Immunosuppressive therapy abrogates unresponsiveness to renal allograft induced by thymic recognition of donor antigens.

This laboratory and others have previously shown that the intrathymic injection of donor cells or major histocompatibility complex allopeptides induced indefinite survival of a subsequent graft without immunosuppression. This approach may open interesting new perspectives for transplant medicine. Studies to explore the feasibility of the technique in humans can only be designed with some form of concomitant immunosuppression to avoid the risk of irreversible rejection in the case that the thymus approach fails. Thus, one of the first issue to address is whether conventional immunosuppression interfered with the process of thymus tolerance. This study was designed to investigate the above issue. In transplanted Lewis control rats, cyclosporin A (CsA) (10 mg/kg per day) and methylprednisolone (MP) (10 mg/kg twice daily) for 3 days were invariably followed by kidney graft rejection within 10 days. In subsequent experiments, five groups of Lewis rats were injected with medium alone or Brown-Norway (BN) leukocytes into the thymus, and 24 h later, they were orthotopically transplanted with major histocompatibility complex-incompatible kidneys from BN rats. At the time of transplantation, Lewis rats received MP (10 mg/kg twice daily) CsA (10 mg/kg per day), or the combination of the two (MP+CsA at the same dose) for 3 days. Lewis rats injected intrathymically with BN leukocytes but not receiving immunosuppressants had indefinite survival of their kidney graft. The effect of the intrathymic injection of donor cells of inducing unresponsiveness to a subsequent kidney graft was abolished by concomitant immunosuppression. All animals given immunosuppressants rejected their graft within 12 days after surgery.(ABSTRACT TRUNCATED AT 250 WORDS)

Toward novel antirejection strategies: in vivo immunosuppressive properties of CTLA4Ig.

Allograft rejection is a process that depends on T cell receptor-ligand interaction and costimulatory signals generated when accessory molecules binds to their ligands, such as CD28 to the B7 molecules. We investigated the possibility that B7 blockade in vivo by the soluble CD28 receptor homolog CTLA4Ig modulates rejection process in a rat model of kidney allograft. Lewis rats orthotopically transplanted with MHC incompatible kidney from Brown-Norway rats were given an intraperitoneal injection of CTLA4Ig (0.2 or 0.5 mg/day) or a nonspecific immunoglobulin for seven days, starting the day of transplant. While control rats rejected the graft within 10 days, all animals given CTLA4Ig had a prolonged kidney allograft survival, independently from the dose of the fusion protein employed. Actually, at the dose of 0.2 mg/day kidney grafts survived 36 to 50 days (median 44 days), while with the highest dose graft survival was 40 to 60 days (median 50 days). In all CTLA4Ig-treated rats renal grafts were well functioning as documented by serum creatinine concentrations comparable to age- and sex-matched control rats 30 days after transplant. At this time in vitro mixed lymphocyte culture (MLR) experiments showed a significant reduction of proliferation of peripheral blood lymphocytes from CTLA4Ig-treated rats when challenged with BN but not third party Wistar Furth lymphocytes. We have also shown that combining a short course of CTLA4Ig (0.2 mg/day) with a dose of cyclosporine (CsA) low enough to fail to inhibit graft rejection allowed indefinite engraftment of kidney allograft without the need of continuous immunosuppression.(ABSTRACT TRUNCATED AT 250 WORDS)

Blocking cell microtubule assembly inhibits the alloimmune response in vitro and prolongs renal allograft survival by inhibition of Th1 and sparing of Th2 cell function in vivo.

Colchicine inhibits cell microtubule assembly by binding to and preventing the polymerization of tubulin monomers. Although there are data to indicate that colchicine inhibits a variety of cell-mediated immune responses, the effects and mechanisms of inhibiting cell microtubule assembly on the alloimmune response have not been thoroughly investigated. It has recently been shown that colchicine prevents acute rejection and promotes the long-term survival of rat renal allografts. In this study, the effects and mechanisms of inhibiting cell microtubule assembly by colchicine on the alloimmune response in vitro and in vivo were examined. First, the effects of colchicine on T lymphocyte response to alloantigen in vitro were tested. In the standard one-way mixed lymphocyte response (MLR), responder Lewis rat lymph node cells were cultured with irradiated Brown-Norway stimulators. Colchicine inhibited the MLR in a dose-dependent manner, with 100% inhibition at a concentration of 25 ng/mL (6.25 x 10(-8) M) and 50% inhibition at a concentration of approximately 5 to 10 ng/mL. Colchicine also inhibited the generation of cytotoxic T lymphocytes as well as cytotoxic T cell effector function in vitro in a dose-dependent fashion. Second, detailed immunohistologic studies of renal allografts harvested from unmodified control (acutely rejecting) and colchicine-treated rats (Day 15 or 30) were performed. These studies showed that grafts from colchicine-treated animals had significantly fewer mononuclear cell infiltrates and less edema, and moderately decreased deposition of immunoglobulin M, C3, and fibrin, as compared with acutely rejecting control grafts.(ABSTRACT TRUNCATED AT 250 WORDS)

