Embryonal tumor with abundant neuropil and true rosettes with only one structure suggestive of an ependymoblastic rosette

Embryonal tumor with abundant neuropil and true rosettes (ETANTR) is a very aggressive embryonal central nervous system (CNS) tumor, histologically featuring ependymoblastic rosettes and neuronal differentiation in a neuropil‐like background. 19q13.42 amplification was identified in ETANTR and epndymoblastoma, suggesting that these tumors constitute a single entity, called embryonal tumor with multilayered rosettes (ETMR). Here, we report a case involving a 2‐year‐old boy with a pontine embryonal tumor composed of clusters of poorly differentiated neuroepithelial cells, and smaller neuroblastic/neurocytic cells in a fibrillary and paucicellular neuropil‐like matrix, where clear ependymoblastic rosettes were not detected but only one structure suggestive of an ependymoblastic multilayered rosette was found. Fluorescence in situ hybridazation analysis revealed 19q13.42 amplification, supporting the diagnosis of ETANTR. This report indicates that rare ependymoblasic rosettes found in embryonal tumors, which are otherwise CNS primitive neuroectodermal tumors or medulloblastomas, are significant for considering the examination of 19q13.42 amplification to confirm the diagnosis of ETMR.     

The Role of CD133+ Cells in a Recurrent Embryonal Tumor with Abundant Neuropil and True Rosettes (ETANTR)

Embryonal tumor with abundant neuropil and true rosettes (ETANTR) is a recently described embryonal neoplasm of the central nervous system, consisting of a well‐circumscribed embryonal tumor of infancy with mixed features of ependymoblastoma (multilayer ependymoblastic rosettes and pseudorosettes) and neuroblastoma (neuroblastic rosettes) in the presence of neuropil‐like islands. We present the case of a young child with a very aggressive tumor that rapidly recurred after gross total resection, chemotherapy and radiation. Prominent vascular sclerosis and circumscribed tumor led to the diagnosis of malignant astroblastoma; however, rapid recurrence and progression of this large tumor after gross total resection prompted review of the original pathology. ETANTR is histologically distinct with focal glial fibrillary acid protein (GFAP) and synaptophysin expression in the presence of neuronal and ependymoblastic rosettes with focal neuropil islands. These architectural features, combined with unique chromosome 19q13.42 amplification, confirmed the diagnosis. In this report, we describe tumor stem cell (TSC) marker CD133, CD15 and nestin alterations in ETANTR before and after chemotherapy. We found that TSC marker CD133 was richly expressed after chemotherapy in recurrent ETANTR, while CD15 is depleted compared with that expressed in the original tumor, suggesting that CD133+ cells likely survived initial treatment, further contributing to formation of the recurrent tumor.     

Ependymoblastoma: Dear,Damned, Distracting Diagnosis,Farewell!

Ependymoblastoma is a diagnostic label that has been applied to a variety of rare central nervous system (CNS) tumors over the last eight decades. Consequently, there is uncertainty about whether such an entity exists and what its characteristic features might be. The current study, based on 14 cases from our institutional archives and identified by the search terms “ependymoblastoma,”“ependymoblastomatous,”“ependymoblastic” or “PNET with ependymal differentiation,” aimed to test the hypothesis that the ependymoblastoma is a distinct and recognizable entity. Ependymoblastic rosettes are a key diagnostic feature and were present in 11/14 (79%) tumors, eight (73%) of which were embryonal tumors with abundant areas of neuropil‐like differentiation. Three other cases showed rare ependymoblastic rosettes in the histopathological setting of a typical primitive neuroectodermal tumor (PNET), medulloblastoma (MB) or atypical teratoid/rhabdoid tumor (AT/RT). The remaining cases were all embryonal tumors with structures that mimicked ependymoblastic rosettes. Our results indicate that ependymoblastic rosettes are most frequently encountered in embryonal tumors with abundant neuropil and less frequently in other CNS embryonal neoplasms, including PNET, MB and AT/RT. We believe that ependymoblastoma as a diagnosis is neither precise nor specific and that it is time once and for all to retire this diagnosis from the lexicon of neuropathology.     

