Ovarian Endometrioid Adenocarcinoma with Functioning Stroma Accompanied with Endometrial Endometrioid Adenocarcinoma: Immunohistochemical Study and Literature Review

doi:10.4236/ojpathology.2013.34028

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Open Journal of Pathology, 2013, 3, 150-155

Published Online October 2013 (http://www.scirp.org/journal/ojpathology)

http://dx.doi.org/10.4236/ojpathology.2013.34028

Ovarian Endometrioid Adenocarcinoma with Functioning

Stroma Accompanied with Endometrial Endometrioid

Adenocarcinoma: Immunohistochemical Study and

Literature Review

Takashi Yuri1*, Tomomi Mizokami2, Yuichi Kinoshita1, Katsuhiko Yoshizawa1, Katsuhiko Yasuda3,

Airo Tsubura1

1Department of Pathology II, Kansai Medical University, Divisions of Obsterics and Gynecology, Kansai Medical University, Osaka,

Japan; 2Hirakata Hospital, Osaka, Japan; 3Takii Hospital, Osaka, Japan.

Email: *yurit@takii.kmu.ac.jp

Received May 20th, 2013; revised June 20th, 2013; accepted July 20th, 2013

which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

ABSTRACT

Background: The ovarian tumors with functioning stroma are defined by the morphological presence of endocrine ac-

tive cells in stroma, and the clinical, biochemical or pathological evidence of endocrine function. Case Report: The

ovarian endometrioid adenocarcinoma with functioning stroma accompanied with endometrial endometrioid adenocar-

cinoma was found in 64-year-old post-menopausal woman complaining abnormal genital bleeding and mammary dis-

tention. Her preoperative serum 17ß-estradiol level was high (53.2 pg/ml) while human chorionic gonadotropin (hCG)

level was within normal limit. Her right ovary with 8.8 × 5.3 cm in size and tan-yellow in color mostly consisted of

solid tumor. Histologically, tumor was composed of estrogen receptor (ER)- and progesterone receptor (PgR)-positive,

and androgen receptor (AR)-negative cancerous endometrial cells with aggregates of vacuolated foamy stromal cells

resembling luteinized cells. These stromal cells contained lipid droplets, and was immunopositive for α-inhibin and

17ß-estradiol. After surgery, serum 17ß-estradiol level decreased and became normal (14.2 pg/ml). These findings in-

dicate the production of steroid hormone (17ß-estradiol) from the foamy stromal cells and may be correlated with the

clinical symptoms. Furthermore, ER- and PgR-positive endometrial endometrioid adenocarcinoma developed synchro-

nously. However, ovary and uterus were totally immunonegative for human chorionic gonadotropin (hCG). Four other

cases from the literature including ours are reviewed. Conclusio n: Cancer cells were positive for ER and PgR in both

ovary and uterus responded to steroid hormone produced by foamy stromal cells, which played a role in proliferation

and progression of ovarian and endometrial endometrioid adenocarcinoma, respectively.

Keywords: Ovarian Cancer; Endometroid Adenocarcinoma; Functioning Stroma; Immunohistochemistry; Estrogen;

Etradiol

1. Introduction

The majority of ovarian cancer patients are diagnosed at

an advanced stage because clinical symptoms such as ab-

dominal swelling or genital bleeding appears in late stage,

and that no symptoms are evident in the early disease

stage [1]. However, certain categories of ovarian tumors

are capable of producing a variety of hormones that occa-

sionally cause hormone-related symptoms on patients,

which may suggest the occurrence of ovarian cancer.

Hormonally functioning ovarian tumors are characterized

as those that secrete a variety of steroid hormones that

may have unique clinical manifestation [2]. These ova-

rian tumors are defined as ovarian tumors with endocrine

function. Such as the majority are of sex cord-stromal

derivation. However, other tumors not usually associated

with hormone secretion have also been implicated. Func-

tioning ovarian tumors include not only sex cord-stromal

tumors but also epithelial tumors with endocrine-func-

tioning stromal cells. Some of ovarian epithelial tumors

have luteinized stroma, and these stromal cells may

possess hormonal activities [3,4]. Almost every type of

ovarian primary and metastatic, benign and malignant

*Corresponding author.