Dissociation between antiproteinuric and antihypertensive effect of angiotensin converting enzyme inhibitors in rats.

To clarify whether angiotensin converting enzyme (ACE) inhibitors prevent progressive renal injury directly by their antihypertensive effect we administered the ACE inhibitor lisinopril to male MWF/Ztm rats as a single daily dose that lowered blood pressure for only 9 of 24 h. We investigated the effects of this treatment in short- and long-term studies and compared them with another antihypertensive drug, the calcium channel blocker nitrendipine, given to partially control blood pressure as done with the ACE inhibitor. In untreated animals systemic hypertension, proteinuria, and glomerulosclerosis developed spontaneously with age, and lisinopril reduced systemic hypertension and prevented proteinuria and glomerular lesions. Nitrendipine, despite similar blood pressure control, was ineffective in preventing both proteinuria and glomerulosclerosis. After 2 mo of treatment glomerular capillary pressure was significantly reduced by lisinopril and slightly but significantly increased by nitrendipine, compared with untreated controls. The ultrafiltration coefficient was significantly higher in lisinopril than in controls and not significantly changed by nitrendipine. With both drugs, however, glomerular hemodynamic effects were observed only at a few hours after administration and were abolished before the next administration. No significant changes in glomerular tuft volume were observed in treated and untreated animals after 2 and 6 mo of observation. Thus ACE inhibitor, despite only partial control of systemic blood pressure, effectively prevented proteinuria and glomerular injury. Comparable blood pressure control obtained with a calcium channel blocker was not associated with renal protection. These results suggest that ACE inhibitors could protect glomerular microcirculation by a mechanism that is not directly related to their antihypertensive action.

Effects of angiotensin-converting enzyme inhibition on glomerular capillary wall ultrastructure in MWF/Ztm rats.

Previous studies have documented that treatment with angiotensin-converting enzyme (ACE) inhibitors prevents spontaneous proteinuria and enhances the glomerular ultrafiltration coefficient in male MWF/Ztm rats. The aim of this study was to study whether these beneficial effects of ACE inhibitors on glomerular capillary wall function are derived from the preservation of its ultrastructure. Conventional morphometrical analysis of kidney tissue, by light and electron microscopy, was used to quantify glomerular structural changes in the male MWF/Ztm rats treated with the ACE inhibitor cilazapril for 2 and 6 months and in age-matched untreated controls. At the end of the observation periods, both systolic blood pressure and urinary protein excretion were significantly reduced in treated animals as compared with controls. Glomerular volume increased significantly with time but was comparable in control and in treated rats. Surface area available for filtration (measured as peripheral capillary wall) was comparable in control and in treated animals at the same time and increased significantly with time only in treated rats. Mesangial volume was significantly higher in cilazapril-treated animals than in controls after 2 months of treatment and was comparable after 6 months. ACE inhibitor treatment did not induce significant ultrastructural changes such as basement membrane thickness, configuration of epithelial podocytes, and the width and the frequency of the epithelial slit diaphragms. These results indicate that the previously observed increase in the glomerular ultrafiltration coefficient by an ACE inhibitor in these animals is not the consequence of changes in filtering surface area but likely reflects an increase in membrane hydraulic permeability.(ABSTRACT TRUNCATED AT 250 WORDS)

Thromboxane A2 receptor blocking abrogates donor-specific unresponsiveness to renal allografts induced by thymic recognition of major histocompatibility allopeptides.

