Peripheral neuroblastic tumors with genotype-phenotype discordance: a report from the Children's Oncology Group and the International Neuroblastoma Pathology Committee.

BACKGROUND: Of 4,706 peripheral neuroblastic tumors (pNTs) registered on the Children's Cancer Group and Children's Oncology Group Neuroblastoma Study between 1989 and 2010, 51 cases (1.1%) had genotype-phenotype discordance characterized by MYCN amplification (indicating poor prognosis) and Favorable Histology (indicating better prognosis). PROCEDURE: To distinguish prognostic subgroups in the genotype-phenotype discordant pNTs, two subgroups, "conventional" and "bull's eye," were identified based on the nuclear morphology. The "conventional" tumors (35 cases) included: Neuroblastoma, poorly differentiated subtype (NB-PD, 26 cases) with "salt-and-pepper" nuclei; neuroblastoma, differentiating subtype (4 cases); ganglioneuroblastoma, intermixed (3 cases); and ganglioneuroma, maturing subtype (2 cases). The "bull's eye" tumors included NB-PD with prominent nucleoli (16 cases). Clinicopathologic characteristics of these two subgroups were analyzed. N-myc protein expression was tested immunohistochemically on available tumors. RESULTS: No significant difference was found between these two subgroups in the distribution of prognostic factors such as age at diagnosis, clinical stage, histopathology category/subtype, mitosis-karyorrhexis index, ploidy, 1p LOH, and unbalanced 11q LOH. However, prognosis of the patients with "conventional" tumors (5-year EFS 85.7 ± 12.2%; OS 89.3 ± 10.3%) was significantly better than those with "bull's eye" tumors (EFS 31.3 ± 13.0%; OS 42.9 ± 16.2%; P = 0.0010 and 0.0008, respectively). Immunohistochemically all (11/11) tested "conventional" tumors were negative, and 10/11 tested "bull's eye" tumors were positive for N-myc protein expression. CONCLUSIONS: Based on the presence or absence of prominent nucleoli (the putative site of RNA synthesis/accumulation leading to N-myc protein expression), two prognostic subgroups, "conventional" with a better prognosis and "bull's eye" with a poor prognosis, were distinguished among the genotype-phenotype discordant pNTs.

Congenital cytomegalovirus infection associated with development of neonatal emphysematous lung disease.

A 26-week-gestation infant developed cystic lung changes which required lobar resection at 6 weeks of age. Lung histology showed cytomegalovirus (CMV) inclusion bodies. The authors present the radiology and histology images of this case and review the literature regarding congenital CMV infection and cystic lung disease. Lung disease caused by CMV is typically a diffuse pneumonitis. This is the first reported case of congenital CMV infection causing emphysematous lung disease to develop in the neonatal period. The case raises awareness of CMV as a possible cause of cystic lung lesions in newborns.

US and MRI of a pharyngeal hairy polyp with pathological correlation.

Hairy polyps are uncommon developmental malformations of the oropharynx. They are frequently pedunculated and can cause respiratory distress in the neonate. Hairy polyps are usually diagnosed with MRI but can be well seen at US. To our knowledge, the sonographic features have not been previously reported.

Ploidy and karyotype complexity are powerful prognostic indicators in the Ewing's sarcoma family of tumors: a study by the United Kingdom Cancer Cytogenetics and the Children's Cancer and Leukaemia Group.

Ewing's sarcoma family tumors (ESFT) are characterized by the presence of EWSR1-ETS fusion genes. Secondary chromosome changes are frequently described, although their clinical significance is not clear. In this study, we have collected and reviewed abnormal karyotypes from 88 patients with primary ESFT and a rearrangement of 22q12. Secondary changes were identified in 80% (70/88) of tumors at diagnosis. Multivariate analysis showed a worse overall and relapse free survival (RFS) for those with a complex karyotype (overall survival, P = 0.005; RFS, P = 0.04), independent of metastatic disease. Univariate survival analysis showed that a chromosome number above 50 or a complex karyotype was associated with a worse overall survival (>50 chromosomes, P = 0.05; complex karyotype, P = 0.04). There was no association between type of cytogenetic abnormality and the presence of metastatic disease at diagnosis. Univariate and multivariate survival analysis of a small subgroup with trisomy 20 indicated that trisomy 20 was associated with a worse overall and RFS. There was no difference in outcome associated with other recurrent trisomies (2, 5, 7, 8, or 12) or the common recurrent secondary structural rearrangements (deletions of 1p36, 9p12, 17p13, and 16q, and gain of 1q), although numbers were small. These data demonstrate the continued value of cytogenetics as a genome-wide screen in ESFT and illustrates the potential importance of secondary chromosome changes for stratification of patients for risk. Specifically, karyotype complexity appears to be a powerful predictor of prognosis, and the presence of trisomy 20 may be a marker of a more aggressive subset of this group.

p53 is nuclear and functional in both undifferentiated and differentiated neuroblastoma.

