key: cord-0920163-vwew3u44
authors: Bostan, Hayri; Duger, Hakan; Akhanli, Pinar; Calapkulu, Murat; Turkmenoglu, Tugba Taskin; Erdol, Ayse Kevser; Duru, Serap Akcali; Sencar, Muhammed Erkam; Kizilgul, Muhammed; Ucan, Bekir; Ozbek, Mustafa; Cakal, Erman
title: Cushing’s syndrome due to adrenocorticotropic hormone-secreting metastatic neuroendocrine tumor of unknown primary origin: a case report and literature review
date: 2021-09-03
journal: Hormones (Athens)
DOI: 10.1007/s42000-021-00316-z
sha: e09ce0c1aa768495b4c8e444da90817df31be512
doc_id: 920163
cord_uid: vwew3u44

BACKGROUND: In this article, we present a case of neuroendocrine neoplasm of unknown primary origin (UPO NEN), which is a rare cause of ectopic Cushing’s syndrome (ECS) presenting numerous challenges, together with a literature review. CASE REPORT: A 43-year-old male patient presented with clinical features consistent with Cushing’s syndrome (CS) and adrenocorticotropic hormone (ACTH)-dependent hypercortisolemia. Despite a suspicious lesion on pituitary MRI, the high-dose dexamethasone suppression test and bilateral inferior petrosal sinus sampling results were not compatible with Cushing’s disease. Bilateral non-homogeneous opacities were observed in the thorax CT of the patient, who also had a history of COVID-19 infection, but no tumoral lesion was detected. When (68)Ga-SSTR PET/CT and (18)FDG-PET/CT were performed, multiple metastatic foci were detected in mediastinal and hilar lymph nodes and the axial skeleton. Paratracheal-subcarinal lymph nodes were excised mediastinoscopically, and the diagnosis of NEN was made. Histopathological findings indicated that the possible origin was an atypical pulmonary carcinoid with a low Ki-67 labeling index. After controlling hypercortisolemia, a regimen of somatostatin analogs and capecitabine plus temozolomide was decided upon as treatment by a multidisciplinary council. CONCLUSION: This is a challenging case of UPO NEN presenting with ECS and confounding factors, such as previous infection and incidental lesions, during the diagnosis process. The case in question highlighted the fact that atypical pulmonary carcinoid with a low proliferation index may cause visible metastases even when radiologically undetectable.

Ectopic Cushing's syndrome (ECS) is a rare condition which can have serious consequences due to a number of hormonal and tumoral aspects. Approximately 4% of adrenocorticotropic hormone (ACTH)-dependent Cushing's syndrome (CS) cases are composed of malignant neuroendocrine neoplasms (NENs) that secrete ectopic ACTH [1] . Although in the past the most common cause of ECS was considered to be small cell lung carcinoma, in recent years, thanks to increasing awareness, well-differentiated bronchial carcinoids have gained prominence in explaining the etiology [2] . Visible metastasis can be detected at the time of diagnosis in approximately 40-50% of all NEN cases. The primary origin cannot be determined in 13% of metastatic NEN cases [3] .

Failure to determine the primary lesion in metastatic NEN patients with ACTH secretion makes the effort to control both the tumor and the symptoms associated with hypercortisolemia challenging.

In this article, we report a case of metastatic NEN of unknown primary origin, which is a rare cause of ECS and presents various difficulties in the diagnosis process and treatment decision.

A 43-year-old male patient presented at our clinic in November 2020 with complaints of muscle weakness in both legs, edema on the dorsum of the foot, and weight gain of 10 kg in the last 6 months. He had a 2-year history of hypertension, as well as obsessive-compulsive disorder and prediabetes for 1 year. In addition, 4 months before presentation, the patient had tested positive for coronavirus disease 2019 infection in July, 2020. Physical examination revealed moon face, buffalo hump, oral candidiasis plaques, central obesity, purple striae over the abdomen, easy bruising, and bilateral pitting edema in the pretibial region and the dorsal region of the foot. There was no history of exogenous steroid use or alcohol consumption.