Recent in vitro studies have documented that thromboxane (Tx)A2 induces thymocyte apoptosis by acting on specific receptors abundantly expressed on the surface of immature T lymphocytes. No information is available on the in vivo relevance of this observation in development of self- or acquired tolerance. We and others have previously documented that injection of donor cells into adult thymus of experimental animals induced specific systemic unresponsiveness to allografts in the rat and mouse models. More recently, we have shown that intrathymic injection of synthetic class II major histocompatibility complex (MHC) allopeptides resulted in donor-specific unresponsiveness to renal allografts. The induction of unresponsiveness was abrogated by recipient thymectomy within the first week. We now report the effect of TxA2 blockade on acquired thymic tolerance to renal allografts induced by intrathymic injection of synthetic class II MHC allopeptides in the Wistar-Furth (WF) to Lewis rat strain combination. Administration of the TxA2 receptor blocker prior to transplantation or 2 wk postengraftment completely abrogated the unresponsive state. In addition, inhibiting the TxA2-forming enzyme by aspirin or dexamethasone also abolished the induction of acquired thymic tolerance. Evidence is also provided for a critical "dose" of peptides to be injected into the thymus to induce systemic unresponsiveness to renal allografts. These data, coupled with observations that activated peripheral T cells can circulate through the thymus, provide evidence that TxA2/TxA2 receptor interaction in the thymic microenvironment, leading to anergy/programmed cell death of activated T cells, may play an important role in the development of acquired unresponsiveness in vivo.

Mechanisms of acquired thymic unresponsiveness to renal allografts. Thymic recognition of immunodominant allo-MHC peptides induces peripheral T cell anergy.

We have recently shown that a single intrathymic injection of synthetic 25mer peptides, representing full sequences of the hypervariable domain of RT1.BuB (4 peptides) and RT1.Du beta (4 peptides) WF class II MHC molecules, 48 hr before transplantation induces donor-specific unresponsiveness to WF rat renal allografts in adult LEW recipients. The induction of unresponsiveness was abrogated by the recipient's thymectomy within the first week after intrathymic injection. Peripheral T cells of long-term survivors exhibited antigen-specific hyporesponsiveness in the LEW x WF MLR. Studies on the mechanisms of induction of acquired thymic unresponsiveness to alloantigen in vivo and in vitro are now reported. First, since we have previously demonstrated in LEW responders that only 4 of the 8 synthetic 25mer peptides, 2 RT1.Du beta and 2 RT1.Bu beta sequences, were immunogenic in vitro and in vivo, we compared the tolerogenicity of the immunogenic versus the nonimmunogenic peptides. While LEW rats intrathymically injected with the nonimmunogenic peptides acutely rejected their renal allografts within 6-10 days, animals injected with the immunogenic peptides did not reject their grafts and are surviving > 100 days with normal allograft function. In vitro studies established that peripheral T cells from intrathymically tolerized animals exhibited antigen-specific hyporesponsiveness in the LEW x WF MLR starting as early as 1 week posttransplant. Immunohistological evaluation of renal allografts from intrathymically tolerized animals 1 week postengraftment showed marked reduction in mononuclear cell infiltrates with no evidence of tubulitis, and marked reduction in intragraft staining for activation and inflammatory cytokines and alloantibodies, as compared with acutely rejecting controls. Systemic administration of 1000 U of rIL-2 daily for 5 days starting on the day of transplantation abrogated the tolerogenic effect of intrathymic MHC allopeptides. Injection of 100 micrograms of a single immunogenic peptide, RT1.Du beta 2 (residues 20-44), into the thymus of responder LEW rats 48 hrs before immunization with RT1.Du beta 2 effected significant reduction of in vitro proliferation of primed lymphocytes to RT1.Du beta 2, an effect that was abrogated by addition of rIL-2 in vitro. In contrast, thymectomy beyond 2 weeks and administration of rIL-2 at 4-6 weeks after transplantation failed to cause rejection. These observations indicate that thymic recognition of immunodominant class II MHC allopeptides leads to peripheral T cell anergy that mediates the induction phase of systemic unresponsiveness to renal allografts. The maintenance phase appears to be mediated by dense anergy or clonal deletion.(ABSTRACT TRUNCATED AT 400 WORDS)

Colchicine allows prolonged survival of highly reactive renal allograft in the rat.

