Abstract:

Abstract: We have previously suggested the transcription factor gene POU6F2 as a novel tumor suppressor involved in Wilms tumor (WT) predisposition. Since WT arises from pluripotent embryonic renal precursors, in this study we analyzed the expression of the murine homolog Pou6f2 during kidney embryogenesis and compared it to that of Wt1, the homolog of WT1, a known WT related gene involved in mesenchyme to epithelium conversion. Quantitative real-time reverse transcription-polymerase chain reaction (RT-PCR) performed for Pou6f2 on kidney specimens from embryos, pups, and adult mice, showed that the Pou6f2 mRNA was more abundant in the earliest analyzed phase of kidney organogenesis (E13) than in more advanced fetal stages and in adult animal. In situ RT-PCR demonstrated that Pou6f2 expression parallels the centripetal differentiation of renal morphogenesis. In addition, in E18 kidney, most structures exhibiting Pou6f2 expression stained positively in immunohistochemistry for the Wt1 protein. Finally, quantitative real-time RT-PCR revealed an overexpression (>/=80 times) of POU6F2 compared with normal kidney in 5 of 22 (23%) WTs. The finding of a highly regulated temporal and spatial Pou6f2 expression during renal organogenesis, of its coexpression with Wt1 and of POU6F2 overexpression in a subset of WTs are consistent with a role of POU6F2 in kidney development and provide further support to its involvement in WT.

Abstract: We report on a 30-month-old baby girl with typical clinical features of WAGR syndrome. In addition, the patient showed bilateral preaxial polydactyly of the feet. Cytogenetic and fluorescent in situ hybridization (FISH) analyses identified a deletion, del(11)(p13p14.1), extending from 6.1 to 21.7 Mb in size. Although the simultaneous appearance of WAGR and polydactyly has been already described, to our knowledge this is the first case in which the characterization at the cytogenetic molecular level of a patient with these phenotypes is reported. These observations indicate that preaxial polydactyly may be another feature of the WAGR syndrome and suggest the existence of a related gene in the WAGR critical region or in its proximity.

Abstract: The WT1 gene is responsible for two different genetic conditions characterized by genitourinary anomalies and susceptibility to Wilms tumor (WT): the WAGR syndrome and the Denys-Drash syndrome. Although only rarely, WT1 constitutional mutations have been reported also in WT patients without congenital defects. Due to the high survival rates that characterize the disease, these individuals must be identified and counseled in relation to their risk to transmit a cancer-predisposing genetic lesion to their offspring. Recently, tumor bilaterality and early age of onset have been suggested to be risk factors for carrying germline WT1 mutations. The authors investigated 20 patients with sporadic WT, without evidence of congenital abnormalities, diagnosed before 2 years of age and/or with bilateral presentation, for the occurrence of WT1 mutations. Southern blot analyses identified homozygous whole-gene or intragenic deletions at the tumor level in three cases. However, none of the identified alterations was found to be present at the germline level. In addition, no mutation in the coding exons and flanking sequences of WT1 was detected in the remaining 17 cases. These results suggest that early age of diagnosis and bilaterality are not by themselves efficient predictors of germline WT1 alterations in WT patients without associated abnormalities.

Abstract: The concomitant occurrence of Wilms tumor (WT) was observed in two monozygotic twin sisters without evidence of congenital malformations. Twin 1 was diagnosed with a stage I WT at 11 months of age, whereas twin 2 developed a bilateral (stage V) WT at 13 months of age. In both cases pathologic examination showed a nonanaplastic stromal type WT, with marked rhabdomyomatous elements. Cytogenetic analyses performed on blood samples and on tumor specimens revealed no karyotypic abnormality. No alteration of the WT1 and POU6F2 genes was identified in constitutional and tumor DNA of both sisters, and no anomaly in WT1 expression was evidenced in the normal kidney of one of them. However, loss of heterozygosity on chromosome 11p, involving the alleles of maternal origin, was detected both in the single tumor of twin 1 and in the two distinct tumors of twin 2, thus suggesting a common etiology of the diseases. To the authors' knowledge, this is the first report describing at both the clinical and genetic level a couple of monozygotic twins concordant for WT development.

