Novel anti-inflammatory action of edelfosine lacking toxicity with protective effect in experimental colitis.

Edelfosine (1-O-octadecyl-2-O-methyl-rac-glycero-3-phosphocholine; ET-18-OCH(3)) is an antitumor alkyl-lysophospholipid analog that binds lipid rafts, altering their protein composition (J Exp Med 200:353-365). Because L-selectin locates in lipid rafts and plays a crucial role in the recruitment of leukocytes into inflamed tissues, we hypothesized that edelfosine might affect inflammation by modulating L-selectin and inflammatory cell migration. Here, we have found that edelfosine inhibited neutrophil-endothelium interaction through L-selectin shedding. Oral treatment of edelfosine diminished inflammation in two murine animal models. Edelfosine showed a higher antiinflammatory effect than the nonsteroidal anti-inflammatory drug (NSAID) indomethacin in the bentonite mouse-paw edema model. Using a rat model of experimental colitis, edelfosine oral administration ameliorated the clinical and histopathologic severity of the inflammatory colitis with a dramatic decrease in mucosal damage and neutrophil infiltration. Colon sections from edelfosine-treated rats showed a remarkable reduction in ulcer formation, edema, and inflammatory cell infiltration. Edelfosine enhanced lipopolysaccharide-induced expression of anti-inflammatory interleukin-10 in mouse macrophages. Edelfosine oral treatment in rats, at doses 8-fold higher than those displaying anti-inflammatory action, lacked toxicity. Edelfosine treatment showed no any significant cardiotoxicity, hepatotoxicity or renal toxicity. Unlike NSAIDs, edelfosine did not inhibit prostaglandin E(2) synthesis in gastrointestinal mucosal biopsies, and no histologic alteration in gastrointestinal tract was detected after drug treatment. Thus, edelfosine shows a potent in vitro and in vivo anti-inflammatory activity while sparing gastric mucosa. Our data identify edelfosine as a novel anti-inflammatory drug by abating neutrophil infiltration through L-selectin shedding and may provide a new therapeutic approach for inflammatory bowel disease free from toxicity.

Effect of the long-term treatment with trandolapril on endoglin expression in rats with experimental renal fibrosis induced by renal mass reduction.

BACKGROUND: Endoglin is a membrane glycoprotein that regulates TGF-beta1 signaling. Previous studies have revealed that endoglin is upregulated in several models of experimental fibrosis, and that endoglin expression can counteract the fibrogenic effects of TGF-beta1. As treatment with angiotensin converting enzyme (ACE) inhibitors reduces renal fibrosis by mechanisms that are, in part, not dependent on angiotensin II blockade, we have assessed the hypothesis that this effect could be mediated by endoglin upregulation. METHODS: We have used the 5/6-nephrectomy renal mass reduction (RMR) model of renal fibrosis in rats treated (RMR+T) or not treated with the ACE inhibitor trandolapril (0.7 mg/kg/day). One, 3 and 5 months after RMR, mean arterial pressure and renal function were measured. In addition, renal fibrosis was evaluated quantitatively and endoglin, TGF-beta1, collagen type I and collagen type IV expression was assessed by Northern blot and immunohistochemistry. RESULTS: RMR induced a progressive increase in mean arterial pressure, urinary protein excretion and glomerular and tubulointerstitial fibrosis, which is accompanied by an increased expression of TGF-beta1, endoglin and collagen types I and IV. Trandolapril treatment reduced systemic blood pressure and lessened proteinuria after RMR, as well as expression of TGF-beta1, endoglin and collagens. CONCLUSION: The present study demonstrates an increased TGF-beta1, endoglin, collagen type I and collagen type IV expression in rats with severe hypertension and renal damage. The effect of trandolapril to decrease renal fibrosis seems to be based in a reduced TGF-beta1 expression but not in an increased expression of endoglin.