The patient history and physical examination findings were compatible with CS, and the overnight dexamethasone suppression test was 28.7 µg/dL (reference range < 1.8). Morning serum baseline cortisol was 27.3 µg/dL (reference range: 6.2-19.4), late-night serum cortisol was 26.0 µg/dL (reference range < 7.5), and 24-h urine free cortisol (UFC) was 773.59 µg/day (reference range: 4.2-60). Plasma ACTH levels were checked twice and were recorded as 481 and 365 pg/mL (reference range: 0-46). Serum cortisol levels were determined with CMIA (chemiluminescent microparticle immunoassay), plasma ACTH levels with ECLIA (enzymelinked chemiluminescent immunosorbent assay), and 24-h UFC levels with LC-MS (lipid chromatography-mass spectrometry) methods. Hypercortisolemia was confirmed, and hypokalemia (K + : 3.18 mEq/L, reference range: 3.5-5.1) was also observed. Liver enzyme and kidney function tests were normal. The hormone panel showed the following: thyroid-stimulating hormone (TSH), 0.93 mIU/L (reference range: 0.27-4.2); free thyroxine (fT4), 0.72 ng/dL (reference range: 0.93-1.7); follicle-stimulating hormone (FSH), 0.86 IU/L (reference range: 1.5-12.4); luteinizing hormone (LH), < 0.3 IU/L (reference range: 1.7-8.6); and total testosterone, 55.8 ng/dL (reference range: 280-800). As an increase in TSH levels was not detected with the thyrotropin-releasing hormone (TRH) stimulation test, it was thought that the cause of hypothyroidism might be impaired TSH response to TRH secondary to hypercortisolemia (Table 1) .

Magnetic resonance imaging (MRI) of the pituitary gland was performed, and a suspicious 2 mm microadenoma was observed on the right side of the pituitary gland in the sagittal planes of the T1-weighted sequence (Fig. 1) . Serum cortisol and UFC levels were not suppressed after the highdose dexamethasone suppression test (Table 1 ). In bilateral inferior petrosal sinus sampling (BIPSS), no gradient was detected between peripheral and central ACTH levels before and after corticotropin-releasing hormone (CRH) infusion (Table 1 ). In light of dynamic test results, it was speculated that the suspicious lesion in the pituitary gland might be incidental, and the main source could be an ectopic ACTH secretion. Chromogranin A level measured on high suspicion of NEN was found to be slightly elevated (237 ng/mL (reference range: 0-100)). In addition, genetic testing was not considered for multiple endocrine neoplasia type 1, since the patient had no family history, while his ionized calcium, intact parathormone, and prolactin levels were within normal limits.

A thin-slice whole-body CT was performed in order to detect the ectopic focus in November 2020. Bilateral peripheral non-homogeneous densities were detected on thorax CT ( Fig. 2a, b) , primarily associated with the recent COVID-19 infection, and no pathology was observed on cervical and abdominal CT. Six weeks after the first imaging, gallium-68 labeled somatostatin receptor PET/CT ( 68 Ga-SSTR PET/CT) was performed, and increased activity uptake was observed in the paratracheal, subcarinal lymph nodes and in multiple sclerotic lesions in the axial skeleton ( Fig. 3a-c) . Bronchoscopy was also performed, but no tumor was detected in the trachea or bronchial lumen. 18 FDG-PET/CT was also applied in order to identify the possible primary origin and to better determine the spread of the aggressive NEN. In 18 FDG-PET/ CT, as in 68 Ga-SSTR PET/CT, increased 18 FDG uptake was observed in the right paratracheal, right hilar, subcarinal lymph nodes, and axial skeleton, the largest being in the L5 vertebra ( Fig. 3d-f ). In addition, low-intensity 18 FDG uptake was detected in the ribs, sternum, iliac bones, and both scapulae, consistent with metastatic disease.

Surgical excision was performed in the right paratracheal and subcarinal lymph nodes using a mediastinoscopic approach. Pathological analyses performed with hematoxylin and eosin (H&E) staining revealed a tumor composed of monomorphic epithelial cells with round to oval nuclei with salt and pepper chromatin, inconspicuous nucleoli, and moderate to abundant eosinophilic cytoplasm forming nests and trabecular structures intermingled with sparse lymphoid cells (Fig. 4a) . Immunohistochemical studies showed diffuse staining with chromogranin and TTF-1, moderate staining with synaptophysin, and sparse staining with CD56 in neoplastic cells (Fig. 4b-d) . There was no staining for calcitonin, thyroglobulin, or CDX2. Extensive lymphovascular invasion and two mitoses in 2 mm 2 were observed (Fig. 4e) , but necrosis was not detected. The Ki-67 labeling index was low (5-8%) (Fig. 4f) . Based on the microscopic and immunohistochemical findings, NEN metastasis was confirmed, and the possible origin of the tumor was presumed to be an atypical pulmonary carcinoid.

