Nuclear protein in testis (NUT) midline carcinoma (NMC), also known as NUT carcinoma, is a poorly differentiated carcinoma characterized by translocations on chromosomes 15 and 19 [t(15;19)(q14;p13.1)] [1]. This genetic aberration occurs as a result of the fusion between the gene for NUT midline carcinoma family member 1 (
An 8-year-old Turkish boy presented at our hospital with complaints of cough, sweating, and loss of appetite during the previous 2 months. On physical examination, his skin was found to be mildly pale; his sclera was anemic. He had hepatomegaly, and his left cervical lymph nodes were palpable. Auscultation of the lungs revealed rales. A low level of hemoglobin, leukocytosis, and high levels of lactate dehydrogenase and α-fetoprotein were remarkable.
In computed tomography (CT) of the chest, infiltration and atelectasis of the right lung lower lobe were detected, and multiple lymph nodes in the thorax (the right upper and lower paratracheal, subcarinal, precarinal, right hilar, and para-aortic areas) were observed, the largest at 3 cm diameter. Abdominal magnetic resonance (MR) imaging revealed several metastatic masses in the liver and multiple abdominal lymph nodes, the largest at 2 cm diameter. Fluorodeoxyglucose (18F) ([18F]FDG) positron emission tomography (PET)–CT revealed additional metastatic lesions in the left iliac bone.
As a clinicoradiological outcome, the diagnosis was non-Hodgkin lymphoma (Burkitt lymphoma). Biopsies were sampled from the bone marrow and the abdominal lymph node. However, the bone marrow biopsy was unremarkable. Histopathology of the para-aortic lymph node showed tumor metastasis. The tumor was in the form of undifferentiated cell clusters constituted from randomly distributed nests in the desmoplastic stroma. Tumor cells had evident amphophilic cytoplasm, an irregular nuclear membrane, fine chromatin, and prominent nucleoli. Mitotic figures and apoptotic bodies were frequent (
A wide-range immunohistochemical panel was applied on 3 μm sections from paraffin blocks using a fully automated system using the following antibodies: pan-keratin antibody (clone AE1/AE3; Ventana Medical Systems, cat. No. 2595, research resource identifier (RRID): AB_2335932), epithelial membrane antigen antibody (clone E29; Ventana Medical Systems, cat. No. 790-4463, RRID: AB_2335986), CD 30 antibody (clone Ber-H83; Ventana Medical Systems, cat. No. 790-2926, RRID: AB_2336012), CD 117 antibody (clone ACK2; Ventana Medical Systems, cat. No. 790-2951, RRID: AB_2335973), CD 45 (leukocyte common antigen) antibody (clone F10-89-4; Ventana Medical Systems, cat. No. 790-2930, RRID: AB_2336014), CD 2 antibody (clone EP222; Ventana Medical Systems, cat. No. 760-4377, RRID: AB_2336006), CD 20 antibody (clone UMAB58; Ventana Medical Systems, cat. No. 760-2531, RRID: AB_2335956), CD 10 antibody (clone 56C6; Ventana Medical Systems, cat. No. 790-4506, RRID: AB_2336021), CD 34 antibody (clone QBEnd/10; Ventana Medical Systems, cat. No. 790-2927, RRID: AB_2336013), CD 117 (cKit) antibody (clone EP10; Ventana Medical Systems, cat. No. 790-2951, RRID: AB_2335973), BCL-2 antibody (clone bcl-2; Ventana Medical Systems, cat. No. 2693, RRID: AB_2335938), BCL-6 antibody (clone GI191E; Ventana Medical Systems, cat. No. 760-4241, RRID: AB_2335965), placental alkaline phosphatase antibody (clone NB10, Cell Marque, cat. No. 760-2664, RRID: AB_2335649), synaptophysin antibody (clone SY38; Ventana Medical Systems, cat. No. 790-4407, RRID: AB_2336016), chromogranin antibody (clone LK2H10; Ventana Medical Systems, cat. No. 760-2519, RRID: AB_2335955), CD 99 antibody (clone PCB1; Ventana Medical Systems, cat. No. 790-4452, RRID: AB_2336019), desmin antibody (clone 10H7D2; Ventana Medical Systems, cat. No. 2513, RRID: AB_2335926), Ki-67 antibody (clone MM1; Ventana Medical Systems, cat. No. 2520, RRID: AB_2335929), and anti-NUT antibody (clone C52B1; Cell Signaling