Precancerous Disease? JUNG-HYE CHOI, PhD Kyung Hee University Choi’s lab Research Directions: A. Gynecological Oncology (Ovarian, Endometrial, and Cervical Cancer) - Rsf-1, p53 GOF mutation, pre-mir 886, PGI2, leptin… • Chemoresistance, chemosensitizer • Tumor microenvironment (Tumor-associated macrophage) • Metastasis (adhesion, migration, invasion) • Anti-cancer effects of natural products and their molecular mechanism of action B. Endometriosis • Adipokines in endometriosis • Endometriosis peritoneal microenvironment • Drug candidates: AdipoR1 agonist, natural products University of British Columbia Endometriosis Estrogen dependent inflammatory disease that affect ~10 % of women in the reproductive age 25-30% of infertile women 40-70% of women with chronic pelvic pain Presence of endometrium-like tissue in sites outside the uterine cavity (primarily on the pelvic peritoneum and ovaries) Chronic pelvic pain, pain during menstrual cycle and intercourse, infertility (25-35%), risk for some cancers Estrogen-dependent inflammatory disease, complex chronic systemic disease Etiology - Genetic: a polygenic manner ( ~7 times higher incidence) : chromosome 7/10 - Environmental toxins: dioxins, phthalates, bisphenol A or organochlorinated pollutants - Increased exposure to menstruation (ie. earlier menarche, shorter menstrual cycles and nulliparity) - Low body mass index (Vigano et al 2012) Hypothesis 1) Retrograde menstruation (Sampson’s implantation hypothesis) fragments of menstrual endometrium pass backward through the fallopian tubes and then become implanted on peritoneal surfaces and persist there. (by molecular defects or immunologic abnormalities) 2) Coelomic metaplasia 3) induction theory 4) Immunity 5) genetic 6) Others: Vasculogenesis Endometriosis has been associated with several types of cancer, autoimmune disease, asthma, and cardiovascular disease over recent decades => Suggesting that endometriosis patients may represent a high-risk group for these chronic disease. Endometriosis and Cancer Nezhat et al American Journal of Obstetrics & Gynecology (2015) ! Characteristics of cells Estrogen-responsive /progesterone-unresponsive Endometriosis Proliferation Apoptosis Migration Invasion Inflammation Angiogenesis -recurrence -hormone-dependent growth Difference between endometriosis and cancer - The invasion of endometriosis is controlled and stops at specific point of time. - Also, endometriosis is attached and damage other tissues, but does not result in a catabolic state - Rarely fatal (It results in few deaths with this being estimated at 200 globally in 2013.[6]) History Sampson documented the association of endometriosis with malignant tumors in 1925 and outlined three criteria for the diagnosis of malignant transformation: 1) The coexistence of carcinoma and endometriosis at the same site, 2) Histological similarities between the carcinoma and endometriosis 3) Exclusion of a malignant tumor elsewhere In 1953, Scott established the additional requirement of a continuum between benign and malignant epithelium Recent publications Endometriosis and cancer Epidemiological Data ! Malignant transformation of endometriosis is reported generally in 1% of cases ! Malignant transformation of endometriosis is more commonly in ovaries than in extra-ovarian sites ! Gynecological Cancer • Ovarian • Endometrial • Cervical ! Breast Cancer ! Melanoma ! Non-Hodgkin’s lymphoma Ovarian Cancer ! Ovarian cancer has been the most consistently associated with endometriosis ! Most epidemiological studies to date were case-control, retrospective cohort design (specific population: cohort of endometriosis patients or women evaluated for infertility) ! Most of the studies reported a positive association (3/4 statistically significant) Cohort study Years Studies 1997 2002 2004 2005 2006 2007 2007 2010 2013 Brinton et al. Olsen et al. Brinton et al. Brinton et al. Melin et al. Melin et al. Kobayashi et al. Aris Stewart et al. Entity of the association (OR, SIR or RR or HR and 95% CI) 1.92 (1.3–2.8) Cohort of post-menopasual women 0.78 (0.25–2.44) 2.48 (1.3–4.2) 1.69 (1.27–2.25) 1.43 (1.19–1.71) 1.37 (1.14–1.62) 8.95 (4.12–15.3) 1.6(1.12-2.09) 3.11(1.13-8.57) (for nulliparous A cohort study by Melin et al. (2007) ! The data of 63,630 women with endometriosis between 1958 and 2002 were analyzed ! There was no increased overall risk of cancer (SIR 1.01) ! Significantly increased risk (SIR 1.37) was observed for ovarian cancer Case-control study Years Studies 2000 2002 2004 2004 2008 2008 2008 2009 2012 2013 Ness et al. Ness et al. Borgfeldt and Andolf Modugno et al. Rossing et al. Merritt et al. Nagle et al. Wu et al. Pearce et al. Merritt et al. Entity of