Abstract: BACKGROUND: The authors reviewed their institutional experience regarding adult patients with Wilms' tumor (WT) to assess their clinical characteristics and compliance with respect to children's treatment guidelines. METHODS: A total of 17 adult patients (median age at the time of diagnosis of 17.5 years; range, 16-29 years) were referred to the study institute between 1983 and 2001 and were followed for a median of 131 months. The treatment modality was planned according to the two consecutive Italian protocols for WT that were active during the referral years. The patients were staged according to the National Wilms Tumor Study-4 (NWTS) staging system as follows: eight patients had Stage II disease, four patients had Stage III disease, and five patients had Stage IV disease. RESULTS: All the patients but one underwent nephrectomy, with three incomplete surgeries performed. Two patients with Stage II disease were treated elsewhere with nephrectomy only and they were admitted to the study institution at the time of disease recurrence. Anaplasia was found to be present in only one patient with Stage IV disease. The authors noted 9 cases of disease recurrence or progression occurring during treatment and 6 of these 9 patients died of their disease, with an overall survival rate of 62.4% at 5 years. CONCLUSIONS: Compared with children, adults with WT are reported to have a worse prognosis. In the current study, the authors found that poor compliance with specific therapeutic guidelines may contribute to this poorer outcome. Because of the rarity of this disease, adults with WT are at a risk of either undertreatment or incorrect treatment.

Abstract: Wilms tumor (WT) is a kidney malignancy of childhood characterized by highly heterogeneous genetic alterations. We previously reported the molecular and cytogenetic characterization of a WT (Case 30) carrying an interstitial deletion in chromosome 7p14 between markers D7S555 and D7S668. Loss of heterozygosity (LOH) analyses had revealed that this same region was lost in 8 out of 38 examined WTs, suggesting that the identified interval contains a putative tumor suppressor gene. To confirm this hypothesis, in this work, we analyzed an additional 35 WTs, four of which showed LOH in the region of interest. Furthermore, we were able to more accurately define the extension of the deletion in Case 30, mapping it within an interval not exceeding 390 kb, proximally to D7S555. To date, only a single expressed gene, POU6F2 (the POU domain, class 6, transcription factor 2; also known as RPF1), has been recognized in this interval. Sequencing of the gene in the 12 WTs showing LOH and in a corresponding numbers of WT cases without LOH, led to the identification of two germline nucleotide substitutions. The first occurred in the 5'-untranslated region, while the second caused an amino acid change in a glutamine repeat domain. These mutations, whose occurrence was not observed in more than 100 control subjects, were detected in two patients showing the loss of the constitutionally wild-type allele in tumor DNA. Together with the finding of the expression of the POU6F2 mouse homolog in both fetal and adult kidney, our observations suggest that the gene is a tumor suppressor and is involved in hereditary predisposition to WT.

Abstract: AIMS AND BACKGROUND: The treatment applied in our Institution to children with localized osteosarcoma between 1991 and 1999 consisted of four interleukin 2 (IL-2) courses (9 x 10(6) IU/mL/daily x 4), alternated with pre- and post-operative polichemotherapy. The aims of the present study were to quantify the modifications of some immunological parameters induced by IL-2 and to verify whether polychemotherapy could reduce them. An additional aim was to assess whether any correlation between the immune modifications and the clinical outcome could be found. PATIENTS AND METHODS: We evaluated in 18 consecutive patients the following changes, induced in blood by each IL-2 course: number of lymphocyte subpopulations and natural killer (NK) cells, lymphokine activated killer (LAK) and NK activities. RESULTS: Chemotherapy did not influence the modifications of the number of NK and CD4+ cells and of the LAK and NK activities, induced by each of the four courses of IL-2. The magnitudo of the NK activity and the peak of the NK absolute counts significantly correlated with the clinical outcome. CONCLUSIONS: The results show that the use of IL-2 permitted a repeated immune activation despite the intensive chemotherapy. Furthermore, although the limited number of cases precludes any definitive conclusion, the results suggest a possible role of the NK cells in the control of osteosarcoma.