Technology, cat. No. 3625, RRID: AB_2066833). An ultraView Universal DAB Detection Kit (Ventana Medical Systems, cat. No. 760-500) was used as an indirect, biotin-free system for detecting primary antibodies. The kit is intended to identify targets by immunohistochemistry using Meyer's hematoxylin as the counterstain. Interpretation of the immunohistochemistry was based on published data demonstrating distinctive granular (punctate or dusty) nuclear immunoreactivity present in >50% of neoplastic cell nuclei [4]. Positive and negative controls were compared. Normal testicular tissue was used as a positive control for the NUT immunohistochemistry. The tumor cells had an intense positive reaction for pan-keratin antibody and epithelial membrane antigen (
Because of the negative staining for a wide range of antibodies, the tumor was considered not to be differentiated into any of the common types of malignant tumors. Therefore, the preliminary diagnosis was “undifferentiated malignant epithelial tumor”. Undifferentiated carcinoma morphology led to the consideration of NMC diagnosis. An expert pathologist (author CAF) reported the patient as having poorly differentiated carcinoma consistent with “NUT midline carcinoma” because of the positive immunoreactivity with antibodies against NUT (
Initial chemotherapy involved dexamethasone (5 mg/m2 for 2 days and 10 mg/m2 for 3 days) and cyclophosphamide (200 mg/m2 for 2 days, according to the “Vorphase treatment” of non-Hodgkin lymphoma–Berlin-Frankfurt-Münster [NHL-BFM]-2012 treatment protocol). After the biopsy, undifferentiated malignant cells were observed; so, ICE (ifosfamide, carboplatin, and etoposide) chemotherapy (ifosfamide 1800 mg/m2 on days 1–3, etoposide 150 mg/m2 on days 1–3, and carboplatin 500 mg/m2 on day 3) was initiated. Despite an initial partial response to ICE chemotherapy, the patient frequently presented at our emergency room. During the treatment, respiratory distress and difficulty in swallowing developed; so, the chemotherapeutic regime had to be revised. The patient also received radiotherapy (36 Gy radiotherapy in 18 fractions, as applied to the para-aortic and pelvic lymph nodes).
During the most recent follow-up, CT revealed the progressive nature of the tumor compared with the imaging 7 months earlier. There were increased mediastinal lymph nodes, mediastinal shift to the left, total atelectasis of the right lung, and bilateral pleural effusion. Metastatic masses were remarkable in the right pleura, the diaphragm, the humerus, the sternum, the vertebrae, and the right kidney. Despite all efforts, the patient died 7 months after the initial diagnosis. The father of the patient provided written consent for the publication of this case report and any accompanying information and images. This case report was exempted from formal review by our institutional ethics committee.
Here, we describe a rare case of NMC, which is generally a fatal tumor, genetically identified as an undifferentiated carcinoma with partial SCC morphology. NMC was first reported as an intrathoracic highly malignant carcinoma by and Kees et al. [5] and Kubonishi et al. [6] in 1991. NMC is typically located in the midline and usually seen in the upper respiratory tract, the digestive tract, and the mediastinum [3]. However, it has also been reported in parathyroid glands, salivary glands, pancreas, and iliac bone [7, 8, 9, 10, 11, 12]. Initially regarded as a pediatric tumor, cases now have been identified in patients across a wide range of ages (0–78 years) among both male and female patients equally [7, 8]. Prasad et al. reported 5 pediatric cases of NUT carcinoma, all of which were in patients who presented with a midline head and neck mass. Despite an aggressive multimodality treatment, only 1 patient survived [13]. Our patient also died at the end of 7 months after diagnosis despite aggressive chemoradiotherapy.
