An inguinal mass with local vascular lesions induced by a lymphatic filaria.

A 47-year-old Indian male presented with an inguinal mass clinically suspicious as a tumor. Histological examination of the excised mass demonstrated tissue reaction to degenerating intravascular adult filarial worms. The worms have been identified as a lymphatic filariae, most probably Wuchereria bancrofti. The case report underscores the need to maintain suspicion of genitourinary filarial lesions in non-endemic areas and describes atypical vascular lesions induced by lymphatic filariae.

Identification of differentially expressed and developmentally regulated genes in medulloblastoma using suppression subtraction hybridization.

To increase our understanding of the molecular pathogenesis of medulloblastoma (MB), we utilized the technique of suppression subtractive hybridization (SSH) to identify genes that are dysregulated in MB when compared to cerebellum. SSH-enriched cDNA libraries from both human and Ptch+/- heterozygous murine MBs were generated by subtracting common cDNAs from corresponding non-neoplastic cerebellum. For the human classic MB library, total human cerebellar RNA was used as control tissue; for the Ptch+/- heterozygous MB, non-neoplastic cerebellum from an unaffected Ptch+/- littermate was used as the control. Through differential screening of these libraries, over 100 upregulated tumor cDNA fragments were isolated, sequenced and identified with the NCBI BLAST program. From these, we selected genes involved in cellular proliferation, antiapoptosis, and cerebellar differentiation for further analysis. Upregulated genes identified in the human MB library included Unc33-like protein (ULIP), SOX4, Neuronatin (NNAT), the mammalian homologue of Drosophila BarH-like 1(BARHL1), the nuclear matix protein NRP/B (ENC1), and the homeobox OTX2 gene. Genes found to be upregulated in the murine MB library included cyclin D2 (Ccnd2), thymopoietin (Tmpo), Musashi-1 (Msh1), protein phosphatase 2A inhibitor-2 (I-2pp2a), and Unc5h4(D). Using semiquantitative reverse transcription-polymerase chain reaction (RT-PCR), the mRNA expression levels for these genes were markedly higher in human MBs than in cerebellum. Western blot analysis was used to further confirm the overexpression of a subset of these genes at the protein level. Notch pathway overactivity was demonstrated in the TE671 MB cell line expressing high levels of MSH1 through HES1-Luciferase transfections. This study has revealed a panel of developmentally regulated genes that may be involved in the pathogenesis of MB.

Transcriptional profiling of medulloblastoma in children.

OBJECT: Although medulloblastoma is the most common malignant brain tumor found in children, little is known about its molecular pathogenesis. The authors have attempted to compare patterns of gene expression in medulloblastoma samples with those in the healthy cerebellum. METHODS: The authors used complementary (c)DNA microarray analysis to compare the expression of genes in samples of medulloblastoma and normal cerebellum. The expression levels of a subset of genes were then verified by immunohistochemical analysis. Six genes were identified that were expressed at a much higher level in at least five of six medulloblastomas: ezrin, cyclin D2, high mobility group protein 2, MAPRE1, histone deacetylase 2, and ornithine decarboxylase 1. A number of potentially important genes whose expression was much lower in medulloblastomas than in control cerebellum were also identified: tenascin R, TRK-B, FGF receptor, and death receptor 3. The expression levels of a subset of the identified genes were confirmed by immunohistochemical analysis, which was performed on fetal cerebellum and medulloblastoma samples. CONCLUSIONS: The authors demonstrate that cDNA microarray analysis is an effective method of increasing understanding of the molecular biology of medulloblastomas found in children. A comparison between gene expression patterns in medulloblastoma and those observed in healthy cerebellum may provide clues as to the origin of these tumors and may lead to the identification of new genes or pathways to be targeted for future therapies.

Helicobacter pylori cagA genotype and density of colonization in relation to gastric inflammation in children.

OBJECTIVE: To assess the relationship between density determined by quantitative culture, status, and gastric histology in children. METHODS: Children with clinical symptoms indicating pathology in the upper gastrointestinal tract were referred for endoscopy. From each child blood was taken for serology, and antral biopsies were obtained for quantitative culture of and histology. Histological assessment was performed according to the updated Sydney System. The status of cultured was determined by polymerase chain reaction (PCR) and serum IgG response to CagA by western blotting. RESULTS: Adequate antral biopsies were obtained from 41 children with positive cultures. CagA IgG antibodies were found in 27 patients (66%), 25 of whom were also positive by the PCR. Two children infected with + strains as determined by the PCR were CagA seronegative. Infection with + strains was associated with significantly higher activity of inflammation and denser bacterial colonization in the antrum compared to negative strains. No correlation was observed between the density of colonization and chronic antral inflammation. CONCLUSIONS: This study shows that infection of children with + strains of is associated with enhanced activity of antral inflammation and higher density of colonization. There is a good correlation between serum western blot and bacterial PCR positivity in determining status and a positive relationship between histology and quantitative culture in assessing density in paediatric patients.

Mutations in SUFU predispose to medulloblastoma.

The sonic hedgehog (SHH) signaling pathway directs the embryonic development of diverse organisms and is disrupted in a variety of malignancies. Pathway activation is triggered by binding of hedgehog proteins to the multipass Patched-1 (PTCH) receptor, which in the absence of hedgehog suppresses the activity of the seven-pass membrane protein Smoothened (SMOH). De-repression of SMOH culminates in the activation of one or more of the GLI transcription factors that regulate the transcription of downstream targets. Individuals with germline mutations of the SHH receptor gene PTCH are at high risk of developmental anomalies and of basal-cell carcinomas, medulloblastomas and other cancers (a pattern consistent with nevoid basal-cell carcinoma syndrome, NBCCS). In keeping with the role of PTCH as a tumor-suppressor gene, somatic mutations of this gene occur in sporadic basal-cell carcinomas and medulloblastomas. We report here that a subset of children with medulloblastoma carry germline and somatic mutations in SUFU (encoding the human suppressor of fused) of the SHH pathway, accompanied by loss of heterozygosity of the wildtype allele. Several of these mutations encode truncated proteins that are unable to export the GLI transcription factor from nucleus to cytoplasm, resulting in the activation of SHH signaling. SUFU is a newly identified tumor-suppressor gene that predisposes individuals to medulloblastoma by modulating the SHH signaling pathway through a newly identified mechanism.