Ovarian Endometrioid Adenocarcinoma with Functioning Stroma Accompanied with Endometrial

Endometrioid Adenocarcinoma; Immunohistochemical Study and Literature Review

151

tumors has been reported to cause both estrogenic and

androgenic manifestation, but the most commonly en-

countered are primary ovarian mucinous tumor to have

an estrogenic manifestation [5]. Whatever the oncogenic

stimuli is, synchronous development of the same form of

epithelial tumors in the ovary and endometrium is not a

rare event [6-8].

As the frequency of endometrioid adenocarcinoma

with functioning stroma is rare, we report herein an

ovarian endometrioid adenocarcinoma with endocrine-

functioning stroma accompanied with endometrial endo-

metrioid adenocarcinoma, which occurred in post-meno-

pausal woman who complained abnormal genital bleed-

ing and mammary distention for past 1 year. Our hypo-

thesis was that human chorionic gonadotropin (hCG)

may most probably stimulate α-inhibin-positive stromal

cells to luteinize and produce steroid hormone (17β-es-

tradiol) [9], then the produced hormone may transform

cells positive for receptors (estrogen receptor, ER). The

histological and immunohistochemical analysis together

with literature review are reported.

2. Case Report

2.1. Clinical Summary

A 64-year-old woman, 3 gravida and 2 para, has been

complained of menses-like monthly abnormal genital

bleeding and mammary distention for past 1 year, and

visited the gynecological out-patient clinic. Her menar-

che was at 14 and menopause was at 49 years of age. She

had no previous gynecologic problems and no medica-

tion with steroid hormones. Her body weight was 64.4 kg

and did not present virilism or hirsutism. The intrapelvic

solid mass sized 7 - 8 cm in diameter suggestive of right

ovarian tumor was pointed out with no ascitic fluid pool-

ing by the pelvic magnetic resonance imaging. Hyper-

trophic endometrium was observed by transvaginal ultra-

sonography, and endometrial cytology revealed the pre-

sence of complex endometrial hyperplasia. The malig-

nant ovarian and endometrial tumor was speculated and

consulted Kansai Medical University Takii hospital for

tumor resection.

Prior to the surgery, the vaginal smear appeared to be

estrogenized and atypical endometrial proliferation was

detected by endometrial brushing cytology. Serum tumor

markers CEA, CA19-9, and CA125 were within normal

range. While serum 17ß-estradiol level was elevated

compared with her age (53.2 pg/ml, normal range in

post-menopausal woman is below 18.0 pg/ml), serum

hCG level was within normal range. Total abdominal

hysterectomy with bilateral salpigooophorectomy, partial

omentectomy and pelvic lymphadenectomy was carried

out. A large tumor of the right ovary was detected. No

atypical cells were found in intraperitoneal washing

cytology. After the surgery, the concentration of serum

17ß-estradiol was decreased to normal post-menopausal

level (14.2 pg/ml), and patient is well and had no recur-

rence or metastatic symptoms for 5 years.

2.2. Gross Findings

The right ovary measuring 8.8 × 5.3 cm in size was com-

pletely replaced by neoplasia. The major part of the tu-

mor was solid and lobulated with partial cystic lesions

(Figure 1), and did not adherent to the surrounding tis-

sues. Cut surface was smooth and was tan-yellow in

color with thin fibrotic septa. Hemorrhagic or necrotic

lesions were not seen in any part of the tumor. The mac-

roscopic findings of uterus and contralateral adnexa were

normal, and metastatic nodules were not detected in re-

sected tissues.

2.3. Histological and Immunohistochemical

Features

Ten paraffin-embedded blocks were made from right

ovary. Ovarian tumor was composed of epithelial proli-

feration with dense stroma (Figure 2(a)). Irregularly

formed glands, papillary and columnar in configuration

with enlarged nucleoli, were composed of tall columnar

cells resembling endometrial gland (Figure 2(b)). Secre-

tory products were apparent within the lumen of epithe-

lial cells, and periodic acid-Schiff staining revealed mu-

cin production in the lumen of irregular glands. Squa-

mous differentiation of columnar epithelium was incons-

picuous. The tumor was diagnosed as well differentiated

ovarian endometrioid adenocarcinoma. Characteristically,

aggregates of plump cells with foamy vacuolated cyto-

plasm were scatteredly seen in the stroma. Scattered

nests of vacuolated cells resembled luteinized theca cells

by the cytological features (Figure 2(c)), which oil red-O

staining showed droplets of intracytoplasmic lipid (Fig-

Figure 1. Resected ovarian tumor before the fixation. Tu-

mor totally replaced the ovary, and was tan-yellow in color.

