Rapamycinobservational2000

Sirolimus (rapamycin) halts and reverses progression of allograft vascular disease in non-human primates.

Transplantation

confidence

Key findings

Sirolimus halted progression of preexisting graft vascular disease and produced partial regression of intimal area; efficacy correlated with trough levels.

View source on PubMed (PMID 11014651) ↗

Sample size
12 monkeys (6 sirolimus-treated, 6 untreated)
Population
Cynomolgus monkeys with aortic allograft transplantation (non-human primate GVD model)
Dosing
Oral sirolimus, trough-level monitored
Duration
60 days treatment (day 45 to day 105 post-transplant)
Route
oral
Blinding
not_reported
Controls
none
Drug class
mTOR inhibitor

Measured endpoints

  • Progression of GVD (change in intimal area from day 42 to 105)Decreasedcardiovascular
    significanteffect: halted progression vs untreated
  • Intimal area on day 105Decreasedcardiovascular
    significanteffect: 3.7±1.0 vs 6.4±0.5 mm2
  • Correlation of intimal area with sirolimus trough levelsDecreasedcardiovascular
    significanteffect: R2=0.67 inverse correlation
  • Regression of intimal areaImprovedcardiovascular
    significanteffect: regression in 4 of 6 treated monkeys
Full abstract

Current immunosuppressive protocols fail to prevent chronic rejection often manifested as graft vascular disease (GVD) in solid organ transplant recipients. Several new immunosuppressants including sirolimus, a dual function growth factor antagonist, have been discovered, but studies of drug efficacy have been hampered by the lack of a model of GVD in primates, as a prelude to clinical trials. As described earlier, we have developed a novel non-human primate model of GVD where progression of GVD is quantified by intravascular ultrasound (IVUS). Twelve cynomolgus monkeys underwent aortic transplantation from blood group compatible but mixed lymphocyte reaction-mismatched donors. To allow the development of GVD in the allograft, no treatment was administered for the first 6 weeks. Six monkeys were treated orally with sirolimus from day 45 after transplantation to day 105. Progression of GVD measured as change in intimal area from day 42 to 105 was halted in sirolimus-treated monkeys compared to untreated monkeys (P<0.001, general linear model). On day 105, the intimal area +/- SEM was 3.7+/-1.0 and 6.4+/-0.5 mm2, respectively (P<0.05, t test). The magnitude of allograft intimal area on day 105 correlated inversely with sirolimus trough levels (R2=0.67, P<0.05). Regression of the intimal area was seen in four of six sirolimus-treated monkeys, which was significantly different from the untreated monkeys (P<0.05). Our results in the first non-human primate model of GVD showed that treatment with sirolimus not only halted the progression of preexisting GVD but also was associated with partial regression. Sirolimus trough blood levels were correlated with efficacy. Therefore, sirolimus has the potential to control clinical chronic allograft rejection.

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