Aberrant cytoplasmic sequestration has been reported as an alternative mechanism of p53 inactivation to mutation in neuroblastoma. We hypothesized that p53 localization and function in neuroblastoma is related to differentiation status. Eighty-two untreated and 24 paired pre and post-chemotherapy neuroblastomas were studied by immunocytochemistry for p53, p21(WAF1), BAX, Bcl2 and Ki67. Predominantly nuclear p53 was detected in undifferentiated neuroblastoma, and both nuclear and cytoplasmic p53 in differentiating neuroblastoma. The nuclear p53 labeling index (LI) correlated with the Ki67 LI (r = 0.51, p <0.001), and weakly with p21(WAF1) (r = 0.37), but not with BAX or Bcl2. There was a significant reduction in p53, p21(WAF1) and Ki67 LI after chemotherapy (p < 0.01), an increase in BAX (p <0.05), but no change in Bcl2. p53 localization and function were examined in two p53 wild-type undifferentiated and 9-cis retinoic acid differentiated neuroblastoma cell lines. Using immunocytochemistry, immunofluorescence and cell fractionation, p53 was found to be predominantly nuclear in both undifferentiated and differentiated cells. Following irradiation, there was upregulation of p53, p21(WAF1) and MDM2, but less induced PARP and caspase 3 cleavage in differentiated cells, suggesting intact p53 transcriptional function, but resistance to apoptosis. p53 function in undifferentiated and differentiated cells was confirmed by upregulation of p21(WAF1) and MDM2 following Nutlin-3 treatment. In conclusion, p53 is predominantly nuclear and functional in neuroblastoma regardless of differentiation status.

Pediatric pancreatic hemangioma: a case report and literature review.

CONTEXT: The pancreas is an unusual site for a hemangioma in an infant. A child with obstructive jaundice caused by a pancreatic hemangioma is presented and management strategies for this benign tumor are discussed. CASE REPORT: A 5-month-old girl presented with a 2-week history of jaundice, pale stools and dark urine. Liver function tests confirmed obstructive jaundice. An abdominal ultrasound scan and magnetic resonance imaging showed an enhancing mass in the head of the pancreas. At laparotomy, a wedge biopsy of the pancreatic tumor was taken and a tube cholecystostomy inserted. Histological examination of the specimen revealed a pancreatic hemangioma with sclerotic features. The high volume of bile loss from the cholecystostomy proved problematic and biliary diversion with a Roux-en-y hepaticojejunostomy was therefore performed. The tumor subsequently regressed spontaneously and was no longer visible on follow-up imaging two years later. The child has since thrived. CONCLUSIONS: Pancreatic hemangiomas are rare and may cause diagnostic confusion. Pancreatic resection should be avoided since the natural history of these benign tumors is that of spontaneous involution. Various strategies can be used to manage any associated obstructive jaundice.

Prognostic value of International Neuroblastoma Pathology Classification in localized resectable peripheral neuroblastic tumors: a histopathologic study of localized neuroblastoma European Study Group 94.01 Trial and Protocol.

PURPOSE: To assess the prognostic value of clinical, biologic, and morphologic data in peripheral neuroblastic tumors, International Neuroblastoma Staging System (INSS) stages 2A and 2B MYCN nonamplified, a multinational protocol entitled Localized Neuroblastoma European Study Group trial 94.01, with a trial of surgery as the only treatment, was initiated in 1995. We present the prognostic value of the revised International Neuroblastoma Pathology Classification (INPC) applied to the patients included in this protocol until its closure in 1999. MATERIALS AND METHODS: A total of 120 neuroblastic tumors from trial patients were reviewed by the European International Society of Pediatric Oncology neuroblastoma pathology panel and assigned to a favorable or unfavorable prognostic category according to the INPC guidelines. Overall survival and relapse-free survival (RFS) were estimated by the Kaplan-Meier method and compared by the log-rank test. RESULTS: A total of 115 of 120 patients were assessable and were assigned to the favorable (90 patients; 78.3%) or unfavorable (25 patients; 21.7%) category. The 60-month survival rate was 97.7% in favorable patients compared with 73.8% in unfavorable patients (P = .0002). RFS analysis showed a 60-month relapse rate of 13.4% and 32% in favorable and unfavorable patients (P < .025), respectively. Statistical analysis demonstrated a significant association of unfavorable INPC category and high lactate dehydrogenase level (P < .045). CONCLUSION: This European study shows for the first time that the INPC prognostic categorization has a significant impact on outcome prediction in INSS stage 2 localized peripheral neuroblastic tumors.

