Summary Matrix metalloproteinase (MMP) expression was investigated in patients with prostatic adenocarcinoma and benign prostatic hyperplasia (BPH). Forty-one men were studied: 26 had histologically proven prostate cancer, with 14 (54%) showing metastatic disease; 15 patients had BPH. Prostatic tissue was obtained from transurethral resection and needle core biopsies; gelatinolytic activity was determined by zymography. Seven gelatinolytic bands were detected, with molecular weights ranging from > 100 kilodalton (kDa) to 29 kDa. Nine of 14 patients (64%) with skeletal metastases had 92 kDa activity, present in only two of 12 patients (17%) with a negative bone scan, and absent in BPH. The 92 kDa gelatinolytic activity was expressed in 73% of aneuploid tumours compared with 20% of diploid tumours. A 97 kDa gelatinase was expressed in 80% of BPH samples and 23% of carcinoma patients. Enzyme bands of 72, 66 and 45 kDa were equally expressed in malignant tissue, irrespective of metastatic status, but were expressed in fewer BPH patients. The 97, 92, 66 and 45 kDa enzymes were identified as being pro-MMP-9 sequences by Western blotting, using a specific antibody directed against the pro sequence of the mature protein. MMP activity appeared to be increased in malignant prostatic tissue compared with BPH. Pro-MMP-9, in its 92 kDa form, was shown to be exclusively expressed by malignant prostatic tissue, and in particular by tumours that exhibited the aggressive and metastatic phenotype.Prostate cancer is the third most common malignancy in men in England and Wales, with over 9,000 new cases registered every year (Office of Population Censuses and Surveys, 1985).
Free radicals play an important role in inflammation. We found that reactive oxygen intermediates (ROI) inhibit interleukin-1beta (IL- 1beta) binding on human myelomonocytes. Production of superoxide anion (O2-) by Xanthine (X) and Xanthine-Oxidase (XO) or NADPH caused a reduction (48% +/- 15% in 25 experiments) in the IL-1beta binding of polymorphonuclear cells (PMN) and monocytes that was inhibited by superoxide dismutase (SOD). Hydrogen peroxide (H2O2) was only active on monocytes and this effect was prevented by catalase. O2(-)-induced loss of IL-1beta binding on PMN reached half maximum at 5 minutes and peaked after 30 minutes. The reduction of IL-1beta binding was due to reduction of IL-1beta receptors (R) on PMN surface without any change in affinity. ROI-induced reduction of surface IL-1R was not caused by receptor internalization, but rather by the release of a soluble form (45 kD) of the type II decoy R. The action of ROI on IL-1 binding was selective because major histocompatibility complex class I, CD18 and CD16 were unaffected. The O2(-)-induced release of IL-1 decoy R was not affected by protein synthesis inhibitors, but was partially blocked by protease inhibitors. Release of the IL-1 type II decoy R might represent one mechanism by which ROI antagonize and limit the proinflammatory effects of IL-1.
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