Clinicopathological characteristics and outcomes in embryonal tumor with multilayered rosettes: A decade long experience from a tertiary care centre in North India

BackgroundEmbryonal tumor with multilayered rosettes (ETMR) are a heterogenous group clinically, pathologically and topographically. Due to limited cases, data regarding its molecular genetics, pathology and prognostic factors is evolving. We retrospectively analysed our cohort of ETMR over last decade in order to study their clinicopathological characteristics and outcome.MethodsOur cohort consisted of patients diagnosed with Embryonal tumor with abundant neuropil and true rosettes (ETANTR)/Ependymoblastoma (EBL)/ Medulloepithelioma (MEPL) over the past decade. Clinical details, including outcome and imaging data was retrieved. Histological analysis including immunohistochemical work-up was performed.ResultsCohort included 15 patients with age range between 1 and 28 years and M:F ratio of 1.5:1. Supratentorial location predominated in comparison to tumors arising in posterior fossa. ETANTR and EBL patterns were equally distributed (40% each), followed by one case each of mixed pattern (EBL + ETANTR), MEPL and embryonal tumor, unclassified. All tumors readily expressed LIN 28A and INI-1 was retained. Recurrence with evidence of glial and rhabdoid differentiation was noted in a single patient 9 months following resection. Follow-up period ranged from 1 to 31 months, with overall median survival of 6.4 months. Eight patients were planned for adjuvant treatment following surgery, of which only four could complete it. All patients, except for one, succumbed to the disease.ConclusionsETMR have a heterogenous morphology and gathers ETANTR, EBL, MEPL within its spectrum. Following treatment, the recurrent tumor may feature glial/rhabdoid differentiation. LIN28A is expressed in all cases, however should be interpreted in context of histology. Prognosis of ETMR remains dismal despite multimodal therapy.     

An immunohistochemical study of neuropeptides and neuronal cytoskeletal proteins in the neuroepithelial component of a spontaneous murine ovarian teratoma. Primitive neuroepithelium displays immunoreactivity for neuropeptides and neuron-associated beta-tubulin isotype

Approximately one third of the female mice of the LTXBO strain develop spontaneous ovarian teratomas. These tumors contain a large neuroepithelial component, which includes primitive neural structures resembling embryonic neural tubes (medulloepithelial rosettes), ependymoblastic and ependymal rosettes, neuroblasts, mature ganglionic neurons, myelinated neurites, and astrocytes. The purpose of this study was to characterize these tumors according to the immunohistochemical location of some well-characterized trophic and regulatory neuropeptides and neurotransmitters, several neuronal-associated cytoskeletal proteins, and other proteins indicative of neuronal and glial differentiation. Medulloepithelial rosettes showed focal serotonin-like, opioid peptide-like and gamma-amino butyric acid-like immunoreactivity, and displayed immunostaining for the neuron-associated class III beta-tubulin isotype. The mature ganglion cells were also immunoreactive for these markers, and, in addition, for somatostatin, cholecystokinin, bombesin, glucagon, vasoactive intestinal peptide, and neuropeptide Y. Mature ganglion cells were also immunoreactive for proteins associated with the neuronal cytoskeleton (including microtubule-associated proteins, MAP2 and tau, and higher molecular weight phosphorylated and non-phosphorylated neurofilament subunits), neuron-specific enolase, and synaptophysin. Undifferentiated stem cells, ependymoblastic and ependymal rosettes, and astroglia all stained with a monoclonal antibody that recognizes all mammalian beta-tubulin isotypes, but did not react with antibodies to neuronal-associated cytoskeletal proteins or neuropeptides. Neuropeptide-like immunoreactivity and demonstration of the class III beta-tubulin isotype indicate early neuronal commitment in neoplastic primitive neuroepithelium. These patterns of immunoreactivity closely follow those encountered in the normal neurocytogenesis of the mammalian and avian forebrain, and increase the precision with which the early stages of progressive neuroepithelial differentiation can be analyzed in human embryonal tumors of the CNS.     