Colchicine, with its immunosuppressive properties, has been used with beneficial effects in autoimmune diseases. Whether colchicine, by virtue of the above properties, could attenuate the process of kidney allograft rejection in the rat is investigated in this report. Untreated Lewis rats (N = 6) given an incompatible kidney allograft from Brown-Norway rats rejected the graft within 12 days. Colchicine at a daily ip dose of 40 (N = 6) or 10 (N = 4) micrograms/kg promoted long-term survival (> 170 days) of major histocompatibility complex-incompatible kidney grafts. Animals (N = 4) given 4 micrograms of colchicine per kilogram had a graft failure within 10 days. Experiments have also been performed to evaluate the effect of colchicine withdrawal at different time intervals from transplantation on subsequent allograft survival. Colchicine (40 micrograms/kg per day ip) was given for 12, 6, or 1 mo or for 15 days to an additional four groups of six animals each without any other immunosuppressants. The withdrawal of colchicine did confer long-term inhibition of the immune system in animals treated for at least 1 mo, as documented by a graft survival of more than 80 days. By contrast, those animals who discontinued colchicine after only 15 days of treatment had graft rejection within the next 8 days. Mixed lymphocyte culture experiments showed a significant (P < 0.01) reduction of the proliferation of peripheral blood lymphocytes taken from all groups of animals 30 days after colchicine withdrawal when challenged with Brown-Norway lymphocytes.(ABSTRACT TRUNCATED AT 250 WORDS)

Thymic recognition of class II major histocompatibility complex allopeptides induces donor-specific unresponsiveness to renal allografts.

Recent data show that intrathymic injection of allogeneic cells induces donor-specific unresponsiveness to allografts. There is also evidence to suggest that, in addition to recognizing intact MHC molecules, T cells can recognize processed MHC peptides, although the role of this indirect mode of allo-recognition in allograft rejection is unknown. We report that a single intrathymic injection of 100 micrograms of a mixture of eight 25-mer synthetic polymorphic class II MHC allopeptides, representing the full-length sequence of RT1.Bu beta and RT1.Du beta (WF) into incompatible (RT1l) LEW recipients, induced a state of long-term unresponsiveness to subsequent engraftment 2 days later of WF, but not third party (RT1n) BN renal allografts. Intrathymic injection of 100 micrograms of either RT1.Bu beta or RT1.Du beta peptide mixtures alone were insufficient to prolong renal allograft survival. Intravenous or intrasplenic injection of the allopeptide mixture did not affect renal allograft survival, establishing the role of thymic recognition of class II MHC allopeptides in inducing systemic unresponsiveness. The induction of intrathymic donor-specific unresponsiveness was abrogated if thymectomy was performed on the day of renal transplantation or 5 days later. PBLs from long-term surviving animals exhibited marked reduction of proliferation to WF, but not third party BN stimulator lymphocytes in the standard mixed lymphocyte response assay in vitro. These observations emphasize the role of recognition of processed MHC molecules in vascularized allograft rejection and confirm the role of the thymus in acquired systemic tolerance to alloantigens.

Intrathymic transplantation of donor cells allows a stabilized, incompatible renal transplant to survive indefinitely after cyclosporine withdrawal.

Recent experiments have shown that exposure of maturing rat thymocytes to donor cells induces a condition of donor-specific unresponsiveness in the recipient that allows indefinite survival of a subsequent kidney transplant without the need for long-term immunosuppressants. Here, studies were performed in Lewis (RT1(1)) rats to determine whether (a) the process of unresponsiveness to kidney allograft induced by intrathymic donor cell inoculation occurred also with a noninbred strain of donor animals, and (b) this technique could allow the elimination of the need for daily immunosuppressive therapy in animals already transplanted with an incompatible kidney. Kidneys from noninbred Sprague-Dawley rats transplanted in incompatible Lewis (RT1(1)) rats, previously injected intrathymically with cells from the same donor, survived indefinitely. Intrathymic inoculation of donor cells into Lewis rats allowed a stabilized, incompatible renal allograft from Brown-Norway (RT1n) rats to survive indefinitely after discontinuation of immunosuppressive treatment with cyclosporine. These findings provide an approach for renal transplantation without immunosuppressive therapy and a potential strategy to overcome side effects related to the use of immunosuppressants in animals already transplanted.

Analysis by fast atom bombardment mass spectrometry of phospholipids from tubuli, glomeruli, and urine of normal rats and rats with acute renal failure.

Fast atom bombardment mass spectrometry was used to characterize phospholipids from tubuli and glomeruli of normal rats and rats with acute renal failure. It was possible to assess the molecular species of the principal phospholipidic classes. In all of them, the most abundant species contained a residue of arachidonic acid. The phospholipids of urine were also analyzed, showing the presence of the major molecular species of several phospholipid classes. Excretion of phospholipids was greater in urine from rats with acute renal failure.