the association (OR, SIR or RR or HR and 95% CI) 1.7 (1.2–2.4) 1.73 (1.10–2.71) 1.34 (1.03–1.75) 1.32 (1.06–1.65) 1.5 (1.1–2.1) 1.31(0.97-1.78) 3.0(1.5-5.9) 1.66(1.01-2.75) 1.46(1.31-1.63) 1.92(1.36-2.71) A case-control study by Pearce et al. (2012) ! The data from Ovarian Cancer Association Consortium in a pooled analysis of 13 case–control studies that included 7911 invasive ovarian cancer cases and 1907 borderline ovarian tumors between 1992-2008 ! Self-reported endometriosis was associated with a significantly increased risk of ovarian cancer ( OR 1.46 , 95% CI 1.31–1.63) A meta-analysis study by Kim et al. (2014) ! The data from 20 case–control and 15 cohort studies including 444,255 patients from 1 625 potentially relevant studies published online between 1990 and 2012 ! Endometriosis increased ovarian cancer risk in case–control or two-arm cohort studies (RR, 1.265; 95% CI, 1.214–1.318) and single-arm cohort studies (SIR, 1.797; 95% CI, 1.276–2.531) ! Stage I–II disease, grade 1 disease and nulliparity were more common in EAOC (RRs, 1.959, 1.319 and 1.327; 95% CIs, 1.367–2.807, 1.149–1.514 and 1.245–1.415), Other Gynecological Cancers Endometrial cancer Study design year studies Cohort Cohort Cohort Cohort Cohort Case– control Case–control Case-control 1997 2002 2005 2006 2007 2004 2005 2015 Brinton et al. Olson et al. Brinton et al. Melin et al. Melin et al. Borgfeldt and Andolf Brinton et al. Yu HC et al. OR, SIR or RR or HR 1.09 1.20 0.82 1.19 1.14 0.58 1.23 2.83 95% CI 0.6– 1.9 0.57– 2.53 0.3– 1.9 0.96–1.46 0.93–1.39 0.42– 0.81 0.63–2.38 1.49-5.35 ! Data on the association between endometriosis and endometrial cancer was inconsistent ! Low number of cases Cervical cancer Study design year studies OR, SIR or RR or HR 0.72 0.64 0.71 0.57 95% CI Cohort 1997 Brinton et al. 0.4– 1.3 Cohort 2006 Melin et al. 0.47–0.84 Cohort 2007 Melin et al. 0.53–0.94 Case– contro 2004 Borgfeldt and Andolf 0.37– 0.9 l 0 ! All of the available investigations to data have reported reduced risks in women with endometriosis ! Low number of cases (all from Sweden) Breast Cancer ! The association between endometriosis and breast cancer still remains unclear. ! Most studies suggested a modest positive association between endometriosis and breast cancer risk. However, some observed no clear association and even reverse relation ! No study analyzing the findings according to breast cancer type, hormone receptor status or molecular subtype. Study design Cohort Cohort Cohort Cohort Cohort Cohort Cohort Cohort Case– contr ol Case–contro l year studies 95% CI Schairer et al. (A) Schairer et al. (B) Brinton et al. Venn et al. Olson et al. Brinton et al. Melin et al. Melin et al. Moseson et al. OR, SIR or RR or HR 3.2 1.7 1.27 1.04 1.01 0.78 1.04 1.08 4.3 1997 1997 1997 1999 2002 2005 2006 2007 1996 1997 Moseson et al. 1.7 0.6–5.1 1.2– 8.0 0.7– 4.1 1.1– 1.4 0.71– 1.54 0.79– 1.29 0.6– 1.1 0.98–1.09 1.02–1.13 0.9– 20.4 Melanoma ! Among the eight studies, four studies reported a positive association while four studies observed no association between endometriosis and melanoma risk Study design Cohort Cohort Cohort Cohort Case– control Case– control Case– control Cross-sectional year 1997 2002 2005 2007 1989 1992 1995 2010 studies Brinton et al. Olson et al. Brinton et al. Kvaskoff et al. Wyshak et al. Frisch et al. Holly et al. Gemmill et al. OR, SIR or RR or HR 1.0 0.7 2.1 1.62 3.9 1.1 0.9 3.81 95% CI 0.7– 1.5 0.2– 1.8 1.0– 4.4 1.15-2.29 1.2– 12.4 0.5– 2.3 0.5– 1.4 2.60-5.56 Non-Hodgkin’s lymphoma ! Three cohort studies reported a positive association while one crosssectional study observed no association ! Low number of cases Study design Cohort Cohort Cohort Cross-sectional year 1997 2002 2006 2010 studies Brinton et al. Olson et al. Melin et al. Gemmill et al. OR, SIR or RR or HR 1.8 1.7 1.24 0.84 95% CI 1.2– 2.6 1.0– 2.9 1.02–1.49 0.14-3.37 Summary I ! There was no increased overall risk of cancer among women with endometriosis ! Accumulating epidemiological data, from large cohort and case-control studies, have demonstrated an increased risk of ovarian cancer in women with endometriosis. The effect sizes are between 1.3 and 1.9. ! The incidence risk of breast cancer, melanoma, and cervical cancer in women with endometriosis is still to be verified. Ovarian cancer: Deaths and Cases - Ovarian cancer is the second most common gynecological malignancy in developed countries and the most lethal - Approximately 22,000 new cases of OVCA diagnosed each year and 14,000 cancer-related deaths (Siegel R et al. Cancer statistics, 2014 CA Cancer J Clin) Ovarian cancer Epithelial ovarian carcinomas, which consist approximately 90% of human ovarian cancer, arise in OSE, tubal epithelium, endometrial tissue with the rest originating in granulosa cells or, rarely, in the stroma or germ cells. Histological subtypes of OEC/EOC Serous (68~71%), Clear cells (12~13%), Endometrioid (9~11%) et al Pathology Mucinous (3%), Transitional (1%), Mixed histologies (6%) McCluggage2011 Anglesio et al (2013) Plos One Prevalence of endometriosis in patients with ovarian cancers according to hist ological subtypes years Authors 1971 Aure et al. [1] Kurman and Craig [7] Russel [11] 0% (0/357) Ovarian cancer histotype endometrioi Mucinous Clear cell d 1% (1/203) 24% (14/59) . 