Lawrence McChesney

Leflunomide in experimental transplantation. Control of rejection and alloantibody production, reversal of acute rejection, and interaction with cyclosporine.

Leflunomide is a compound recently shown to reduce T and B cell-mediated responses in a number of experimental rat, mouse, and human systems. To explore its potential as an immunosuppressant, we studied leflunomide in 128 Brown-Norway/Lewis cardiac transplants and in 48 unoperated Lewis rats. At doses ranging from 0.63 mg/kg to 10 mg/kg given for 7 days, leflunomide significantly prolonged graft survival compared with controls. When cyclosporine or leflunomide was given for 21 days at a dose of 5 mg/kg, indefinite graft survival occurred in 3/6 animals receiving leflunomide but in none of the 21-day cyclosporine-treated animals. When acute rejection was allowed to develop for four days in untreated rats, leflunomide but not cyclosporine reversed the rejection, returning histology to a normal appearance by seven days. Alloantibody responses measured in microcytoxicity assays as well as total allospecific IgG and IgM in the rejecting animals also were returned to baseline levels by leflunomide but not cyclosporine. When both drugs were used together, a synergistic effect was observed at low doses of both drugs. Pharmacokinetics studies showed that their combined use for up to 28 days did not affect the trough levels of cyclosporine or cyclosporine elimination, suggesting that the synergistic effect was not caused by reduced elimination. The toxicity of each drug was negligible in a group of 32 rats receiving the drugs alone or in combination as measured by serial observation of general appearance, testing of serum ALT, AST, bilirubin, creatinine, white blood cell counts, hemoglobin, and gross necropsy appearance. Weight gain was slightly reduced by both drugs but combined drug use did not alter the pattern. The results of these experiments show leflunomide to be a potent, well-tolerated immunosuppressant, synergistic in its activity with cyclosporine, and would seem to encourage a closer look at this drug for potential use in man.

Leflunomide controls rejection in hamster to rat cardiac xenografts.

Leflunomide is an isoxazole derivative that has the ability to prevent acute rejection of cardiac, renal, and skin transplants in strongly rejecting rat models. Furthermore, leflunomide is able to interact synergistically with CsA to inhibit allograft rejection and also reverse ongoing allograft rejection. In vitro studies suggest that the mechanism of action of leflunomide is via an interruption of cytokine signaling in T cells. This study defines the ability of leflunomide to prevent and reverse rejection of concordant xenografts. One hundred nine adult Lewis rats in 13 groups received abdominal heterotopic cardiac transplants from Golden Syrian hamsters. The xenograft survived 3.9±0.3 days without treatment. When leflunomide was given at 2.5, 5, 10, 15, or 20 mg/kg by gavage daily, the cardiac xenograft survivals were 5.0±0.6, 8.0±3.0, 52.0±20.2, 76.5±21.14, and 58.9±28.1 days, respectively. The survival rates were 4.0±0 and 27.7±28.7 days when CsA was given at 10 and 20 mg/kg i.m., respectively. The combination of CsA at 10 mg/kg with leflunomide at 10 mg/kg or 5 mg/kg prolonged cardiac xenograft survival to 106.0±50.2 days and > 90 days, respectively. There were no observable side effects in the latter combination. Histologic studies of untreated graft hearts 4 days after transplantation revealed infarction of myocardium and severe RBC extravasation. In contrast, the rejected hamster hearts from long-term survivors showed massive mononuclear cell infiltration and myocardium fibrosis in contrast to the early rejected picture. Therapy with leflunomide begun on day 2 reversed these rejection responses by day 6. In addition, the increase in allospecific IgM titers observed on day 2 was reversed, and the allospecific IgM to IgG isotype switch that occurred in untreated animals was prevented by leflunomide. These observations demonstrate that leflunomide, at nontoxic doses, effectively controlled acute rejection of concordant xenografts and synergistic immunosuppressive effect was achieved with leflunomide and CsA.