Multiple cervical bronchogenic cysts.

Bronchogenic cysts are rare, benign, congenital lesions that occur as a result of aberrant development of the tracheobronchial tree during embryogenesis. They usually present during the first decade of life and are encountered predominantly within the mediastinum or the lung parenchyma. In a few instances, they appear within the neck mimicking a neoplasm and, depending on their size and site, may also cause acute upper respiratory obstruction. We describe a case of two cervical bronchogenic cysts adjacent to the larynx in a child who presented with a hoarse voice.

Vascular endothelial growth factor: a therapeutic target for tumors of the Ewing's sarcoma family.

PURPOSE: We have reported previously that intratumoral microvessel density (MVD) is a significant prognostic indicator of event-free survival in the Ewing's sarcoma family of tumors (ESFT). Here, the angiogenic growth factor expression profile and its relationship with MVD has been investigated in ESFT. EXPERIMENTAL DESIGN AND RESULTS: Using ESFT model systems, the potential of these factors as therapeutic targets has been evaluated. A significant correlation (P = 0.02) was observed between vascular endothelial growth factor (VEGF) expression and MVD, consistent with the hypothesis that VEGF regulates the development of microvessels in ESFT. There was no correlation between MVD and any of the other growth factors studied. All six ESFT cell lines studied produced and secreted VEGF; five of six cell lines also secreted placental growth factor, one cell line (A673) at high levels. Tumor conditioned medium induced proliferation of human umbilical vein endothelial cells. Expression of VEGF receptors Flt-1 and Flk-1/KDR was heterogeneous across the cell lines. Both receptor tyrosine kinase inhibitors SU6668 (targets Flk-1/KDR, platelet-derived growth factor receptor-beta, and fibroblast growth factor receptor 1) and SU5416 (targets Flk-1/KDR) as well as anti-VEGF agents rhuMAb-VEGF (bevacizumab) and VEGF Trap delayed s.c. growth of ESFT in mice compared with untreated groups: SU6668 (100 mg/kg/d), SU5416 (25 mg/kg/d), rhuMAb-VEGF (10 mg/kg twice weekly), and VEGF Trap (2.5 or 25 mg/kg twice weekly). CONCLUSIONS: These data suggest that VEGF is the single most important regulator of angiogenesis in ESFT and may be exploited for therapeutic advantage.

A WT1 exon 1 mutation in a child diagnosed with Denys-Drash syndrome.

Denys-Drash syndrome (DDS) is characterized by nephropathy, genital abnormalities, and predisposition to Wilms tumor. DDS is associated with constitutional WT1 mutations, the majority being missense mutations in the zinc-finger region. A dominant-negative mode of action of the mutant DDS proteins is thought to explain the more severe genitourinary phenotype seen in DDS compared with children with complete deletion of one WT1 allele. We present a phenotypically female child who presented with bilateral Wilms tumor at 8 months of age. She was found to have an XY karyotype and diagnosed with DDS. In the constitutional DNA of this child we found a previously unreported mutation in exon 1 of WT1. This de novo mutation, delT in codon 40, is predicted to produce a termination signal in codon 90 (F40fsX90). This frameshift mutation results in a severely truncated protein, which would remove both the zinc-finger DNA-binding domain and the majority of the N-terminal regulatory domain, including regions previously shown in vitro to be necessary for inhibition of WT1 transcriptional activity. Our results provide important physiological evidence that the first 40 amino acids of WT1 are capable of functionally important interactions, presumably through their ability to self-associate with full-length WT1.

FUS/ERG gene fusions in Ewing's tumors.