9% (20/212) 6% (7/118) 4% (2/47) 8% (2/28) 11% (4/37) 3% (7/233) 4% (3/69) 48% (16/33) 28% (20/72) 1993 Vercellini et al. [14] 4% (8/220) 6% (6/94) 21% (8/38) 6% (1/18) 41% (7/17) 39% (9/23) 45% (5/11) 9% (3/33) 3% (1/35) 6% (2/35) 0% (0/17) 3% (1/30) 6% (2/35) 50% (22/44) 41% (13/32) 54% (27/50) 70% (30/43) 14% (5/35) 9% (1/11) 0% (0/16) ... 67% (2/3) ... 6% (1/17) 8% (4/49) ... 36.8% (7/19) 30% (16/54) 23% (3/13) 42% (13/31) 43% (3/7) 20% (13/66) 22% (4/18) 31.6% (12/38) ... 58.8% (10/17) 35.3% (6/17) OR 3.05 2.04 20.2% 13.9% 1972 1979 Serous De La Cuesta et al. 0% (0/10) [12] 1996 Toki et al. [13] 10% (9/88 ) 1997 Jimbo et al. [4] 9% (8/92) 1997 Fukunaga et al. [3] 10% (6/63) 2000 Ogawa et al. [8] 7% (4/60) 2000 Vercellini et al. [15] 3% (2/61) 2003 Oral et al. [9] 4% (3/70) Dzatic-Smiljkovic 2011 3.5% (4/113) et al. [2] * Kondi-Pafiti et al. 2012 5.9% (1/17) * Low grade serous [6] OVCA (OR: 2.11) 7.3% 1996 6.0% Other ... ... ... 12% (11/88 26% (30/114) ) ... ... 20.2% A meta-analysis study by Kim et al. (2014) ! The data from 20 case–control and 15 cohort studies including 444,255 patients from 1 625 potentially relevant studies published online between 1990 and 2012 ! Endometriosis significantly increased certain types of ovarian cancer risk: • Clear Cell (RR 2.606; • 95% CI 2.225-3.053) • Endometrioid (RR 1.759; 95% CI 1.551-1.995) Two types of OEC Kurman and Shih (2011) Human Pathology Histological Data Atypical endometriosis - dysplastic characteristics that are different from typical endometriosis - precancerous and strong association with EAOC > Histology (Thomas and Campbell 21) 1) L arge hyperchromatic or pale nuclei with moderate-to-marked pleomorphism 2) increased nuclear-to-cytoplasmic ratio 3) cellular crowding and stratification Atypical endometriosis " ~8% of endometrioses contain atypical endometriosis. " In ovarian cancer, atypical endometriosis is present in 23% of endometrioid carcinomas and in 36% of clear cell carcinomas (Fukunaga et al. Histopathology 1997) . " Most atypical endometriosis show direct continuity with endometrioticassociated carcinoma, but are rarely seen in noncancer endometriosis . " Women with previously biopsy-proven atypia within endometriosis were found to develop a EAOC in the same ovary some years later " The spatial and chronological association with endometriosis-associated carcinoma suggest that atypical endometrioses are precancerous lesions, as seen in atypical hyperplasia of the endometrium (Prefumo et al. Gynecol Oncol 2002). Morphologic steps of tumor progression from endometriosis to endometriosis-associated carcinoma EM Endometriosis Inflammation Atypical Borderline Clear cell EM cancer tumor Atypical Endometriosis Borderline Tumors EndometriosisAssociated OVCA Molecular Data Endometriosis and EAOC ! Monoclonal expansion ! Chromosomal gain/ loss: LOH ! Epigenetic alteration: Guo SW et al. Epigenetics of endometriosis Mol Hum Reprod (2009) ! Genetic alteration: mutation of tumor suppressor gene/ oncogenes Molecular profile in endometriosis-associated ovarian cancer Endometrioid cancer Wnt/ß-catenin PI3K/Akt/mTOR Clear cell cancer p110subunit of PI3K BAF250a BAF250a HGF/MET ER and PR TERT promoter mutation Gudducci et al 2014 absent 15.9% Wu RC et al (J patholo) Atypical endometriosis has been often detected in close association with clear cell or endometrioid carcinoma. Atypical endometriosis and EAOC share molecular alterations such as PTEN mutations [44,45], ARID1A mutations and up-regulation of HNF-1b. HNF1b induces chemoresistance in clear cell ovarian cancer cells Cisplatin Paclitaxel HNF1b induces chemoresistance via regulating the ROS production and the NFkB pathway NFkB transcriptional activity XIAP Relative levels of COX2 mRNA COX2 1.0 * * 0.5 0.0 Con siRNA siRNA 1 siRNA 2 Yang et al. Cancer Research (2014) MPSC1TR A2780TR Yang et al. Carcinogenesis (2012) Molecular profile in endometriosis-associated ovarian cancer Endometrioid cancer Wnt/ß-catenin PI3K/Akt/mTOR Clear cell cancer p110subunit of PI3K BAF250a BAF250a HGF/MET ER and PR TERT promoter mutation Gudducci et al 2014 absent 