Rapamycin attenuates the severity of murine adriamycin nephropathy.

Renal fibrosis is the inevitable consequence of an excessive accumulation of extracellular matrix that occurs in virtually every type of chronic kidney disease. The pathogenesis of renal fibrosis is a progressive process that ultimately leads to end-stage renal failure, a devastating disorder that requires dialysis or kidney transplantation. In a simplistic view, renal fibrosis represents a failed wound-healing process of the kidney tissue after chronic, sustained injury. Several cellular pathways, including mesangial and fibroblast activation as well as tubular epithelial-mesenchymal transition, have been identified as the major avenues for the generation of the matrix-producing cells in diseased conditions. Among the many fibrogenic factors that regulate renal fibrotic process, transforming growth factor-beta (TGF-beta) is one that plays a central role. Although defective matrix degradation may contribute to tissue scarring, the exact action and mechanisms of the matrix-degrading enzymes in the injured kidney have become increasingly complicated. Recent discoveries on endogenous antifibrotic factors have evolved novel strategies aimed at antagonizing the fibrogenic action of TGF-beta/Smad signaling. Many therapeutic interventions appear effective in animal models; however, translation of these promising results into humans in the clinical setting remains a daunting task. This mini-review attempts to highlight the recent progress in our understanding of the cellular and molecular pathways leading to renal fibrosis, and discusses the challenges and opportunities in developing therapeutic strategies.

Rapamune is a novel immunosuppressive agent in Phase III clinical trial in renal transplantation. Its unique mechanism of action has created great interest in its use as a biochemical probe of signal transduction pathways that has provided insight into its molecular mechanism of action. This article reviews the current state of our understanding of the mechanism of action of rapamune.

Despite the various immunosuppressive regimens presently in use, acute rejection in the early postoperative period continues to occur in 20 to 40% of renal transplant patients. In a double-blind, multicentred study, we investigated the ability of two different doses of sirolimus (rapamycin, RAPAMUNE), a new class of immunosuppressant that blocks cell cycle progression, to prevent acute rejection in recipients of primary mismatched renal allografts when added to a regimen of cyclosporine (cyclosporin A, CsA) and corticosteroids. Between October 1996 and September 1997, 576 recipients of primary mismatched cadaveric or living donor renal allografts were randomly assigned in a 2:2:1 ratio (before the transplant operation) to receive an initial loading dose of either 6 or 15 mg of orally administered sirolimus, followed by a daily dose of either 2 or 5 mg/day, or to receive a matched placebo. All groups received cyclosporine (microemulsion formula, CsA) and corticosteroids. The primary endpoint was a composite of first occurrence of biopsy-confirmed acute rejection, graft loss, or death during the first 6 months after transplantation. Safety data were monitored by an independent drug safety monitoring board. Based on an intention-to-treat analysis of 576 patients, there were no significant differences in patient demographic or baseline characteristics among treatment groups. The overall rate of the primary composite endpoint for the 6-month period after transplantation was 30.0% (68/227) in the 2 mg/day sirolimus group and 25.6% (56/219) in the 5 mg/day sirolimus group, significantly lower than the 47.7% (62/130) in the placebo group (P=0.002, P<0.001, respectively). During this period, the incidence of biopsy-confirmed acute rejection was 24.7% (56/227) in the 2 mg/day sirolimus group and 19.2% (42/219) in the 5 mg/day sirolimus group, compared with 41.5% (54/130) in the placebo group (P=0.003, P<0.001, respectively), representing a significant reduction in acute rejection of 40.5 and 53.7%, respectively. The need for antibody therapy to treat the first episode of biopsy-confirmed acute rejection was significantly reduced in the 5 mg/ day sirolimus group (3.2%) compared to the placebo group (8.5%; P=0.044). The results 1 year after transplantation were similar for the efficacy parameters studied. Adverse events and infections occurred in all groups. The addition of either 2 mg/day sirolimus or 5 mg/day sirolimus to CsA/corticosteroid therapy significantly reduces the incidence of acute rejection episodes in primary mismatched renal allograft recipients, without an increase in immunosuppressant-related side effects, including infections and malignancy, at 6 months and at 1 year after transplantation.