Enoxaparin for thromboprophylaxis and trimethoprim/ sulfamethoxazole for prophylaxis of Pneumocystis jirovecii pneumonia were initiated immediately after hospitalization of the patient. To control hypertension and hypokalemia, in addition to ramipril 5 mg treatment, spironolactone 50 mg was given, and oral potassium replacement was administered as needed. Metyrapone was started in order to control hypercortisolemia before second-line imaging methods were used. The initial dose was 1500 mg/day; however, because of an increase in gastrointestinal complaints and the presence of adrenal insufficiency symptoms, the dose was reduced to 500 mg/day, and 20 mg/day hydrocortisone was added to the treatment. UFC levels decreased to 0.59 µg/day (reference range 4.2-60) and remained within the normal range during the 7-month follow-up (Fig. 5) . After controlling the hypercortisolemia, thyroid function tests and total testosterone levels were normalized in 2 weeks. Considering that the primary origin of the metastatic disease might be a pulmonary atypical carcinoid (AC), a multidisciplinary council decided to start a regimen of temozolomide plus capecitabine (CAPTEM) with lanreotide 90 mg/month. The CAPTEM regimen consisting of temozolomide 360 mg/day for 5 days and capecitabine 4500 mg/day for 14 days each cycle was initiated, and meanwhile, the metyrapone treatment was continued. In addition to normalized serum cortisol and UFC levels after the metyrapone treatment, ACTH levels also tended to decrease after the CAPTEM regimen (Fig. 5 ). Ten cycles of radiotherapy and 4 mg of zoledronic acid were administered due to extensive symptomatic vertebral metastases. Although the 18 FDG-PET/CT scan was repeated 9 months after the first imaging and 4 months after the initiation of the cytotoxic treatment, the primary focus was still not detected, but a significant decrease was observed in the number, size, and metabolic activity uptake of metastatic foci. Hypercortisolemia and related comorbidities were observed to be under control during this period, and there was no cytotoxic treatment-related toxicity.

Herein, we describe a 43-year-old male patient with metastatic neuroendocrine neoplasm of unknown primary origin (UPO NEN). ECS is a challenging area of endocrine practice that may require lengthy diagnostic journeys to establish the location of the primary lesion.

Although the actual incidence and prevalence of ECS are not known, it constitutes 9-18% of ACTH-dependent CS cases [1, 2] . It has been reported that ECS occurs in 3.2-6% of NENs, and the tumor is often localized in the lung or thyroid in cases with ECS [4] [5] [6] . In UPO NENs, which constitute 13% of metastatic NENs, the most common cause of the functional syndrome is carcinoid syndrome; ACTH secretion can also be seen occasionally [3, 7] . Surgical series have reported that metastases often exist in the liver and peritoneal region, and the primary origin that can be detected intraoperatively is mostly in the small intestine [8] [9] [10] .

Pituitary MRI is an important guide in the differential diagnosis of CD and ECS, but false-positive or false-negative imaging may be experienced, as in the present case [11] . CRH administration combined with BIPSS is still the "gold standard" method to differentiate ECS from CD [12] . Thin-slice whole-body CT is recommended as the first-line imaging method to detect the tumor focus [13, 14] . Although it is a very effective method for detecting overt tumors, pulmonary embolism and infections can mask small NENs on CT [2] . In the current case, the recent history of COVID-19 infection and the presence of multiple non-homogeneous opacities in the lungs may have limited the detection of a possible pulmonary carcinoid at presentation. However, functional imaging performed 2 months later revealed that previously observed non-homogeneous densities had mostly disappeared (Fig. 2c, d) .

The superiority of 68 Ga-SSTR PET/CT over octreoscan in detecting NEN has been demonstrated, while its sensitivity in detecting the primary tumor in occult NEN cases has been reported as 57% [2, 15] . Though 18 FDG-PET/CT is effective in revealing NENs with aggressive behavior, it has limited benefit in defining slow-growing, well-differentiated NENs [13, 16, 17] . In the present case, both functional imaging methods were compatible with metastatic disease, and bone metastases were more extensive in 18 FDG-PET/CT than 68 Ga-SSTR PET/CT scan; however, the primary tumor could not be determined with either imaging method.

In the literature review, 35 cases of UPO NEN secreting ACTH have been previously reported [4, [18] [19] [20] [21] [22] [23] [24] [25] [26] . The female to male ratio of the 23 patients with available data was 13:10, and the age range of 10 of these patients was 30-55 years [18] [19] [20] [21] 25] . The metastases were in the liver and abdominal cavity in the six cases whose metastatic sites were mentioned [4, 18, 19, 25] . However, in our case, the lesions confirming the diagnosis of NEN were in the mediastinal lymph nodes and bones. The absence of hepatic involvement may be attributed to the early presentation of the current case, whose primary source is probably not the gastroenteropancreatic region. In addition, bone metastases are more prevalent in pulmonary carcinoids, unlike digestive NENs [27] .