15.9% Wu RC et al (J patholo) Atypical endometriosis has been often detected in close association with clear cell or endometrioid carcinoma. Atypical endometriosis and EAOV share molecular alterations such as PTEN mutations [44,45], ARID1A mutations and up-regulation of HNF-1b. - ARID1A encodes BAF250a protein, that belongs to the SWI/SNF chromatin remodeling family and plays a major role in several cell processes, including development, differentiation, proliferation and DNA repair (Reisman et al Oncogene 2009). - Loss of ARID1A expression has been found in eight of the 24 (33%) SMBTs versus one of the 32 (3.1%) BOTs of other histological type, thus supporting the hypothesis that the SBMT is a member of ERONs (Wu et al. Int J Gynecol Pathol 2012) - ARID1A mutations-> truncating or missense mutations-> loss of BAF250a protein expression (Wiegand et al. N Engl J Med 2010). - Loss of ARID1A expression was an independent predictor for shorter progression-free survival in patients with ovarian clear cell carcinomas treated with platinum based chemotherapy (Katagiri et al. Mod Pathol 2012). 2006 2011 2012 2014 2014 Three factors have been implicated in molecular/genetic alterations for malignant transformation of endometriosis Inflammatory factors Hormonal factors Molecular/ Genetic Alterations Malignant transformation of endometriosis Oxidative stress Oxidative stress ! Ngoˆ et al. found that endometriotic cells often displayed increased ROS production, altered ROS detoxification and reduced catalase levels, associated with increased cellular proliferation and activation of ERK1/2 pathway. ! The abundant free iron present in endometriotic cysts could lead to oxidative stress and DNA mutations that ultimately result in tumor development. Hormonal Factors ! Estrogen enhances the survival or persistence of endometriotic tissue, whereas prostaglandins and cytokines mediate pain, inflammation, and infertility. ! Estrogen seems to be a mitogen both for endometriosis and ovarian cancer. ! Direct and indirect epidemiologic evidence suggest that estrogen may be carcinogenic to the ovary (Lacey et al. JAMA 2002) ! A link between inflammation and estrogen production in endometriosis was recently uncovered and describes a positive feedback cycle that favors overexpression of key steroidogenic genes, most notably aromatase, overexpression of COX2, and continuous local production of estradiol and PGE2 in endometriotic tissue. Bulun SE, “Endometriosis “ N Engl J Med. 2009 Jan 15;360(3):268-79. Adipokines (Adipocytokines) Cytokines secreted by adipose tissue/ adipose tissue-derived hormones (Greek=> adipo-, fat; cyto-, cell; and -kinos, movement) Leptin, Adiponectin, Resistin, Visfatin, TNFα, IL-6, MCP-1 Leptin-> 16kDa, increased in obese, pro-inflammatory Adiponectin-> 30kDa, decreased in obese, anti-inflammatory Mainly associated to the regulation of food intake and energy expenditure An important link between obesity, insulin resistance, and related inflammatory disorders Role of leptin and adiponectin in the regulation of carcinogenesis as a like between obesity and cancer Leptin and adiponectin in Cancers : involved in proliferation, migration, invasion, inflammation, and angiogenesis Leptin and adiponectin in Endometriosis Serum leptin and adiponectin Controversial PMID: 23188112, 16055459 PMID: 10902797, 12773447, 19544117, 16269446, 20047585, 18958774, PF leptin 10902797, 11387300 , 20504092,21848410 Increased leptin levels in peritoneal fluid of patients with endometriosis PF adiponectin Decreased adiponectin levels in peritoneal fluid of patients with endometriosis PMID: 16135012 PF leptin and infertility PMID: 18814918, 11543854 Peritoneal fluid leptin concentration in infertile patients with endometriosis is HIGH. Peritoneal fluid leptin is associated with chronic pelvic pain but not infertility in PMID: 16269446, 15808381 endometriosis patients. Serum adiponectin and infertility A trend towards higher HMW adiponectin serum levels in successful ICSI cycles compared to implantation failures was observed PMID: 20504081 PF leptin and stage A positive correlation was found between peritoneal fluid leptin levels and the Hum Reprod. 2006 Mar;21(3):788-91 Arch Gynecol Obstet. 2009 Mar;279(3):361-4. endometriosis stage. Reverse correlation Hum Reprod. 