The enzymatic processing of the membrane-bound renal epidermal growth factor precursor (proEGF) could be an important step in the control of nephrogenic repair consecutive to kidney insult. The enzyme machinery responsible for that processing was examined in a cell-free system consisting of renal membranes isolated from kidney homogenates by differential centrifugation, and incubated in vitro. After a 24-h incubation at 37 degrees C, 6-14% of membrane-bound proEGF was processed and soluble products with EGF immunoreactivity were released. As revealed by HPLC and Western blotting analysis, the products of proEGF proteolysis consisted of 6 kDa EGF (the molecular weight of mature EGF) and two polypeptides with molecular weights around 45 kDa. Interestingly the 45 kDa EGF forms, like the 6 kDa EGF, exhibited mitogenic activity toward growth-arrested NRK-52E renal cell line. The kinetic study of proEGF degradation gave data consistent with the 45 kDa product(s) being processing intermediate(s) between proEGF and 6 kDa EGF. The enzymatic activity responsible for proEGF nicking was inhibited by divalent heavy metal ions (Cu2+ or Zn2+) and several protease inhibitors (aprotinin, PMSF, leupeptin, soybean trypsin inhibitor), suggesting that proEGF is processed by kallikrein-like serine proteases present in the membrane preparations. Along with previous studies, the current observations suggest that renal kallikreins might play a role in renal tubular regeneration by promoting the release of soluble EGF in renal tissue.
Normal rat kidney (NRK-52E) cells, an established cell line of renal origin, were used as a bioassay system to reveal a possible mitogenic activity in tissue extracts prepared from kidneys undergoing tubular regeneration. Acute tubular injury was induced in female Wistar rats by a 4-day treatment with gentamicin at daily doses of 50 or 100 mg/kg twice daily. Animals were killed either 1 or 4 days after cessation of gentamicin administration. Proximal tubule regeneration in treated animals was confirmed by morphological examination after proliferating cell nuclear antigen staining. Tissue extracts from regenerating kidneys stimulated DNA synthesis in growth-arrested cells to a higher extent than extracts from intact kidneys. Sera from treated and control animals showed no difference with respect to mitogenic activity. The mitogenic effect of tissue extracts was sensitive to the tyrosine kinase inhibitor tyrphostin A46. The cell proliferative response to regenerating kidney extracts, but not that to intact kidney extracts, was partly suppressed by the addition of anti-insulin-like growth factor I (anti-IGF-I) antiserum. These data indicate that nephrogenic repair entails an elevation of biologically active IGF-I in kidney tissue.
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