An evaluation of leflunomide in the canine renal transplantation model

Leflunomide is an isoxazole with newly discovered immunosuppressive properties. Its mechanism of action operates later in the cell cycle than cyclosporine and appears to interfere with lymphocyte IL-2 responsiveness. With the encouraging results from in vitro and small-animal studies, we subjected leflunomide to the rigorous canine renal transplantation model in a dose response protocol. Thirty-eight female mongrel dogs underwent renal transplantation and bilateral nephrectomy. Immunosuppression was stratified from controls with no immunosuppression to monotherapy with leflunomide at 2, 4, 8, and 16 mg/kg/day given orally and in a combination therapy with cyclosporine. To evaluate its toxicity while maintaining a low constant blood level, eight dogs were treated by continuous intravenous infusion at doses of 2, 4, 6, and 8 mg/kg/day. The mean survival time for nonimmuno suppressed controls (n=2) was 9 days, leflunomide 2 mg/kg/day (n=2) was 9 days, leflunomide 4 mg/kg/day (n=4) was 16 days, leflunomide 8 mg/kg/day (n=5) was 28 days, leflunomide 16 mg/kg/day (n=7) was 21 days. Cyclosporine alone at 10 mg/kg/day (n=4) resulted in a mean survival time of 13 days. The mean survival time with the combination of cyclosporine 10 mg/kg/day with leflunomide 4 mg/kg/day (n=6) was 68 days. The mean survival time for continuous intravenous leflunomide 2 mg/kg/day (n=2) was 10 days; for leflunomide 4 mg/kg/day, 20 days; for leflunomide 6 mg/kg/day, 14 days; and leflunomide 8 mg/kg/day, 21 days. The mean serum trough levels of leflunomide ranged from 10 μUg/ml at the 2 mg dose to 55 μUg/ml for the 16 mg dose, levels that have been well tolerated in man. Leflunomide at 16 mg/kg/day reliably prevented acute al-lograft rejection, but the dogs died of inanition with normal renal function. Leflunomide at a nontoxic dose of 4 mg/kg/day extended survival to 16 days, but all dogs died of rejection. A combination of inadequate doses of leflunomide (4 mg/kg/day) and cyclosporine (10 mg/kg/day) resulted in all animals having normal renal function and weight for 30 days. Even at a high dose of 16 mg/kg/day, no viral or bacterial infections were noted. These observations in a canine system add to the growing enthusiasm for the evaluation of leflunomide in human transplantation.

Pharmacologically induced regression of chronic transplant rejection.

Chronic rejection, characterized by a progressive obliterative arteriopathy, is a major cause of graft failure in long-surviving human transplants for which there is no effective treatment. Leflunomide, an isoxazol derivative, has been shown to be a novel immunomodulatory drug that profoundly suppresses the immune response. In this study, 58 Fisher-344 rats received cardiac transplantation from Lewis rats. All the recipients were given CsA at 2.5 mg/kg for 5 days postoperatively. Without further treatments, the arterial intima was progressively injured by mononuclear cell infiltration and Ab deposition. Smooth muscle cell and fibroblast proliferation in the intima became a predominant phenomenon by day 90. CsA was ineffective in controlling the progress of arterial intimal thickening when treatment began on day 30. Leflunomide at 5 mg/kg failed to control arterial intimal thickening by day 60 when therapy began on day 30. However, the progress of arterial intimal thickening was significantly inhibited by day 90 when the dosage of leflunomide had been increased to 10 mg/kg on day 60. Combined therapy with leflunomide and CsA at 5 mg/kg for 30 days dramatically reversed the arterial thickening by day 60. After increasing the dosages of both leflunomide and CsA to 10 mg/kg on day 60, the combination therapy steadily controlled the chronic rejection. Only the combination therapy significantly down-regulated circulating antidonor IgM and IgG titers. In rat smooth muscle cell culture, this same drug combination had a synergistic inhibitory effect on proliferation. Therefore, the combination therapy of leflunomide and CsA could reverse and control the progress of chronic rejection, while leflunomide, at higher dosage as a monotherapy, could stabilize chronic rejection in this model. The mechanism of the regression of chronic rejection by leflunomide and cyclosporine may be related to their in vitro abilities to control not only lymphocyte but smooth muscle cell proliferation, as well. The synergistic effect of these two drugs on vascular smooth muscle cell proliferation in vitro may be an important part of this novel activity. This unique feature holds intriguing possibilities for treating established chronic rejection.

The use of granulocyte colony-stimulating factor after liver transplantation

Granulocyte colony-stimulating factor (G-CSF) increases the number of circulating granulocytes and decreases TNF production while improving survival in sepsis models. To study the effects of G-CSF administration on sepsis and rejection, 37 primary liver allograft recipients received intravenous recombinant human G-CSF (rhG-CSF; 5–10 μg/kg/day) for the first 7–10 days following transplantation, targeting a blood absolute granulocyte count of between 10,000 and 20,000 cells/mm3. These recipients were monitored prospectively for sepsis and rejection, as were the previous 49 primary liver allograft recipients who did not receive G-CSF. Both groups utilized identical protocol immunosuppression and standardized diagnosis and treatment of sepsis and rejection. Univariate and logistic regression analysis of risk factors for sepsis and rejection revealed no difference between the two patient groups. G-CSF-treated patients developed an increased absolute granulocyte count over time (P<0.0001, repeated-measures analysis of variance). G-CSF-treated patients had a decreased number of sepsis episodes per patient (0.92±.5 vs. 2.18±2.8, P<0.02, t test), and a lower percentage of sepsis-related deaths (8% vs. 22%, P<0.04, chi-square test). The incidence of acute rejection was decreased in the G-CSF-treated group (22% vs. 51%, P<0.01, chi-square test). These pilot data support further investigation into G-CSFs favorable effects on sepsis and rejection.