Karyotyping or FISH should be performed for a definitive diagnosis [3]. Unlike many cases of SCC, NUT has a complex karyotype, characterized by the presence of a single reciprocal translocation t(15;19)(q14;p13.1). These genetic aberrations cause the fusion of the 19P 13.1 chromosome from the
Histopathology typically shows 2 types of tumor cell populations: poorly differentiated carcinoma and well-differentiated squamous cell islands with focal keratinization [7]. According to some reports, the tumor may contain trabecular and solid islands with an infiltrating margin and cord-like growth pattern or undifferentiated cell clusters arising from randomly distributed nests in the desmoplastic stroma [8]. On occasions, these tumors appear as clusters of small rounded cells with interstitial neutrophil infiltration [15].
According to World Health Organization characterization, NUT carcinomas commonly and characteristically demonstrate abrupt foci of keratinization [9]. This may include squamous eddies, single cell keratinization, intracellular bridges, cystic changes, necrosis, cholesterol granulomas, and psammoma-like bodies [10]. However, our patient had none of these features, so it was difficult to differentiate the diagnosis of NMC. Immunohistochemistry and FISH helped us to approach the exact diagnosis, suggesting a unique diagnostic view of NMC.
Histologically, NUT carcinoma is an undifferentiated or poorly differentiated carcinoma, marked by the constant expression of epithelial markers such as pan-cytokeratins (KL1 and AE1–AE3) on immunohistochemistry, and positive immunoreactivity for anti-cytokeratin antibodies, as well as epithelial membrane antigen, p63, and p40, which are the usual findings, and should raise the suspicion of NUT carcinoma in young individuals with a midline tumor [11]. Based on the nonspecific initial clinical presentation and histological features, an easy-to-use immunohistochemical tool is helpful to guide the diagnosis: diffuse and strong nuclear NUT immunoreactivity, revealing the probable presence of the NUT protein in significant quantities at the nuclear site, can confirm the diagnosis [11].
Differential diagnosis of NMC includes diagnostic challenges of undifferentiated carcinomas, poorly differentiated SCC, pediatric small blue round cell tumors (such as PNET, rhabdomyosarcoma, and desmoplastic small round cell tumor), melanoma, olfactory neuroblastoma, high-grade hematologic malignancy, endocrine carcinomas, and sino-nasal undifferentiated carcinoma [9]. Nuclear positivity of >50% for anti-NUT antibody with FISH allows the diagnosis of NUT carcinoma with 100% specificity, suggesting that positivity with p63 and NUT antibody is diagnostic for NMC [11]. The other methods of diagnosis are dual-color FISH to fix
There is no recommended curative treatment for NMC. Many patients are treated with multimodal therapy (surgery, radiotherapy, and chemotherapy). The average life expectancy is 6–7 months and the overall survival is 19% at 2 years. However, a systematic review of all previously reported salivary gland NUT carcinomas (n = 15) showed the median survival as 24 and 4 months for pediatric and adult patients, respectively. The 1-year overall survival was 67% for pediatric and 11% for adult patients [12]. Yet, no chemotherapeutic agent has been discovered that extends the lifetime. Sopfe et al. reported a metastatic NUT midline carcinoma presenting as a wide metastasis in a patient who was in remission for 37 months after multimodal therapy with aggressive neoadjuvant chemotherapy, radiation, and resection [17]. Our patient showed a rapid progress with resistance to radiotherapy and chemotherapy, a month after the initial diagnosis, and died at 7 months after the diagnosis.
NMC, an aggressive tumor with nonglandular differentiation has to be interpreted in the differential diagnosis of poorly differentiated carcinomas. Various diagnostic methods for NUT protein, including antibodies, can be helpful. We would like to draw attention to the diagnostic challenge of this rare and highly aggressive carcinoma. The primary lesson of this case report is that NMC, which should be considered in the differential diagnosis of patients of any age presenting with “undifferentiated carcinoma” with midline localization, in addition to immunostaining for NUT, which can be characterized by FISH. NUT carcinoma has a dismal prognosis despite the aggressive multimodality management (surgery and adjuvant chemotherapy and/or radiation). New strategies are needed to improve outcomes of patients with this tumor.