Mechanism of enhancement of intestinal ulcerogenicity of S-aryl propionic acids by their R-enantiomers in the rat.

We previously observed a marked increase in gastrointestinal toxicity of rac-flurbiprofen compared to the therapeutically equivalent dose of the S enantiomer. This paper quantitates these observations and examines the mechanism by which this paradoxical toxicity occurs. We have evaluated the ulcer scores, mucosal neutrophil infiltration, by immunostaining of CD11/18 antigen, and mucosal neutrophil activity by myeloperoxidase measurement at two dose levels of (R)-, (S)-, and rac-flurbiprofen, administered over 30 days. Dose-response for intestinal ulcer production was observed for rac- and (S)-flurbiprofen; animals given (R)-flurbiprofen exhibited no ulcers. Yet rac-flurbiprofen proved to be twice as ulcerogenic as (S)-flurbiprofen. The mechanism of the exacerbation of gastrointestinal toxicity of (S)-flurbiprofen by the noncyclooxygenase inhibiting (R)-flurbiprofen is believed to be associated with its effect on ICAM-1 up-regulation. This is followed by neutrophil adhesiveness to ICAM-1 via the LFA-1 antigen on its surface and the extravasation of neutrophils into the tissue. We also examined the effect of high dose (R)-flurbiprofen vs vehicle over 15 days in animals in which ulcers had been produced by treatment with (S)-flurbiprofen for the previous 15 days. (R)-flurbiprofen did not sustain induced ulcers. The results of this study suggest that human studies be conducted to determine if enhanced gastrointestinal toxicity occurs in man. This is at issue since rac compounds of this class are available over the counter and others may be introduced.

Antiproliferative effects of the enantiomers of flurbiprofen.

Nonsteroidal antiinflammatory drugs (NSAIDs) are recognized for inhibiting growth of colon tumors in animal models, and for reducing the risk of colon cancer in humans. The mechanisms involved have not been established, but are thought to be related to reduced prostaglandin biosynthesis. The present study investigates the effect of COX-inhibiting and non-COX-inhibiting enantiomers of flurbiprofen on rat colonocyte proliferation. Intestinal ulceration was used as a surrogate indicator of COX inhibition. Sprague Dawley rats were treated orally with 6.3 mg/kg of R- or s-flurbiprofen or vehicle. Colonocyte labeling index and small bowel ulcer index were measured. R-flurbiprofen and S-flurbiprofen significantly reduced colonocyte labeling index, by 34% and 23% respectively, compared with vehicle. R-flurbiprofen caused minimal ulcer formation (4.48 mm2) compared with S-flurbiprofen (94.4 mm2). These findings suggest that R-flurbiprofen-mediated control of colonocyte proliferation is independent of prostaglandin biosynthesis.