The prolongation of concordant hamster-to-rat cardiac xenografts by brequinar sodium.

Brequinar sodium (BQR) prevents cell proliferation by virtue of its inhibition of de novo pyrimidine biosynthesis. The immunosuppressive activity of BQR is highly effective in prolonging heart, liver, and kidney allograft survival in the rat. In these experiments, we have tested the ability of BQR to prevent the rejection of concordant cardiac xenografts. LEW inbred rats transplanted with heterotopic hamster hearts were treated orally with brequinar sodium as a single agent. The survival of the cardiac xenografts was significantly prolonged with a variety of treatment regimens. The most effective treatment was the daily oral administration of BQR at 3 mg/kg. At this level, the median graft survival was approximately 25 days. Four animals had hamster heart xenografts that functioned for more than 90 days. The prolonged survival of the xenografts was associated with relatively constant plasma drug levels of approximately 1 to 3 micrograms/ml and a marked suppression of IgM production. At rejection, there was a significant rise in IgM levels compared with those of recipients with stable xenografts. In vitro MLR responses were effectively inhibited by BQR, with an IC50 of 0.08 microgram/ml. The results of these experiments demonstrate that BQR is a new immunosuppressive agent that is highly effective as a single agent in prolonging the survival of hamster-to-rat cardiac xenografts. The prolonged xenograft survival is associated with effective suppression of rat antihamster antibody production, suggesting that brequinar sodium may be an important addition to multidrug immunosuppressive regimes designed to prevent B and T lymphocyte-mediated immune responses.