Ovarian Endometrioid Adenocarcinoma with Functioning Stroma Accompanied with Endometrial

Endometrioid Adenocarcinoma; Immunohistochemical Study and Literature Review

152

a b

c d

Figure 2. Histology of ovarian tumor. (a) (b) Well-differen-

tiated endometrioid adenocarcinoma (HE); (c) Note clusters

of vacuolated foamy cells that resemble to luteinized theca

cells in the stroma (HE); (d) Stromal foamy cells contain

droplet positive for oil red-O (oil red-O). Bars; (a) and (b) =

100 μm, and (c) and (d) = 25 μm.

ure 2(d)). In addition to ovarian tumor, a single micro-

scopic lesion consisted of well differentiated endometrial

endometrioid adenocarcinoma at the fundus was detected

(IB; slight invasion to myometrium without vessel in-

volvement); noncancerous endometrium revealed not

atrophic but proliferative phase-like endometrium. Al-

though it was difficult not to declare the evidence of

ovarian cancer metastasis to the uterus, because the right

fallopian tube was free of cancer cells, no evidence of

intrapelvic lymph node metastasis, and uterine cancer

was composed of single microscopic lesion, we con-

cluded that ovary and uterus developed separately (right

ovarian endometrioid adenocarcinoma, pT1a and endo-

metrial endometrioid adenocarcinoma, pT1a).

Antibodies used for immunohistochemcal analysis and

staining results of ovarian and endometrial tumors are

summarized in Table 1. Dilution and antigen retrievals

were followed by manufacturer’s instructions. Cytokera-

tins reacted with epithelial cells while vimentin reacts

with stromal messenchymal cells. Vacuolated stromal

cells seen in the ovary was immunoreactive with α-inhi-

bin (Figure 3(a)) and 17β-estradiol (Figure 3(b)) as well

as vimentin. Carcinoma cells in the ovary and endome-

trium were positive for ER (Figure 3(c)) and progesteron

receptor (PgR), while androgen receptor (AR; Figure

3(d)) was negative. Within the tissue sections examined,

β-hCG-positive cells were not detected in either tumor

components, while luteinizing hormone/chorionic gona-

dotropin receptor (LHCGR) was positive in the cyto-

plasm of both uterine and ovarian adenocarcinoma cells

Figure 3. Immunohistochemistry of ovarian tumor. (a)

α-inhibin intensely labels luteinized stromal cells (α-inhibin),

(b) 17ß-estradiol is localized in luternized cells (17ß-estra-

diol), (c) Endometrioid adenocarcinoma cells are ER posi-

tive (ER); (d) No hCG positivity is seen in tumor section (hCG);

(e) Endometrioid adenocarcinoma cells express LHCGR in

the cytoplasm (LHCGR). Bars = 50 μm.

(Figure 3(e)).

3. Discussion

A variety of ovarian tumors, primary and metastatic,

have been reported to be associated with functioning

stroma; this association is more common in malignant

tumor than in benign ones [9]. To reveal an estrogenic

manifestation, ovarian mucinous tumor is most frequent

[5]. The definitions of attributing origin of the hormonal

alterations to the ovarian tumor are 1) the disappearance

of hormonal manifestations after the tumor removal, and

2) histochemical detection of lipids in stromal cell cyto-

plasms [4]. In the present study, following removal of the

ovarian tumor, a marked decrease in the plasma concen-

tration of 17ß-estradiol was observed. Common appear-

ance of ovarian endometrial carcinoma represents solid

nodule or including cystic lesions which may contain

chocolate-colored fluids or mucin [10]. Lipid-rich tan

yellowish-colored cut surface are macroscopical charac-

teristics of theca cell tumor or hyperplasia. Ovarian hy-

perthecosis contains lipid-containing cells morphologi-

cally identical to the ovarian theca cells [11]. α-Inhibin, a

glycoprotein hormone that is produced by ovarian granu-

losa cells and testicular Sertoli cells usually immuno-

reacts with cells comprised of sex cord-stromal cells such

as granulosa cells and theca cells in the ovary [12]; it

intensely labels luteinized theca cells [13]. In our case,

α-inhibin reacted with clusters of stromal vacuolated

cells, ovarian tumor was tan-yellow in color grossly and

contained oil-red-O-positive lipids in the α-inhibin-posi-

tive foamy stromal cells. Ovarian stromal hyperplasia

and hyperthecosis is known to be associated with estro-

genic and androgenic stimulation, and are considered to

be the origin of excessive steroid hormones in the circu-

lation [5,14]. Main source of the excess steroid hormones

in ovarian stromal hyperthecosis can be proven from the

Ovarian Endometrioid Adenocarcinoma with Functioning Stroma Accompanied with Endometrial