In line with the recommendations of the European Neuroendocrine Tumor Society (ENETS) consensus report, in the context of metastatic presentation as in the current case, diffuse staining with TTF-1 and negative staining with CDX2, thyroglobulin, and calcitonin; the low Ki-67 labeling index; and the presence of two mitoses in 2 mm 2 indicated that the origin was almost certainly an AC [3, 27, 28] . Locoregional and/or distant metastasis can be seen at the time of diagnosis in 15% of typical carcinoids and in about half of ACs with visible primaries [27] . The present case demonstrates that even ACs that cannot be visualized may present with metastatic disease. The graph depicts serum cortisol, 24-h UFC, and ACTH variation following the initiation of metyrapone and CAPTEM regimen. ACTH, adrenocorticotropic hormone; CAPTEM, temozolomide plus capecitabine; 24-h UFC, 24-h urine free cortisol While hormonal risk is dominant in occult tumors secreting ACTH, tumoral risk is prominent in UPO NENs. However, in all cases, it is recommended to control hypercortisolemia and treat related comorbidities first and then perform a diagnostic evaluation. Moreover, thromboprophylaxis and Pneumocystis jirovecii pneumonia prophylaxis should be started [2] . The effectiveness of metyrapone (ranging from 500 to 3750 mg/day) in controlling hypercortisolemia in both the short and the long term has been demonstrated in a retrospective analysis involving both CD and ECS patients [29] . In the current case, UFC levels were reduced to the normal range with the lowest dose of metyrapone (500 mg/day). When the symptoms of adrenal insufficiency appeared, hydrocortisone was added, and a "block and replace" regimen was applied as recommended [30] . In the 7-month follow-up period of our case, there was no additional problem other than controllable hypokalemia associated with metyrapone.

In the ENETS consensus report, it was emphasized that the treatment decision in UPO NEN cases should be made according to the tumor grade, functionality, somatostatin receptor (SSTR) status, spread of the tumor, and hepatic tumor burden [3] . In the current case, an advanced AC with a low proliferation index was hypothesized, and somatostatin analog (SSA) treatment and the CAPTEM regimen were initiated. In addition to the cytotoxic therapy, bone-specific treatments, including radiotherapy and anti-resorptive therapy, were applied due to the high tumor burden in the bones rather than because of the negative effects of CS.

SSA is recommended as first-line treatment in low proliferation index ACs with positive SSTR, but there is no clear consensus on the initial dose [27] . Randomized, placebocontrolled trials conducted in digestive NENs showed positive effects of octreotide LAR 30 mg and lanreotide 120 mg in tumor control [31, 32] . In the present case, after continued stabilization of hypercortisolemia and no disease progression detected on sequential imaging, SSA treatment was continued with an initial dose of 90 mg/month of lanreotide.

Although it is stated in the ENETS consensus report that the overall response rate is below 30% with current regimens in advanced ACs, it is recommended to administer cisplatin-based chemotherapy regimens in high proliferation index disease, and temozolomide alone or in combination or streptozotocin-based chemotherapy regimens in low proliferation index disease. mTOR inhibitors such as everolimus are recommended in advanced ACs after the failure of other treatments [27] . In a recent study, Al-Toubah et al. reported that by applying the CAPTEM regimen in 19 patients with advanced lung NENs, a partial response was obtained in 30% of the patients and stable disease in 55%, while some patients had a tolerable toxicity profile, although adverse reactions were experienced [33] . In the present case, significant regression in metastatic lesions was observed 4 months after the initiation of cytotoxic treatment without any adverse reaction.

In conclusion, ECS is a rare entity that requires rapid management of hypercortisolemia because it may lead to fatal consequences and often involves long diagnostic processes. Past or active infections and incidental lesions may cause confusion and lead to many additional examinations. As in the present case, even radiologically invisible NENs with a relatively low Ki-67 labeling index and low mitosis count can be revealed with distant metastases at the time of diagnosis. After controlling hypercortisolemia in UPO NEN cases, it is important to characterize the possible primary origin to arrive at a treatment decision. Although the benefit of current chemotherapy regimens in metastatic disease is limited, cytotoxic treatment regimens combined with surgery and/or radiotherapy when necessary should be applied using a patient-based approach. 

Informed consent Written informed consent was obtained from the patient before the study.

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Consent to publish Written informed consent was provided from the patient for publication of this case report and accompanying images.