2003 Jun;18(6):1205-9. Leptin and Cancer Garofalo and Surmacz, (2006) Journal of cellular physiology, Choi et al (2005) JCEM Housa et al. (2006) Physiol Res Leptin ObR Adiponectin AdipoR1 Choi et al. Fertility and Sterility (2013) Comparison of expression status of adiponectin, leptin, and their receptors between ovarian endometrioma and normal endometrium 44/44 32/44 14/44 39/44 Choi et al. Fertility and Sterility (2013) - Both short and long forms of leptin receptor were found to be expressed in ovarian cancers. - Treatment with leptin significantly stimulated the growth of estrogensensitive BG-1 cells via a ligand independent ERa pathway Choi et al (2011) Carcinogenesis Effect of leptin on cell growth in epithelial endometriotic cells Oh et al. Molecular Human Reproduction (2013) Involvement of JAK2/STA3 and ERK signaling in leptin-induced cell growth in epithelial endometriotic cells Oh et al. Molecular Human Reproduction (2013) Effect of leptin on migration and invasion in epithelial endometriotic cells Vehicle 10 Vehicle 10 1 (nM) 100 1 (nM) 100 Ahn et al. In revision Involvement of MMP-2 in leptin-induced migration and invasion in epithelial endometriotic cells TIMP-2 Ahn et al. In revision Inflammatory Factors Tumor Microenvironment & TAM Reciprocal Activation of Macrophages and Paclitaxel-resistant Ovarian Cancer Cells Tumor-associated MQ Manuscript in preparation Effect of endometriotic cells on MQ recruitment and expression of M2 marker in activated MQ PBMC M2 markers Relative expression of IL-6 mRNA Cytokine and chemokine profiles of CM from endometriotic epithelial cells Effect of MCP-1/CCR2 inhibition on MQ recruitment, endometriotic epithelial cell growth, and nodule formation * Conclusion ! Endometriosis seems to be a precursor of some subtypes of ovarian cancer (EAOC: endometrioid and clear cell) ! In addition to numerous epidemiological studies, histopathological and molecular evidence to support the hypothesis is accumulating ! Genetic/epigenetic alteration, hormonal/ inflammatory factors, and oxidative stress were related to malignant transformation of endometriosis. ! However, present evidence is insufficient to conclude whether endometriosis is a precursor of other cancer or not. ! The molecular mechanism of the malignant transformation of endometriosis to ovarian cancer should be studied in detail. Acknowledgments Priya Kyung Hee University Yun-Ji Seo, Ji-Hye Ahn, Seung Hyun Jung, YeongIn Yang, Ji-Hyun Kim, Je-Sung Lee, Yoonjin Cho. Jong-Kyu Lee, Umma Priya Catholic University of Daegu Dr. Hoon Kyu Oh Dr. Youn Seok Choi University of British Columbia Dr. Peter C. K. Leung Dr. Nelly Auersperg Johns Hopkins University Dr. Ie-Ming Shih Dr. Tian-Li Wang Cheil hospital (Kwandong Univ.) Dr. Tae-Jin Kim University of Texas Dr. Yong Sun Lee (UTMB) Dr. Ju-Seog Lee (MD anderson CC) Cell lines Dr. Anna Starzinski-Powitz, Dr. Graciela Krikun, Dr. Asgi Fazleabas Funding The Korean Health Technology R&D Project, Ministry of Health & Welfare (No. A111881, HI14C2416) NRF (2010-0004306, 2013R1A2A2A01067888) Based on the available information , clinicians should first try to identify patients with endometriosis and follow closely especially those that have higher chance of malignant transformation These include: -Women with long-standing history of endometriosis -Endometriosis diagnosed at an early age -Endometriosis associated infertility and/or history of infertility treatment -Ovarian endometrioma “Malignant transformation of endometriosis and its clinical significance” Nezhat et al Fertility and Sterility (2014) Prat J, Vrchos Arch (2012) 460 What is MCP-1? - Monocyte chemotactic protein-1 (MCP-1) - Chemokine (C-C motif) ligand 2 (CCL2) - small inducible cytokine A2 - 13kDa, a small cytokine that belongs to the CC chemokine family - CCL2 recruits monocytes, memory T cells, and dendritic cells to the sites of inflammation produced by either tissue injury or infection - CCL2 is primarily secreted by monocytes, macrophages and dendritic cells - an active role in chemotaxis, angiogenesis, cellular proliferation, differentiation, apoptosis, and inflammation - the concentration of MCP-1 in peritoneal fluid and serum in women with Am J Obstet Gynecol, 175 (1996); Gynecol Obstet Invest, 54 (2002); Blood, 78 endometriosis is high (1991); Fertil Steril, 67 (1997 - Strong correlation between peritoneal MCP-1 level and stage of disease/ Fertil Steril, 67 (1997), Hum Reprod, 13 (1998) severity of endometriosis The American Journal of Pathology, 170(2), 2007 Hypoxia Leptin ESC Eur J Gynaecol Oncol. 