Histological characterization and pharmacological control of chronic rejection in xenogeneic and allogeneic heart transplantation

BACKGROUND Chronic allograft rejection remains a major barrier to successful long-term allograft transplantation in humans. Chronic allograft rejection is characterized by the appearance of arterial lesions with concentric intimal thickening. This study investigates the development and control of chronic rejection in hamster cardiac xenografts transplanted into Lewis rats. METHODS Chronic rejection in the xenograft model involves transplantation of hamster hearts into Lewis rats treated with leflunomide (Lef) continuously at 15 mg/kg/day. The allograft model involves transplantation of Lewis hearts into Fisher-334 rats treated with cyclosporine (CsA) at 2.5 mg/kg for 5 days. RESULTS The average scores of arterial intimal thickening on day 45 after transplantation were 1.89+/-0.43 in the xenograft and 2.50+/-0.72 in the allograft. The basic pathology of both xenografts and allografts undergoing chronic rejection was arterial intimal thickening comprising smooth muscle cell proliferation, mononuclear cell infiltration, and fibrosis. The majority of cells infiltrating the arterial intima and myocardium were T cells and macrophages. Compared with the allograft, intimal edema, matrix deposition and fibrinoid necrosis were specifically presented in the xenografts and generally involved the larger arteries. The predominant isotype of antibody deposited was IgM in xenografts and IgG in allografts. When combined Lef and CsA therapy was initiated on day 45 after transplantation, the changes of chronic rejection were reversed in both xenografts and allografts by day 90. The scores of intimal thickening were significantly reduced to 0.97+/-0.45 and 1.48+/-0.56, respectively. CONCLUSIONS We conclude that chronic rejection can be induced in xenografts under conditions of inadequate immunosuppression. Chronic rejection in xenografts involves arterial lesions that bear some histological similarities to, as well as differences from, those observed in chronically rejected allografts. Finally, combination therapy with CsA and Lef reduced the incidence and severity of the intimal lesions in both chronically rejecting xenografts and allografts.

IMMUNOSUPPRESSION PREVENTING CONCORDANT XENOGENEIC ISLET GRAFT REJECTION IS NOT SUFFICIENT TO PREVENT RECURRENCE OF AUTOIMMUNE DIABETES IN NONOBESE DIABETIC MICE

BACKGROUND We and others have reported previously that the immunosuppressant, leflunomide (Lef), can prevent allogeneic and xenogeneic islet graft rejection in streptozocin (STZ)-induced diabetic animals. However, whether Lef required to prevent islet graft rejection is sufficient to prevent the recurrence of autoimmune diabetes has not been addressed. METHODS The effect of Lef on concordant xenogeneic islet graft in STZ-induced diabetic mice and autoimmune nonobese diabetic (NOD) mice were studied. Then, whether Lef prevents the onset of spontaneous diabetes in young NOD mice and the recurrence of diabetes after major histocompatibility complex (MHC)-matched islet transplantation in diabetic NOD mice were investigated. RESULTS In STZ-induced diabetic BALB/c mice, Lef treatment significantly prolonged rat islet graft survival. However, Lef could not significantly prolong rat islet graft survival in autoimmune diabetic NOD mice. For prevention studies, treatment with Lef at 30 mg/ kg/day from 4 weeks to 20 weeks of age significantly reduced the incidence of spontaneous diabetes in NOD mice. However, when the NOD mice were treated from 8 to 24 weeks of age, the incidence of spontaneous diabetes was not significantly reduced as compared to the incidence of diabetes in the untreated female NOD mice at 28 weeks of age. Finally, in the MHC-matched islet transplant model, Lef could not significantly prolong MHC-matched nonobese diabetes-resistant mice islet graft survival in NOD mice. CONCLUSIONS Lef preventing concordant xenogeneic islet graft rejection is not sufficient to prevent the recurrence of autoimmune diabetes in NOD mice. We believe that controlling autoimmunity after islet transplantation will lead the way to promote successful clinical islet transplantation in the future.