Immunohistochemistry of a spontaneous murine ovarian teratoma with neuroepithelial differentiation. Neuron-associated beta-tubulin as a marker for primitive neuroepithelium

Spontaneous ovarian teratomas develop in a large proportion of female LT strain mice. These tumors display a large neuroectodermal component with morphologic differentiation ranging from primitive neuroepithelium (medulloepithelial and ependymoblastic rosettes) to mature neurons, and provide a useful system for the study of various asynchronous stages of neuroepithelial differentiation. The aim of this study was to assess the expression of various cytoskeletal proteins in conjunction with other differentiation-related antigens in these tumors. We found that the medulloepithelial rosettes reacted with only two anti-beta-tubulin monoclonal antibodies. One of these (TU27) recognizes an epitope common to all of the mammalian beta-tubulin isotypes. The other monoclonal antibody (TUJ1) recognizes an epitope unique to class III beta-tubulin isotypes (neuronal-associated). Whereas immunoreactivity in the ependymoblastic rosettes was limited to TU27, differentiating polar neuroblasts reacted with both TU27 and TUJ1 and expressed neuron-specific enolase, synaptophysin, and the 68 kilodalton subunit of neurofilament protein. In well-differentiated foci, mature neurons were positive for all three neurofilament protein subunits (68, 168 and 200 kilodaltons), microtubule-associated-protein 2, synaptophysin, and neuron-specific-enolase, and reacted with both TU27 and TUJ1. By contrast, glial elements expressed glial fibrillary acidic and S-100 proteins, Leu-7 and TU27 but not TUJ1. Myelin basic protein and myelin-associated glycoprotein reactivity was found in the neuropile of these mature areas. The neuroepithelial components were negative for retinal S-antigen and cytokeratin. The expression of the class III beta-tubulin isotype by medulloepithelial rosettes suggests that this isotype may be one of the earliest markers to signal neuronal commitment in primitive neuroepithelium.     

Comparative genomic and in situ hybridization of germ cell tumors of the infantile testis

Chromosomal information on germ cell tumors of the infantile testis, ie, teratomas and yolk sac tumors, is limited and controversial. We studied two teratomas and four yolk sac tumors using comparative genomic hybridization (CGH) and in situ hybridization. No chromosomal anomalies were found in the teratomas by any of the methods, not even after CGH on microdissected tumor cells. All yolk sac tumors showed aneuploidy, loss of parts of 4q and 6q, and gain of parts of 20q. Underrepresentation of parts of 8q and overrepresentation of parts of 3p, 9q, 12p, 17, 19q, and 22 were detected in most cases. In addition, one recurrent yolk sac tumor after a sacral teratoma was studied, showing a highly similar pattern of imbalances. While CGH demonstrated loss of 1p36 in one testicular yolk sac tumor, in situ hybridization revealed loss of this region in all yolk sac tumors. High-level amplification of the 12q13-q14 region was found in one yolk sac tumor. MDM2, of which the encoding gene maps to this chromosomal region, was found in all cases using immunohistochemistry, whereas no p53 could be detected. Accordingly, no mutations within exons 5 to 8 of the p53 gene were observed. These data prove the absence of gross chromosomal aberrations in teratomas of the infantile testis and show a characteristic pattern of gains and losses in the yolk sac tumors. Besides confirmation of previously found anomalies, recurrent losses of 1p21-31 and 4q23-33 and gains of 9q34 and 12p12-13 have not been reported before. While genetic inactivation of p53 seems unimportant in the pathogenesis of these tumors, biochemical inactivation by MDM2 might be involved. These data support the existence of three entities of germ cell tumors of the human testis: teratomas and yolk sac tumors of infants, seminomas and nonseminomas of adolescents and young adults, and spermatocytic seminomas of the elderly, each with its own specific pathogenesis.     