Endometrioid Adenocarcinoma; Immunohistochemical Study and Literature Review

153

Table 1. Immunohistochemisry of ovarian and endometrial endometrioid adenocarcinoma.

Ovarian tumor Endometrial tumor

Antibody Clone Source Dillution

Cancer cells Stromal cells Cancer cells Stromal cells

Cytokeratin AE1/AE3 Nichirei Predilluted+ − + −

CK7 OV-TL Nichirei Predilluted+ − + −

CK20 Ks 20.8 Nichirei Predilluted− − − −

Vimentin V9 Nichirei Predilluted− + − +

α-Inhibin R1 DAKO ×100 − + − −

CEA COL-1 Nichirei Predilluted− − − −

17β-Estradiol PolyclonalMerck Millipore ×150 − + − −

ER 6F11 Novocastra ×40 + − + +

PgR 10A9 Biodesign ×50 + − + −

AR AR27 Novocastra ×50 − − − −

β-hCG CG04.05 Neo Markers ×100 − − − −

LHCGR PolyclonalSanta Cruz ×200 + − + −

Abbreviations: CEA, carcinoembryonic antigen; ER, estrogen receptor; PgR, progesterone receptor; AR, androgen receptor; β-hCG; β-Human chorinic gon-

dotropin; LHCGR, Luteinizing hormone chorionic gonadotropin receptor.

marked decrease in the plasma levels of steroid hor-

mones after ovarian wedge resection or oophorectomy

[15]. The source of excess steroid hormones is consi-

dered to be produced by the luteinized cells present in the

ovarian stroma [16-18]. We have localized 17β-estradiol

in foamy cells in the ovarian stroma. Taken together, we

diagnosed this ovarian tumor as endometrioid adenocar-

cinoma with 17β-estradiol secreting stromal cells from

histological, histochemical, and clinical aspects.

hCG may act as a mitogen and most probably sti-

mulates the stromal cells to luteinize and to produce ster-

oid hormones estrogen, progesterone, or androgen [4].

Tumor containing syncytiotrophoblastic cells and patient

during pregnancy is responsible to luteinize the stromal

cells via hCG action. However, stromal luteinization is

seen in patient who is not pregnant, and whose tumor

which do not contain syncytiotrophoblast [9]. Some study

suggest that tumor cells derived from ovarian epithelial

cells produce hCG and cause the luteinization of stroma

[3,17,19]. Another study suggests that epithelial ovarian

cancer cells can produce 17ß-estradiol by itself through

interactions between cancer cells and luteinized stromal

cells [20]. As the present ovarian tumor was totally nega-

tive with hCG, the explanation for the stromal cell stimu-

lator and the mitogen for estrogen secretion needs further

study. Although hCG levels were within normal levels

and could not immunohistochemically localize hCG in

the ovary, luteinized cells are postulated to be responsive

to even normal levels of serum hCG [4]. It was note-

worthy that LHCGR was present in ovarian and uterine

endometrioid adenocarcinoma cells that carcinoma cells

may mediate hCG or hCG-like signals to cause luteini-

zation of the stromal cells to secrete 17ß-estradiol. Then,

estradiol may bind to the endometrioid adenocarcinoma

cells positive for ER to promote the cancer cell proli-

feration. Estrogen secreting stromal cells may play a role

in proliferation and progression of both ovarian and

uterine adenocarcinoma cells.

Whatever the oncogenic stimuli, synchronous develop-

ment of same form of epithelial tumors in the endome-

trium and ovaries is not a rare event [6-8]. Hyperestro-

genic status plays an essential part in the origin of endo-

metrioid adenocarcinoma. The histologically similar car-

cinoma in the endometrium and ovary may indicate ei-

ther metastatic or independently developing neoplasms.