2015;36(1):21-4. Prevalence of endometriosis in epithelial ovarian cancer. Analysis of the associated clinical features and study on molecular mechanisms involved in the possible causality. Machado-Linde F, Sánchez-Ferrer ML, Cascales P, Torroba A, Orozco R, Silva Sánchez Y, Nieto A, Fiol G. Abstract PURPOSE OF INVESTIGATION: To determine the prevalence of endometriosis in patients with epithelial ovarian cancer and explore the differences between women with endometrioid and clear-cell histologic subtypes with and without associated endometriosis. MATERIALS AND METHODS: The medical charts of 496 patients with epithelial ovarian cancer at the Hospital Virgin de la Arrixaca (Murcia, Spain) between 1971 and 2010 were reviewed. RESULTS: Endometriosis was present in 27 (5.4%) of the 496 cases (p < 0001), and was associated with the endometrioid histotype in 13/45 cases (29%) and with the clear cell histotype in 7/22 (32%). The prevalence of an association with endometriosis according to histologic type was 28.8% (13/45) for endometrioid carcinoma and 31.8% (7/22) for clear-cell carcinoma. CONCLUSION: Both endometrioid and clear-cell ovarians tumours are associated with pelvic endometriosis. Patients with endometiosis associated ovarian cancer differ from non-endometiosis associated ovarian cancer in their clinical characteristics. Three forms of endometriosis 1) Peritoneal endometriosis: endometriotic implants on the surface of the pelvic peritoneum and ovaries 2) Endometrioma: ovarian cysts lined by endometrioid mucosa (endometriotic tissues) 3) Rectovaginal endometriotic nodule: a complex solid mass comprised of endometriotic tissue blended with adipose and fibromuscular tissue, residing between the rectum and the vagina Three forms of endometriosis: 1)peritoneal endometriosis, 2) endometrioma, 3) rectovaginal endometriotic nodule => comment histologic features : presence of endometrial stromal or epithelial cells, chronic bleeding, signs of inflammation. increased risk of infertility or chronic pelvic pain. The risk of ovarian cancer associated with different t forms of endometriosis remains to be determined!!! Chronic pelvic pain, pain during menstrual cycle and intercourse, infertility (25-35%), risk for some cancers Effect of endometriotic cells-CM on mRNA expression of M1/M2 penotype makers and factors in macrophages Clinical management of advanced OVCA: Maximal cytoreductive surgery + paclitaxel and platinumbased chemotherapy Clear cell cancer: Poor Prognosis ! Less sensitive to the chemotherapy ! a high degree of recurrence, ! frequent early metastasis ! resistance to chemotherapy ARID1A Expression in Ovarian Clear Cell Carcinoma with an Adenofibromatous Component. Nishikimi K, Kiyokawa T, Tate S, Iwamoto M, Shozu M. Histopathology. 2015 Apr 23. The ARID1A pathway in ovarian clear cell and endometrioid carcinoma, contiguous endometriosis, and benign endometriosis. Chene G, Ouellet V, Rahimi K, Barres V, Provencher D, Mes-Masson AM. Int J Gynaecol Obstet. 2015 Apr 11. Loss of ARID1A expression is associated with poor prognosis in patients with stage I/II clear cell carcinoma of the ovary. Itamochi H, Oumi N, Oishi T, Shoji T, Fujiwara H, Sugiyama T, Suzuki M, Kigawa J, Harada T. Int J Clin Oncol. 2015 Mar 6. Decreased ARID1A expression correlates with poor prognosis of clear cell renal cell carcinoma. Park JH, Lee C, Suh JH, Chae JY, Kim HW, Moon KC. Hum Pathol. 2015 Mar;46(3):454-60. Coexistent ARID1A-PIK3CA mutations promote ovarian clear-cell tumorigenesis through pro-tumorigenic inflammatory cytokine signalling. Chandler RL, Damrauer JS, Raab JR, Schisler JC, Wilkerson MD, Didion JP, Starmer J, Serber D, Yee D, Xiong J, Darr DB, Pardo-Manuel de Villena F, Kim WY, Magnuson T. Nat Commun. 2015 Jan 27;6:6118. Molecular alterations in endometrial and ovarian clear cell carcinomas: clinical impacts of telomerase reverse transcriptase promoter mutation. Huang HN, Chiang YC, Cheng WF, Chen CA, Lin MC, Kuo KT. Mod Pathol. 2015 Feb;28(2):303-11 Loss of ARID1A expression sensitizes cancer cells to PI3K- and AKT-inhibition. Samartzis EP, Gutsche K, Dedes KJ, Fink D, Stucki M, Imesch P. Oncotarget. 2014 Jul 30;5(14):5295-303. Ovarian clear-cell carcinoma (OCCC) is an aggressive form of ovarian cancer with high ARID1A mutation rates. Here we present a mutant mouse model of OCCC. We find that ARID1A inactivation is not sufficient for tumour formation, but requires concurrent activation of the phosphoinositide 3-kinase catalytic subunit, PIK3CA. Remarkably, the mice develop highly penetrant tumours with OCCC-like histopathology, culminating in haemorrhagic ascites and a median survival period of 7.5 weeks. Therapeutic treatment with the pan-PI3K inhibitor, BKM120, prolongs mouse survival by inhibiting the tumour cell growth. Cross-species gene expression comparisons support a role for IL-6 inflammatory cytokine signalling in OCCC pathogenesis. We further show that ARID1A and PIK3CA mutations cooperate to promote tumour growth through sustained IL-6 overproduction. Our findings establish an epistatic relationship between SWI/SNF chromatin remodelling and PI3K pathway mutations in OCCC and demonstrate that these pathways converge on pro-tumorigenic cytokine signalling. We