Teratome des Ovars

Teratomas are the most frequent germ cell tumors of the ovary. Two main groups can be distinguished: mature and immature teratomas. Mature teratomas are benign tumors, which are most often composed of derivatives of two or three germ cell layers. Only in rare cases is the transition into a malignant tumor observed (most often squamous cell carcinoma). In contrast, immature teratomas are malignant ovarian tumors. They contain immature tissue elements in addition to the mature components, most often consisting of immature neural tissue. Histologically, this tumor component can be identified as neurotubules or rosettes. The proportion of immature tissue elements defines the grade of immaturity. Four grades have been defined in to the WHO classification. Grade 0 represents a mature teratoma. With the exception of childhood cases, grade 2 and 3 immature teratomas are treated with chemotherapy. In childhood cases, foci of yolk sac tumor (YST) must be looked for, since this determines the prognosis. If a focus of YST is present, the patient is treated with chemotherapy. Both in cases of mature and immature teratoma, peritoneal implants can be found (gliomatosis peritonei), which are also graded. In cases of immature peritoneal implants, patients are also treated with chemotherapy. Gliomatosis peritonei is most likely derived from metaplasia of subperitoneal stem cells; it does not represent a metastatic disease of the ovarian teratoma.     

Germ cell tumors of testis: histological classification of 552 cases according to the WHO-nomenclature

Using the WHO-nomenclature 552 germ cell tumors of testis were reclassified. The analysis revealed the following: germ cell tumors occur in early childhood at the age of 3 months to 3 years, in adult hood (26-35) the occurrence shows a peak, and in old aged men only some tumors are registered. No germ cell was found between 4 to 13 years. Our material comprised 245 seminomas (44.4%) and 307 non-seminomatous germ cell tumors (55.6%). In the group of tumors of one histologic type, 245 cases of seminomas represent the main part. The following subgroups were recognized: typical seminomas--229 cases (93.5%), spermatocytic seminomas--9 cases (3.7%), and anaplastic seminomas--7 cases (2.8%). In 10 seminomas (4.1%() we have found syncytiothrophoblastic giant cells. In comparison to other investigations, the number of anaplastic seminomas is very low, but on the other hand the diagnosis Of this tumor is problematic, especially, the differential diagnosis of solid variants of embryonal carcinomas. The most common non-seminomatous tumor in this group is the embryonal carcinoma (16.8%). No polyembryoma and choriocarcinoma were observed, and only 2 yolk-sac-tumors occurred in infants. The occurrence of teratomas was also low, i.e. 15 cases of mature teratoma and 13 cases of immature teratoma. In the group of tumors of more than one histologic type, cases showing embryonal carcinoma and teratoma prevail (83 tumors). In addition to this combination other common tumors of this group (contained structures of seminomas (25 cases), yolk-sac-tumors (22 cases), an choriocarcinomas (19 cases) and embryonal carcinomas and yolk-sac-tumors (13 cases). Altogether, this group comprised 72.8% of the non-seminomatous tumors. Furthermore, the peculiarities of germ cell tumors of childhood are described. In this group the mature teratomas prevail. No seminoma could be registered in infancy. The distribution of our cases among the various types and the subgroups agreed in the main classes with that reported in literature but in special differentiations there are some discrepancies. The problem of classification of germ cell tumors is discussed.     

Placental alkaline phosphatase immunohistochemistry of intratubular malignant germ cells and associated testicular germ cell tumors

Two hundred three testicular germ cell tumors were studied immunohistochemically for the presence of placental alkaline phosphatase (PLAP). Special emphasis was placed on the pattern and incidence of positive staining of intratubular malignant germ cells (ITMGCs) adjacent to tumors. 99% of cases with adjacent ITMGCs showed a positive staining reaction in some or all IT-MGCs present. Other germ cell elements showed at least a focal positive staining reaction in the following proportions: seminomas, 96%; embryonal carcinomas, 96%; yolk sac tumors, 25%; mature teratomas, 5%; immature teratomas, 4%; choriocarcinomas, 45%; and syncytiotrophoblasts, 43%. The staining pattern for seminomas tended to be diffuse, whereas for embryonal carcinomas the staining pattern was more focal. Yolk sac tumors stained inconsistently for PLAP and a positive reaction was limited to a small percentage of cells. Syncytiotrophoblasts, singly or in choriocarcinomas, also showed variable positivity. These results corroborate the fact that PLAP is a sensitive marker for ITMGC, seminoma, and embryonal carcinoma.     