Abstract: Cytogenetic and molecular data indicate an involvement of genes mapped to the proximal portion of the short arm of chromosome 7 (7p) in Wilms tumours (WTs). We have analysed 38 WTs using a panel of eight microsatellite markers mapped to proximal 7p. Loss of heterozygosity (LOH) in tumour, compared with matched constitutional DNA, was identified in eight cases. To define better the minimal region commonly deleted in these tumours, they were analysed with nine additional markers, mapped within the region of interest. One tumour (case 30) showed LOH for only one marker (D7S510), while maintaining heterozygosity for the two immediately flanking loci (D7S555 and D7S668). This result was confirmed by fluorescence in situ hybridisation analysis, which showed that in the majority (65%) of nuclei from tumour 30 hybridising with a bacterial artificial chromosome clone containing the D7S510 locus, only one signal was visible. Noticeably, both markers defining the limits of the observed deleted region are simultaneously present within two distinct overlapping yeast artificial chromosome (YAC) clones mapped to chromosome bands 7p13-p14. This suggests that the maximum length of the missing DNA fragment was approximately 1.3 Mb, corresponding to the length of the smaller of the two YAC clones. In all other cases that showed LOH, the deletion encompassed the 7p13-p14 region. For this reason, we speculate that the identified interval contains a gene whose inactivation is important for the development of at least a fraction of WTs.

Abstract:

Abstract: We report a case of acute T-cell lymphoblastic leukemia which developed in a boy 8.5 years after successful treatment for anaplastic large-cell lymphoma. Cytogenetic and molecular characterizations of the second tumor were performed. The cytogenetic investigation revealed a complex pattern of karyotypic alterations, including double minutes, ring chromosomes, and a duplication of the p21-32 region of chromosome 1. The microsatellite DNA analysis excluded rearrangement or deletion of the TAL1 gene in the tumor cells; rearrangements of the MLL gene were excluded by Southern blot analysis. To the best of our knowledge, this is the first report of T-cell lymphoblastic leukemia arising after treatment of CD 30+ anaplastic large-cell lymphoma. The different T-cell receptor rearrangement evidenced in the two tumors indicates that this second malignancy most likely emerged de novo, but was plausibly related to the previous radiation and chemotherapy.

Abstract: BACKGROUND AND OBJECTIVE: T-cell acute lymphoblastic leukemia (T-ALL) and lymphoblastic T-cell non-Hodgkin's lymphoma (T-NHL) are closely related disorders, and distinguishing between the two may be difficult. Cytogenetic investigations of large NHL series reported different recurring chromosomal alterations. Among these, aberrations of chromosome 1p seem to be associated with T-cell differentiation, the region most frequently involved in breakpoints being band 1p32-36. Deletions and translocations involving the same chromosomal region are frequently observed in T-ALL, in which one of the most common genetic changes is the breakage of the TAL1 gene, mapped to the 1p32 chromosomal region. The objective of this study was to assess the possibility of TAL1 involvement also in T-NHL. DESIGN AND METHODS: A series of 17 pediatric T-NHL patients was molecularly characterized by microsatellite markers analysis and by TAL1 gene microdeletions. RESULTS: TAL1 gene rearrangement was found in one case, while loss of heterozygosity (LOH) and microsatellite instability (MI) was identified in another case. INTERPRETATION AND CONCLUSIONS: Overall our findings indicate that, differently from T-ALL, neither TAL1 gene involvement nor LOH or MI at 1p32 appear particularly relevant in the oncogenic process of T-NHL transformation.