Using microsatellite analysis, the loss of heterozygosity

provides the difference in origin between the two tumors

[6]. In the present case, histological subtype, degree of

differentiation, immunore activities which we examined

were similar between ovarian and endometrial carcinoma.

The difficulty in the discrimination of the endometrial

metastasis of ovarian carcinoma include the discrepancy

in tumor sizes, the lack of multiple lesions often seen in

metastatic site, and evidence of transtubal spread [7]. In

our case, only one fundic lesion was found, the regional

lymph nodes as well as fallopian ducts were free of

tumor cells, and the discrepancy in size of each tumors

(8.8 × 5.3 cm-sized ovarian tior vs. endometrial lesion m

Ovarian Endometrioid Adenocarcinoma with Functioning Stroma Accompanied with Endometrial

Endometrioid Adenocarcinoma; Immunohistochemical Study and Literature Review

154

Table 2. Cases of ovarian endometrioid adenocarcinoma with functioning stroma.

Serum estradiol (pg/ml) Follow up

Case Age

(yr) Pre-surgery Post-surgery

Tumor size (cm)FIGO stagingEndometrial

lesiona Treatmentb

(Disease free yrs)

Reference

1 31 553 Decreased 12 I a EC, G2 1 3 [6]

2 69 22.8 10 7 × 6 III b PA 1, 2 1.25 [16]

3 81 83 Undetectable (<10) 12 × 10 Ic (a) PA 1 1 [20]

4 70 162.4 11.6 10 × 9 Ic (b) AEH-C 1, 2 2 [21]

5 64 53.2 14.2 8.8 × 5.3 Ia EC, G1 1, 2 5 Present case

aPA, proliferative activity: AEH-C, atypicalendomelrial hyperplasia,complex; EC, endometrial carcinoma. b1 means total abdominal hysterectomy with bilateral

salpigooophorectomy; 2 means platinum-based combined chemotherapy.

at the microscopic level). Therefore we concluded that

the tumors in ovary and endometrium despite the similar

morphological features, was different origin.

Among ovarian epithelial tumors with functioning

stroma, mucinous tumors are most frequent [4]. To the

best of our knowledge, well-documented literatures of

ovarian endometroid adenocarcinoma with functioning

stroma was found in only 4 cases; 5 cases including our

present case are summarized in Table 2 [6,16,20,21].

Age distribution ranged from 31 to 81, which the average

was 63 years of age. Elevations of serum estradiol value

were seen in all cases (22.8 - 553 pg/ml, mean 174.9

pg/ml), and which declined to the average ranges for

patient’s age after the tumor resection. Surgical tumor

resection was the principle treatment of this ovarian neo-

plasm (7 - 12 cm in the largest diameter, mean 10.0 cm),

adjuvant chemotherapy was added if the tumor extend

outside the ovary. Endometrial proliferative lesions in-

cluding malignancy were detected in all cases regardless

of patient’s age. Estrogen secretion from luteinized theca

cells in postmenopausal ovary may promote the growth

of endometrial adenocarcinoma. In previous reports,

theca cell hyperplasia seen in post-menopausal women

has a marked incidence of endometrial adenocarcinoma

[22]. Ovarian endometrial tumors frequently resemble to

sex cord-stromal tumors by morphology [23]. However,

α-inhibin is positive in luteinized stromal cells but ne-

gative in endometrioid adenocarcinoma cells [19]. In con-

trast, ER and PgR are frequently positive in endometrioid

adenocarcinoma cells [24] while negative in luteinized

stromal cells. These markers may be useful in differential

diagnosis.

4. Conclusion

We reported a rare case of ovarian endometrioid adeno-

carcinoma with functioning foamy stromal cells accom-

panied with endometrial endometrioid adenocarcinoma.

Immunohistochemistry revealed α-inhibin and the pro-

duction of sex steroid hormone (17ß-estradiol) in foamy

stromal cells, which may be related to the promotion and

proliferation of ER-positive ovarian and endometrial en-

dometrioid adenocarcinomas. Therefore endometrial ex-

amination is essential in patients suffering ovarian endo-

metrioid adenocarcinoma with functioning stroma. Addi-

tional cases are required to elucidate the precise mechan-

isms of this complication and to predict the patient’s

outcome.

5. Acknowledgements

The authors thank Ms. T. Akamatsu for her technical

assistance of immunohistochemical assistance and Ms. A.

Shudo for preparing the manuscript.

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