先天性室管膜母细胞瘤尸检分析并文献复习

目的探讨先天性室管膜母细胞瘤的临床及组织病理学特征。方法对1例经尸检诊断的先天性室管膜母细胞瘤的组织病理学、免疫组织化学、超微结构以及DNA倍体情况进行研究,并结合文献复习。结果孕中经B超发现的颅内肿瘤,经尸检确定位于左颞叶近侧脑室后角处,直径约3.5 cm。肿瘤细胞胞核致密浓染,胞质少,密集成团形成具有复层细胞和近腔处活跃核分裂特征的菊形团。免疫组化结果示肿瘤细胞vim entin阳性,GFAP少数阳性。结论室管膜母细胞瘤是一种极少见的神经上皮胚胎性肿瘤,具有特征性的“室管膜母细胞瘤”菊形团结构。肿瘤主要位于幕上,好发于婴幼儿,具有高度侵袭性,预后极差。     

Definition of a new entity of malignant extragonadal germ cell tumors

Two malignant extragonadal germ cell tumors are reported, histologically classified as immature teratomas, having pseudodiploid karyotypes with complex structural rearrangements but lacking isochromosome 12p or other rearrangements involving 12p. The absence of 12p material in structural rearrangements was confirmed by chromosome painting. In the two tumors the following common chromosomal breakpoints were found: 6p21, 6p22, 6q23, and 11q13. Exactly the same chromosomal regions, 6p22::6q23 and 6p21::11q13, were involved in fusions. The two tumors belong to a new entity of extragonadal immature teratomas of adults which may be located in the retroperitoneum and posterior mediastinum and are prone to blood borne metastasis.     

Frequent Fas gene mutations in testicular germ cell tumors

The Fas (Apo-1/CD95)/Fas ligand (L) system is involved in cell death signaling, and has been suggested to be important for the regulation of germ cell apoptosis in the testis. Mutations of the Fas gene may result in accumulation of germ cells and thus might contribute to testicular carcinogenesis. The open reading frame of Fas cDNA was examined in 24 cases of testicular germ cell tumors (TGCTs), comprised of 19 pure histological type (15 seminomas, 3 embryonal carcinomas, 1 immature teratoma) and 5 mixed-type tumors. Mutations of the Fas gene were found in nine (37.5%) of these cases. Each lesion with a homogeneous histological picture was selectively microdissected using a laser capture microdissection method: samples consisted of 18 lesions from seminomas, 7 embryonal carcinomas, 4 immature teratomas, 2 choriocarcinomas, and 1 from a yolk sac tumor. Microdissected genomic DNA was examined to determine which mutations were derived from which kind of histological lesion. Eleven mutations were detected in 10 TGCT lesions from nine cases, but none were found in benign lesions. All were point mutations, and eight missense mutations occurred in exon 9 encoding the core protein of the death domain essential for apoptotic signal transduction. Three were silent mutations. Mutations were found in the seminoma (27.8%) and embryonal carcinoma lesions (62.5%), but none were found in the one yolk sac tumor, two choriocarcinomas, or four immature teratoma lesions. Each seminoma and embryonal carcinoma lesion found in the same case had a different type of Fas mutation from the others. Mouse T-cell lymphoma cells transfected with missense mutated genes were resistant to apoptosis induced by anti-Fas antibody, indicating these to be loss-of-function mutations. These findings suggested a role of Fas gene mutations in the pathogenesis of TGCTs.     

Chromosome 17 abnormalities in pediatric neuroblastic tumor with abundant neuropil and true rosettes

Although as a group, embryonal central nervous system tumors share a common background of primitive round cells, numerous distinctive histologic features allow for further subclassification. One tumor with a unique microscopic appearance is the recently described pediatric neuroblastic tumor with abundant neuropil and true rosettes (PNTANTR). We report 2 additional cases of this unusual tumor; both arose in 4-year-old children, one a midpontine tumor and the other a large cerebral lesion. The tumors contained hypercellular sheets of undifferentiated cells, broad zones of neuropil, and scattered perivascular, Homer Wright, and multilayered ependymoblastic-like rosettes. Isochromosome 17q was detected in multiple samples from one tumor, while the other tumor showed polysomy 17. No deletions of INI1 or amplifications of MYC or MYCN were detected. This report adds 2 cases to our experience of PNTANTR and is the first to demonstrate isochromosome 17q, a molecular alteration typical of medulloblastomas.     

