All neoplasms require angiogenesis and resulting neovascularity for growth beyond 1 mm 2 . Quantitative microvessel density (MVD) has been shown to provide staging and prognostic signi®cance in human prostate cancer (CaP). recently, it has been demonstrated that loss of the wild-type allele of the p53 tumour suppressor gene results in reduced expression of thrombospondin-1 (TSP-1), a potent inhibitor of angiogenesis. There is also an increased expression of vascular endothelial growth factor which promotes neovascularization. p53 gene mutation and MVD were investigated in men with prostate cancer. Sections from 103 radical prostatectomy cases were evaluated with immunohistochemistry to detect mutant p53 proteins. Quantitative MVD was performed on the cases exhibiting p53 positive staining and compared with negative ®elds of similar Gleason grade on the same histologic sections.Twenty of the 103 cases (19.4%) revealed positive p53 staining nuclei. In 19 of these 20 cases, the MVD in p53 positive areas was greater than corresponding control regions (overall P`0.0001). Extent of p53 abnormality, as well as MVD, correlated with pathologic stage.These data suggest that mutations of the p53 tumour suppressor gene may be associated with increased angiogenesis in CaP. In addition to providing staging and prognostic information, this relationship potentially has therapeutic implications.
Duplex telomere binding proteins exhibit considerable structural and functional diversity in different phyla. Herein we address the distinct properties and functions of two Myb-containing, duplex telomere repeat-binding factors in Ustilago maydis, a basidiomycete fungus that is evolutionarily distant from the standard budding and fission yeasts. The two telomere-binding proteins in U. maydis, named UmTrf1 and UmTrf2, have different domain organizations and belong to distinct protein families with different phylogenetic distributions. Despite these differences, they exhibit comparable affinities and similar sequence specificity for the canonical, 6-base-pair telomere repeats. Deletion of trf1 triggers preferential loss of long telomere tracts, suggesting a role for the encoded protein in promoting telomere replication. Trf1 loss also partially suppresses the ALT-like phenotypes of ku70-deficient mutants, suggesting a novel role for a telomere protein in stimulating ALT-related pathways. In keeping with these ideas, we found that purified Trf1 can modulate the helicase activity of Blm, a conserved telomere replication and recombination factor. In contrast, trf2 appears to be essential and transcriptional repression of this gene leads to severe growth defects and profound telomere aberrations that encompass telomere length heterogeneity, accumulation of extrachromosomal telomere repeats such as C-circles, and high levels of single-stranded telomere DNA. These observations support a critical role for UmTrf2 in telomere protection. Together, our findings point to a unique, unprecedented division of labor between the two major duplex telomere repeat-binding factors in Ustilago maydis. Comparative analysis of UmTrf1 homologs in different phyla reveals a high degree of functional diversity for this protein family, and provides a case study for how a sequence-specific DNA binding protein can acquire and lose functions at different chromosomal locations.
Telomere maintenance and tumor cell differentiation have been separately implicated in neuroblastoma malignancy. Their mechanistic connection is unclear. We analyzed neuroblastoma cell lines and morphologic subclones representing the adrenergic (ADRN) and mesenchymal (MES) differentiation states and uncovered sharp differences in their telomere protein and telomerase activity levels. Pharmacologic conversion of ADRN into MES cells elicited consistent and robust changes in the expression of telomere-related proteins. Conversely, stringent down-regulation of telomerase activity triggers the differentiation of ADRN into MES cells, which was reversible upon telomerase up-regulation. Interestingly, the MES differentiation state is associated with elevated levels of innate immunity factors, including key components of the DNA-sensing pathway. Accordingly, MES but not ADRN cells can mount a robust response to viral infections in vitro. A gene expression signature based on telomere and cell lineage-related factors can cluster neuroblastoma tumor samples into predominantly ADRN or MES-like groups, with distinct clinical outcomes. Our findings establish a novel mechanistic connection between telomere and differentiation and suggest that manipulating telomeres may suppress malignancy not only by limiting the tumor growth potential but also by inducing tumor cell differentiation and altering its immunogenicity.
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