Abstract: AIMS: To retrospectively study the DNA content in a series of childhood Ewing Family Tumors (EFT), and to investigate its prognostic value. METHODS: The study was performed on a series of 27 EFTs (osseous Ewing's sarcoma, 18 cases; extraosseous Ewing's sarcoma, 2; peripheral neuroepithelioma, 4; Askin Rosai tumors, 3). Ploidy was investigated using both flow cytometry (FCM) and image cytometry (ICM) on tumor cell suspensions from formalin-fixed paraffin-embedded specimens or fresh frozen tissue obtained from the primary tumor at diagnosis. RESULTS: Ploidy was evaluable by FCM in all cases, and by ICM in 23/27. When fresh frozen tissue and paraffin-embedded samples from the same tumor were available for analysis, they yielded equal results. The rate of agreement between FCM and ICM was 82%. The majority of cases were diploid, and in the present series aneuploidy seemed to be associated with a poor outcome. CONCLUSIONS: These results suggest that aneuploidy could be an indicator of a bad prognosis in EFT; however, the small number of cases precludes any conclusion of statistical value. Larger retrospective studies on ploidy using archival material could be performed and their reliability is supported by the concordance of results from fresh and formalin-fixed tissue.

Abstract: BACKGROUND: We previously reported the case of a patient affected with Denys-Drash syndrome (DDS), who developed disseminated EBV-related Burkitt's lymphoma (BL) after kidney transplantation. Here, we describe the molecular characterisation of the WT1 gene in the constitutional and tumour DNA of this patient. PATIENTS AND METHODS: WT1 exons 2 to 10 were sequenced in constitutional and tumour DNAs. By Southern blotting the latter was also investigated for the presence of gene rearrangements. Gene expression analysis in tumour cells was performed by reverse transcriptase-polymerase chain reaction (RT-PCR). RESULTS: A germline missense mutation affecting one of the zinc finger domains of the gene, and previously reported in other DDS cases, was observed. No alterations of the constitutionally wild-type WT1 allele and no expression of the gene were observed in BL cells. A small group of BLs from other paediatric patients showed a variable expression of WT1. CONCLUSIONS: Our findings indicate that WT1 is unlikely to be involved in the onset of BL in our case. However, a possible role of the gene in at least a subset of these lymphoproliferative diseases may be suggested.

Abstract: PURPOSE: We discuss the clinical, laboratory findings and treatment of a boy who developed Burkitt's lymphoma (BL) after renal transplant and some issues about lymphoproliferative disorders after transplantation. METHODS: A 6-year-old boy with Drash syndrome developed disseminated Burkitt's lymphoma 38 months after transplantation for renal failure. Immunosuppressive therapy had consisted of prednisolone and cyclosporine. Polychemotherapy was initiated. RESULTS: Polychemotherapy induced rapid and complete remission of the disease without major side effects despite the renal transplant allograft and prolonged immunosuppression. CONCLUSIONS: A child with posttransplantation B-cell high-grade lymphoma can be successfully treated with the same chemotherapy regimen used for ordinary cases.

Abstract: Different findings suggest that alterations of chromosome 7 genes play a role in the development of Wilms tumors. To define the positions of these genes, we have accomplished a combined cytogenetic and molecular study on 11 sporadic Wilms tumors. In one case, where both chromosomes 7 were rearranged, the karyotypic picture was consistent with the presence of a tumor suppressor gene at 7p15. To test this hypothesis, a loss of heterozygosity analysis was performed using microsatellite markers. This revealed a common region of allele losses mapped to the proximal short arm of chromosome 7 and defined the position of the gene(s) involved in Wilms tumors within an interval of approximately 25 cM.

Abstract: An analysis of loss of heterozygosity for markers on both the short and the long arm of chromosome 11 was performed in 24 sporadic Wilms tumors. Six cases (25%) showed allelic losses involving the entire chromosome. In one case (4%) the loss was restricted solely to the WT1 gene on band p13. Two cases (8%) displayed allelic losses for WT1 and for markers on band p15.5, where the putative tumor suppressor gene WT2 has been mapped, but retained heterozygosity for markers on the long arm. In three tumors (13%) the loss of heterozygosity involved markers mapped to chromosomal regions p15.5 and q23.3-qter, but did not affect WT1 and markers on q12-q13. Altogether, the proportion of cases showing allelic losses at the distal region of 11q (37%) was comparable to that of cases with LOH affecting the WT1 (37%) or the WT2 (46%) loci, thus suggesting the existence of a third chromosome 11 tumor suppressor gene involved in the pathogenesis of Wilms tumors.