Metaphase and array comparative genomic hybridization: unique copy number changes and gene amplification of medulloblastomas in South America

Tumors of the central nervous system are the second most frequent malignancy of childhood, accounting for the majority of cancer-related deaths in this age group. Among these tumors, medulloblastomas (MB) remain in need of further genomic characterization toward understanding of pathogenesis and outcome predictors. Eight pediatric embryonal brain tumors were analyzed: five MB (one being desmoplastic), one PNET, one medulloepithelioma, and one ependymoblastoma. Analyses identified genomic imbalances, including the gain of 16p and the nonsyntenic coamplification of MYCN and TERT loci. More detailed FISH analysis showed that coamplification of MYCN and TERT in one of the MBs manifested as dispersed nuclear speckling, consistent with the presence of double minute chromosomes. There was considerable cell-to-cell copy number heterogeneity present, but it was clear that both genes were amplified concordantly. The amplification of oncogenes seems to play an important role in the pathogenesis of MB, and the association between MYCN and TERT amplifications and poor prognosis has not been well recognized. The uncharacteristic pattern of genomic imbalances detected in MB tumors may be a reflection of the characteristics of these tumors occurring in South America.     

Chromosome 22q deletions in atypical teratoid/rhabdoid tumors in adults

Atypical teratoid/rhabdoid tumors (AT/RTs) are rare, malignant brain tumors that usually occur in the posterior fossa. Both AT/RT and the analogous tumor outside the brain, malignant rhabdoid tumor, share a polyphenotypic immunoprofile and frequent 22q deletions with inactivation of the IN11/hSNF5 gene. Reports, so far, indicate that AT/RTs occur almost exclusively in children, most of whom are 5-years-old or less. The rarity of the tumor and the polyphenotypic immunoprofile, characterized by antigen expression that is often patchy, make diagnosis in adults difficult and controversial. We describe three AT/RTs in adults in which the diagnoses were supported by detection of 22q11.2 deletions, INI1 mutation and/or loss of INI1 protein expression. Two patients were female, ages 20 and 31 and one was male, age 45.Two tumors occurred in the sella or sellar region and one in the cerebellum. In all cases, fluorescence in situ hybridization with probes to the BCR (22q11.2) and NF2 (22q12) regions of chromosome 22 revealed single copy deletions of BCR with normal dosages of NF2 and, in all cases, immunohistochemistry demonstrated loss of INI1 protein expression. In one case, a single base pair deletion was detected in the INI1/hSNF5 gene. These molecular findings confirm the occurrence of AT/RTs in adults. Although rare, AT/RT should be considered in the differential diagnosis of poorly differentiated intracranial tumors in adults.     

Primary atypical teratoid/rhabdoid tumor of central nervous system in children: a clinicopathological analysis and review of literature in China

Atypical teratoid/rhabdoid tumor (AT/RT) is a very rare and highly malignant embryonal tumor in the central nervous system (CNS). Five patients (4 girls and 1 boy) with AT/RT were treated in our hospital. The clinical histories, symptoms, neuroimaging aspects, therapies, histological and immunohistochemical findings and follow-up information were reviewed. The patients ranged from 8 to 40 months with a mean age of 20.6 months. One tumor was located in the spinal cord, two in cerebellum and two in the pineal region. The imagings of the tumors resemble medulloblastomas. Pathological examinations showed that one patient had medulloblastoma differentiation, one had choroid plexus carcinoma differentiation, and one had mesenchymal components. Immunohistochemical staining showed that all of the tumors lost the nuclear expression of integrase interactor 1 (INI1), and were positive for Vimentin, S-100 protein and epithelial membrane antigen. One case with no recurrence after 24 months may have benefited from radical excision and postoperative radiotherapy. The other 4 patients died 8, 4, 1 and 1-month respectively after operation without radiotherapy. The diagnosis of AT/RT depends on full sampling, careful observation the morphological characteristics and INI1 examination, even when the tumor are presented in uncommon sites, such as the spinal cord and the pineal region.     