Prolongation Of Rat Islet Allograft Survival By The Immunosuppressive Agent Leflunomide

The purpose of this study was to investigate the effect of Leflunomide (Lef), alone or in combination with a suboptimal dose of cyclosporine (CsA), on rat allogeneic islet transplantation. Two thousands islets were transplanted under the left kidney capsule of a streptozocin-induced diabetic Lewis recipient. In the ACI to Lewis combination, the mean survival time (MST) of the untreated group was 5.2 +/- 0.8 days. Lef at 2.5, 5, and 10 mg/kg/day for 14 days significantly prolonged MSTs to 19.0 +/- 1.6, 29.8 +/- 3.7, and 29.0 +/- 5.3 days (P<0.01), respectively. CsA at 5 mg/kg/day also prolonged graft survival to 21 +/- 3.5 days. When CsA (5 mg/ kg/day) was combined with Lef (5 or 10 mg/kg/day) and administered for 14 days, the survival rate of the islet allografts was further increased to 34.8 -/+ 4.7 and 36.0 -/+ 6.6 days, respectively. When Lef or CsA monotherapy was extended to 28 days at a dose of 5 mg/kg/ day, MSTs were further increased to 45.8 -/+ 8.8 or 37.4 -/+ 4.7 days, respectively. Graft MST was 56.4 -/+ 9.9 days when Lef and CsA combination therapy was administered for 28 days. In the Brown-Norway to Lewis combination, MST of the allogeneic islets in untreated rats was 6.2 -/+ 0.8 days. When Lef or CsA alone, at 5 mg/kg/day, was administered for 28 days, two of seven Lef-treated rats remained normoglycemia for more than 100 days. Graft survival longer than 100 days occurred in one of five CsA-treated rats, and in five of eight rats treated with the combination of Lef and CsA. The graft-bearing left kidney was removed after 100 days in rats with functional islet allografts, and a second Brown-Norway islet graft was transplanted into the right kidney. In all recipients, the second graft was rejected by 9.8 -/+ 1.5 days. In summary, our findings demonstrate that Lef prolonged allogeneic islet graft survival, and its immunosuppressive effect was improved when combined with CsA.

IN VIVO EFFECTS OF LEFLUNOMIDE ON NORMAL PANCREATIC ISLET AND SYNGENEIC ISLET GRAFT FUNCTION

Leflunomide (Lef) is a novel immunosuppressant that can prevent islet allograft and xenograft rejection. In this study, we investigated the in vivo effects of Lef on the function of normal pancreatic islets and syngeneic islet grafts in rats and compared its effect to cyclosporine (CsA) and FK506. Different groups of rats were treated with Lef (10 and 20 mg/kg/day), CsA (20 mg/kg/day), or FK506 (2 mg/kg/day). After 4 and 6 weeks, nonfasting blood glucose (BG) levels of all the treatment groups were not different from that of the control group. Intravenous glucose tolerance test revealed that the rate of glucose disappearance was normal in Lef-treated groups. However, the rate of glucose disappearance in the CsA- and FK506-treated rats was impaired. In contrast, long-term (7 months) treatment of rats with CsA (10 mg/kg/day) resulted in five of seven rats developing hyperglycemia. However, normal BG was observed in all rats treated for 7 months with Lef (10 mg/kg/day). In the second experimental model, streptozocin-induced diabetic ACI rats were grafted with an average of 1200 syngeneic islets into the liver or kidney capsule. Diabetes in these ACI recipients was stably reversed for 6 months, then these rats were treated with Lef (20 mg/kg/day), CsA (20 mg/kg/day), and FK506 (2 mg/kg/day). After 14 days of treatment, nonfasting BG levels were significantly increased in rats treated with CsA (before: 105 +/- 2.9 mg/ dl, after: 275.8 +/- 60 mg/dl) as well as in rats treated with FK506 (before: 108 +/- 2.4 mg/dl, after: 209 +/- 10.1 mg/dl). In contrast, the BG levels of the Lef-treated rats were indistinguishable from those of the untreated control groups. Site of transplantation, i.e., liver and kidney, did not affect the results. Our results indicating that Lef has no diabetogenic property in vivo lends support to the promise that leflunomide may be effective for clinical islet transplantation.

Duodenal varices: a case report and review of the literature.

D.C. is a 56 year old male with a past medical history of excessive ethanol use and internal hemorrhoids. He presented in the summer of 1993 to another hospital with gastrointestinal bleeding secondary to an endoscopically confirmed gastric ulcer acquired following the withdrawal of alcohol use. He was placed on a regime of H blockers, iron replacement therapy and did well for five months but then presented with complaints of progressive fatigue and epigastric discomfort. Evaluation revealed a hemoglobin of 3.8 g./dl. Colonoscopy did not reveal a source of bleeding. Esophagogastroduodenoscopy (EGD), revealed antral