Ewing's tumors are rare pediatric neoplasms that are characterized by specific chromosomal translocations and gene rearrangements. All of the fusion genes reported to date in Ewing's tumors juxtapose the EWS gene at 22q12 to an ETS-related gene, the most common of which are FLI1 at 11q24 and ERG at 21q22. We present here four cases of Ewing's tumor, which showed no evidence of a EWS gene rearrangement, but instead contained translocations involving 16p11 and 21q22. A rearrangement involving the same chromosome bands, t(16;21)(p11;q22), is found in rare cases of acute myeloid leukemia and fuses the FUS gene at 16p11 to the ERG gene at 21q22. In two of our Ewing's tumor cases, we were able to show at the sequence level that the translocation between chromosomes 16 and 21 similarly results in a FUS/ERG fusion. In one case, exons 1-5 and most of exon 6 of FUS were fused in-frame to exon 9 of ERG; in the other case, FUS exons 1-7 were fused in-frame to ERG exons 8-9. The functional fusion transcript is expected to be expressed from the der(21)t(16;21) derivative. In the two other t(16;21)-positive Ewing's cases, we performed bacterial artificial chromosome fluorescence in situ hybridization analysis on metaphases and interphase nuclei to demonstrate colocalization of bacterial artificial chromosomes containing FUS and ERG genes, also highly suggestive of fusion gene formation. These represent the first four cases where FUS, rather than EWS, is rearranged with an ETS-family transcription factor in Ewing's tumors. Our data provide additional evidence that the transactivation domains of the TET family of RNA-binding proteins (such as EWS and FUS) are interchangeable, and suggests a novel mechanism of oncogenesis in Ewing's tumors.

Myogenin--a more specific target for RT-PCR detection of rhabdomyosarcoma than MyoD1.

BACKGROUND: MyoD1 and myogenin are differentially expressed in early myogenesis and have been identified in rhabdomyosarcoma (RMS). This study evaluates reverse transcriptase-polymerase chain reaction (RT-PCR) for MyoD1 and myogenin mRNA as diagnostic markers of RMS, and the potential application of this method for the detection of small volume disease in bone marrow (BM) and peripheral blood (PB). PROCEDURE: Expression of MyoD1 and myogenin mRNA was examined by RT-PCR in RMSs (9 alveolar RMS, 10 embryonal RMS, 1 pleomorphic RMS), and 21 other paediatric tumor samples (10 neuroblastoma, 10 Ewing sarcomas, and 1 Sarcoma (not otherwise specified) (S(NOS)). BM (n = 19) and PB (n = 22) samples from the same RMS study population were also examined for MyoD1 and myogenin mRNA expression. RESULTS: Positive expression of both markers was demonstrated in adult muscle, but not in normal PB. Myogenin mRNA was expressed in 16/18 and MyoD1 mRNA in 12/12 RMSs studied. Myogenin was not expressed in 10/10 neuroblastomas, but was present in 2/10 Ewing sarcomas. However, MyoD1 mRNA was detected in 10/10 Ewing sarcomas and 7/10 neuroblastomas. Myogenin mRNA was detected in two BM samples from children with histologically negative BM and in 1/22 PB samples. Detection of MyoD1 mRNA in BM and PB was compromised by the amplification of a similar sized, non-specific product. CONCLUSIONS: Myogenin mRNA is a more specific marker than MyoD1 for the diagnosis of RMS. Myogenin mRNA is potentially a useful target for the assessment of small volume disease in RMS.

Breakpoint position on 17q identifies the most aggressive neuroblastoma tumors.

Gain of chromosome arm 17q is a powerful prognostic factor in neuroblastoma, and the distribution of 17q breakpoints suggests that the dosage of one or more genes in 17q22-23 to 17qter is critical for tumor progression. To identify the smallest region of 17q gain, we used eight probes to map translocation breakpoints in 48 primary neuroblastoma tumors. We identified at least five different breakpoints, all localized within the proximal part of 17q (from D17Z1 to MPO). The shortest region of gain identified by these probes extends from MPO (17q23.1) to 17qter. Surprisingly, we found that breakpoints localized proximal to ERBB2 (17q12) were associated with significantly better patient survival than breakpoints localized distal to ERBB2. Breakpoints localized distal to ERBB2 identified patients with a particularly poor prognosis, higher mitotic karyorrhectic index, and stage 4 disease. This implies that breakpoint position on 17q is a discriminative factor within this prognostically poor group of patients. This result also suggests that the biological effect of 17q gain during neuroblastoma progression has a complex basis. We propose that this involves dosage alterations of genes localized on both sides of the 17q breakpoints, with a gene or genes mapping between 17cen and 17q12 acting to suppress progression, and a gene or genes mapping between 17q23.1 and 17qter acting to promote tumor progression.