propose that ARID1A protects against inflammation-driven tumorigenesis. Pathological studies - morphological continuum of sequential steps during tumor progression from normal endometriotic cyst epithelium to invasive endometrioid or clear cell carcinoma [33– 37]. - Atypical endometriosis, which is considered to be the earliest step in the malignant transformation of endometriosis, is characterized by cytological atypia, with eosinophilic cytoplasm, large hyperchromatic or pale nuclei with moderate to marked pleomorphism, increased nuclear to cytoplasmic ratio, cellular crowding, stratification or tufting [34,37]. - Women with previously biopsy-proven atypia within endometriosis were found to develop a clear cell or endometrioid carcinoma in the same ovary some years later; thus, confirming the chronological association between these two conditions [38–41]. A greater understanding of the pathogenesis of endometriotic-associated carcinoma will better inform research into ovarian cancer prevention strategies Malignant transformation of endometriosis Pathophysiology that leads to malignant transformation of endometriotic foci is not well understood. > Two hypothesis - Genetic defects allowing endometriotic implants to thrive and malignantly transform - Defects in immune function allowing endometriosis to grown leaving the patient more susceptible to subsequent malignant transformation > Carcinoma associated with endometriosis are usually a lower stage, are in a younger population, and have a better prognosis than similar tumor unrelated to endometriosis. > About 90% of cases of extraovarian endometriosis lead to endometrioid adenocarcinomas, with only a few reported examples of clear cell carcinoma Hepatocyte nuclear factor-1β (HNF-1β) Loss of ARIDIA / BAF250a cancer-related genes PTEN, KRAS, p53, CTNNB1 inflammation IL-1, IL-6, IL-8, TNF-α, PGE2, C OX-2 VEGF, RANTES, MCP-1, NFkB hormonal factors PGE2 –> estrogens detoxifying enzymes CYP1A1, CYP19, GALT, GSTM1 metastasis MMP-2 , MMP-9 , Catenin , E-cadherin DNA repairs or mutations GALT , GSTM suppression of pre-apoptotic gene Bax and/or upregulation of anti-apoptotic gene Bcl-2 Possible mechanisms responsible for the malignant transformation of endometriosis Possible mechanisms responsible for the malignant transformation of endometriotic lesions Malignant cells exploit the cells’ intrinsic mechanisms to regulate the length of its lifespan and its metabolism to their own advantage. As oxygen, heat and fuel constitute the fire triangle, we propose the endometriosis-induced carcinoma (EIC) triangle (Figure 1). The three factors which directly contribute to endometriosisinduced oncogenesis are (1) alterations within the endometriotic cells’ genome, (2) endocrinological factors and (3) immunological factors. The relationship between inflammation, genetic influences and cancer has been described by Balkwill et al. [25], as the genetic influences being “the fuel that feeds the flame” and inflammation being the “fuel that feeds the flame.” However, in endometriosis, there is also the endocrinological component which interacts with the genetic influences, in addition to the immunological factors. In effect, the high local levels of oestrogen in the ovarian endometriotic foci, due to the upregulation of aromatase cause an increase in the level of prostaglandin E2 (PGE-2) [53], which in turn suppresses normal immunologic responses such as phagocytosis [54] and leads to diminished apoptosis [55]. The increased levels of local oestrogens increases the level of expression of angiogenic AEM indicates atypical endometriosis; CCC, clear cell carcinoma; EAC, endometriosisassociated ovarian cancer; EBT, endometriosis-associated borderline tumor; EMC, endometrioid carcinoma; EMS, endometriosis; MSI, microsatellite instability. Endometriosis requires 4 to 10 years for water blister lesioins to progress to scarred blue-domed cysts, 7 to years progress from clear to red to scarred black lesions, and approximatel 20 years for the proportion of scarred black lesions to increase from 23% to 63% (12). Most endometriosis encounter an unfavorable microenvironment and eventually regress. Am J Obstet Gynecol. 