Epidermal growth factor receptor abnormalities in atypical teratoid/rhabdoid tumors and an unusual case with gene amplification

Atypical teratoid/rhabdoid tumor (AT/RT) is a rhabdoid tumor of the central nervous system comprising a mixture of small round cells and mesenchymal and/or epithelial elements, showing mutation of the SMARCB1 gene or SMARCA4 gene. The epidermal growth factor receptor (EGFR) is one of the tyrosine kinase receptors whose overexpressed protein plays important roles in the malignant characteristics of various tumors. We analyzed 8 Japanese cases of AT/RT for EGFR protein overexpression and egfr gene amplification using immunohistochemistry and fluorescence in situ hybridization. The patients included 7 boys and 1 girl (age range 13 days to 2 years), and the tumors were localized in the frontal lobe (1 case), lateral ventricle (1 case), third ventricle (1 case), fourth ventricle (3 cases), and cerebellum (2 cases). We found that all (100%) of them partially expressed a high level of EGFR protein, and that one case showed amplification of egfr, the amplified area being localized and limited to a specific area within the tumor. We speculate that AT/RT is a tumor with heterogeneous egfr amplification, and that the frequency of amplification may depend on loss of function of the specific chromatin-remodeling member.     

Identical allelic losses in mature teratoma and other histologic components of malignant mixed germ cell tumors of the testis

Teratomas of the testis in post-pubertal patients are histologically diverse tumors that often coexist with other types of germ cell tumors. Using laser capture microdissection and loss of heterozygosity analysis, we investigated the clonality of mature teratoma and its relationship to other components of malignant mixed germ cell tumors to gain potential insight into the histogenetic relationship of teratoma with other germ cell tumor components. All 16 patients had mature teratoma as one component of their mixed germ cell tumors. The other histological subtypes included immature teratoma, seminoma, embryonal carcinoma, yolk sac tumor, and choriocarcinoma. Laser-assisted microdissection was performed on the formalin-fixed, paraffin-embedded tissue. Polymerase chain reaction was used to amplify genomic DNA at specific loci on chromosome 1p36.2 (D1S508), 2q22-32 (D2S156), 9p21-22 (D9S162), 11p13 (D11S903), 12q22-23 (D12S1051), and 18q21 (D18S46). Fourteen of 16 (88%) cases showed allelic loss in one or more components of the mixed germ cell tumors. Fourteen of 16 mature teratomas showed allelic loss in at least one of six microsatellite polymorphic markers analyzed. The frequency of allelic loss in mature teratoma was 50% (7 of 14) with D1S508, 33% (5 of 15) with D2S156, 58% (7 of 12) with D9S162, 43% (6 of 14) with D11S903, 20% (3 of 15) with D12S1051, and 33% (5 of 15) with D18S46. Completely concordant allelic loss patterns between mature teratoma and all of the other germ cell tumor components were seen in 10 of 14 tumors in which mature teratoma showed loss of heterozygosity. Our data support the common clonal origin of mature teratoma with other components of malignant mixed germ cell tumors of the testis.     

PRODUCTION OF ALPHA-FETOPROTEIN BY HUMAN GERM CELL TUMORS IN VIVO AND IN VITRO

The production of alpha-fetoprotein (AFP) by human germ cell tumors was studied in surgical specimens, cultured cells and transplanted tumors in nude mice. AFP was detected most frequently in yolk sac (endodermal sinus) tumors, and it was also detected, though only occasionally, in embryonal carcinomas and in teratomas. AFP-positive cells in teratomas presented a glandular or hepatoid appearanece. Our experimental data suggest that AFP production in embryonal carcinomas is due to the functional expression of yolk sac differentiation preceding its morphologic expression. Although the transplanted tumors maintained the productivity of AFP, the cultured cells were not successful in maintaing a continuous AFP production.