Investigation of Pericytes, Hypoxia, and Vascularity in Bladder Tumors: Association With Clinical Outcomes
The contribution of endothelial cell growth to angiogenesis has been widely studied; however, the involvement of pericytes is less well documented, especially in human tumors. In this study we aimed to quantify and assess the prognostic significance of pericyte coverage, the extent of hypoxia, and microvessel density (MVD) in normal bladder mucosa and urothelial carcinoma. Antibody to α-smooth muscle actin was used to assess the distribution of pericytes (mural/smooth muscle cells) in the microvessels of normal human bladder (n = 4) mucosa and in urothelial carcinoma (n = 47) samples; this was quantitated using microvessel pericyte index (MPI). The MVD was measured using two different methods (n = 47) and hypoxia was assessed using glucose transporter-1 (Glut-1) staining (n = 30). There was a 70% reduction in MPI in urothelial carcinomas compared to normal bladder mucosa (p < 0.0012); MPI did not correlate with tumor stage or grade. Ta and T1 superficial tumors were divided into two groups with a MPI of <15% or >15%. Progression-free survival was significantly shorter for tumors with MPI >15% (p = 0.0036). MVD had no prognostic value using either evaluation method. Glut-1 immunoreactivity was not prognostic in superficial urothelial carcinoma samples. Tumors with a higher MPI showed a greater Glut-1 immunoreactivity (p = 0.0051). Microvessels in urothelial carcinoma have a considerable loss of pericyte coverage compared to normal bladder mucosa. The data from this preliminary study indicate that progression-free survival was shorter in patients whose superficial tumors had higher pericyte coverage of the microvessels. This may be due to increased levels of hypoxia, as demonstrated by a significant increase in Glut-1 staining.
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Document Type: Research Article
Publication date: 2008-03-01
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- Formerly: Oncology Research Incorporating Anti-Cancer Drug Design
Oncology Research Featuring Preclinical and Clincal Cancer Therapeutics publishes research of the highest quality that contributes to an understanding of cancer in areas of molecular biology, cell biology, biochemistry, biophysics, genetics, biology, endocrinology, and immunology, as well as studies on the mechanism of action of carcinogens and therapeutic agents, reports dealing with cancer prevention and epidemiology, and clinical trials delineating effective new therapeutic regimens.