1997 Mar; 176(3):572-9. Published cross-sectional studies regarding the relationship between endometriosis and ovarian cancer Years Studies 1993 1997 1997 2000 2000 2003 2011 2012 Vercellini et al. [23] Jimbo et al. [24] Fukunaga et al. [25] Ogawa et al. [26] Vercellini et al. [27] Oral et al. [28] Dzatic-Smiljkovic et al. [29] Kondi-Pafiti et al. [30] Entity of the association (OR, SIR or RR or HR and 95% CI) 2.37 3.22 6.03 7.80 14.63 1.59 2.35 1.19 Breast cancer Three possible explanations for the slight, if any, increase in breast cancer risk among women with endometriosis, especially premenopausal ones ! the two disease may share a common pathogenetic insult of note, both conditions have an hormonal-dependent etiology ! endometriosis, a possible cause of infertility, is particularly evident in nulliparous women or in women who have delayed childbearing, both risk factors for breast caner ! treatment of endometriosis with medications such as danazol, progestational agents, and oral contraceptives could have an adverse Somigliana effect on the etbreast al. 2006 Non-Hodpkin’s (1) Humoral immunity abnormalities have been documented in women with endometriosis. More specifically, there may be a link between B-cell activation in endometriosis and development of B-cell lymphoma (2) the association may be consequent to medications prescribed to treat endometriosis (3) the link between the two conditions may be due to a common etiological agent Olson JE, Cerhan JR, Janney CA, Anderson KE, Vachon CM, Sellers T. “Postmenopausal cancer risk after self-reported endometriosis diagnosis in the Iowa women’s health study 2002 94 1612-1618 HNF1B Detoxification GPx3, GCLc, GCLM ROS NFkB Chemoresistance Anti-apoptotic Bcl-2, XIAP Two types of OEC Type I vs Type II Prat J, Vrchos Arch (2012) 460 Adenomyosis a common benign pathology that is defined by the presence of endometrial glands and stroma within the myometrium. ! It has been reported that adenomyosis is associated with endometrial cancer (Boes et al., Pitfall in the diagnosis of endometrial cancer: case report of an endometrioid adenocarcinoma arising from uterine adenomyosis. Eur J Gynaecol Oncol 2011; Musa et al., Does the presence of adenomyosis and lymphovascular space invasion affect lymph node status in patients with endometrioid adenocarcinoma of the endometrium? Am J Obstet Gynecol, 2012). ! Is adenomyosis associated with the risk of endometrial cancer? Med Glas (Zenica). 2012 Aug;9(2):268-72. This study was carried out retrospectively on pathologic specimens of hysterectomies. statistically significant association of the presence of adenomyosis with uterine myoma (p = 0.227) and endometrial polyps (p = 0.997) and endometrial carcinoma (p = 0.771) was not found.=>hysterectomy specimens, no statistically significant difference was determined between the groups with and without adenomyosis in terms of cooccurrence with endometrial carcinoma. Malignant changes in adenomyosis in patients with endometrioid adenocarcinoma Eur J Gynaecol Oncol. 2011;32(2):182-4. Kucera E, Hejda V, Dankovcik R, Valha P, Dudas M, Feyereisl J The aim of our retrospective study was to evaluate pathological changes in adenomyotic foci in hysterectomy specimens, and point out a possible mechanism of carcinogenesis in adenomyotic foci inside the myometrium. Malignant changes in adenomyosis were present in 6.8% of patients with endometrial cancer. All malignancy-positive cases of adenomyosis were associated with endometrioid adenocarcinoma of the eutopic endometrium. Leiomyomas ! Uterine LM (uterine fibroid) is a common neoplasm. It occurs in nearly 40% of women of reproductive age ! Data came from a population-based, case-control study which included 1399 women with endometrial cancer diagnosed between 2005 and 2007 and 1539 controls. ! Leiomyosarcomas (LMS) are the most common sarcomas that are reported to be in only 0.1-0.3% of LMs. ! A self-reported history of uterine fibroids was associated with an increased risk of endometrial cancer (OR=1.39; 95% CI: 1.10–1.74). This association was reduced for women with body-mass index≥35 kg/m2 (OR=0.71; 95% CI: 0.37–1.37), and increased in groups normally thought to be at low risk including women with normal BMI (OR=1.66; 95% CI: 1.14–2.41) and premenopausal women (OR=1.82; 95% CI: 0.99–3.32). Leptin receptor Expression of leptin receptor in normal endometrium, eutopic endometrium, ectopic endometriotic stromal tissue, peritoneal macrophage Mol Hum Reprod. 2002 May;8(5):456-64. Function Leptin stimulates the proliferation of endometrial and endometriotic stromal cells Mol Hum Reprod. 2002 May;8(5):456-64. Treatment of peritoneal macrophages with leptin induced COX-2 expression. production of prostaglandin F(2alpha) by peritoneal macrophages was increased Am J Reprod Immunol. 2010 63(3):214 after leptin stimulation. Increased leptin levels in peritoneal fluid from endometriosis patients may affect local PMID: 18814918 inflammatory/immune reactions, especially infiltration of CD4+ T helper cells. Ablation of leptin signaling disrupts the establishment, development, and PMID: 17962343 maintenance of endometriosis-like lesions in a murine model.Endocrinology. 2008 Feb;149(2):506-14.