Thromboxane receptor blockade attenuates chronic cyclosporine nephrotoxicity and improves survival in rats with renal isograft.

The question of whether pharmacological inhibition of the thromboxane A2 activity prevents cyclosporine-induced chronic renal dysfunction in a Lewis rat model of renal isograft was addressed. Transplanted animals were given a daily oral dose of cyclosporine (20 mg/kg; N = 15), cyclosporine (20 mg/kg) and the thromboxane A2 receptor antagonist GR32191 (3 mg/kg twice daily, by gavage; N = 15), or the vehicle alone (N = 12). Treatments were started the day of kidney transplant, and animals were monitored for 1 year. Cyclosporine-treated animals developed renal insufficiency, as documented by serum creatinine levels of 0.49 +/- 0.09, 0.95 +/- 0.12, and 1.38 +/- 0.15 mg/dL before and after 6 and 12 months of observation, respectively. Cyclosporine and GR32191 used in combination partially but significantly prevented the deterioration of renal function (serum creatinine, basal, 0.52 +/- 0.06; month 6, 0.68 +/- 0.04; month 12, 0.93 +/- 0.10 mg/dL). At the end of the study, GFR, as insulin clearance, was significantly lower in rats given cyclosporine (0.28 +/- 0.09 mL/min/100 g) than in rats given cyclosporine plus GR32191 (0.45 +/- 0.05 mL/min/100 g) or than in vehicle-treated animals (0.56 +/- 0.07 mL/min/100 g). Similar results were obtained for the effective RPF, measured as p-aminohippurate clearance. At the same time points, comparable to whole-blood cyclosporine levels were found in rats receiving cyclosporine alone and in those given cyclosporine plus GR32191. More than 50% of the animals on cyclosporine alone died from uremia before the end of the observation period. By contrast, rats receiving cyclosporine in combination with GR32191 had a prolonged survival.(ABSTRACT TRUNCATED AT 250 WORDS)

Thymus-mediated immune tolerance to renal allograft is donor but not tissue specific.

Studies were conducted in Lewis (RT1l) rats to determine whether the process of unresponsiveness to kidney graft induced by the intrathymic glomerular transplantation were donor-strain specific as suggested by previous studies (Remuzzi et al., Lancet 1991;337:750-752). When glomeruli from Sprague-Dawley rats were injected in the thymus of Lewis rats, the subsequent kidney graft from a "third party" Brown-Norway (RT1n) rejected within 9 to 14 days. Moreover, an alternative site for glomerular antigen inoculation, such as i.p. administration, failed to induce a state of unresponsiveness to renal allograft. Whether tolerance was tissue specific was investigated by intrathymic injection of a preparation of donor blood cells that only included white cells. Such a maneuver, followed 10 days later by a kidney transplant, allowed indefinite renal graft survival in all animals, whereas all rats injected intrathymically with blood cell medium alone rejected the kidney graft in 8 to 11 days. Shortening the time interval between intrathymic injection of blood cells and kidney transplantation still allowed the graft to survive indefinitely. Finally, Lewis (RT1l) rats with chronic renal failure injected intrathymically with blood cells from Brown-Norway (RT1n) rats tolerated indefinitely a subsequent kidney graft from the same donor. These findings indicate that (1) the induction of immune tolerance to renal allograft induced by intrathymic injection of antigens is donor but not tissue specific; (2) the time interval between intrathymic injection of donor cells and the subsequent kidney transplantation can be reduced to 24 h; and (3) uremia does not preclude the possibility of renal allograft tolerance after the thymus procedure.

Nature and extent of glomerular injury induced by cyclosporine in heart transplant patients.

We sought to clarify whether low-dose cyclosporine (5.0 +/- 2.2 mg/kg/day) given for more than two years to prevent cardiac graft rejection induced glomerular injury and to quantify the extent of the lesions. After renal hemodynamic studies, renal biopsy specimens were obtained from 10 patients on cyclosporine and analyzed by a novel morphometric technique consisting of a tridimensional reconstruction of the glomerular tuft. Autopsy kidney specimens from three patients with no clinical history of renal disease, and from four patients who died with dilatative cardiomyopathy served as controls. The glomerular filtration rate and renal plasma flow were significantly depressed below normal values in transplant recipients given cyclosporine, averaging 35 +/- 8 and 325 +/- 94 ml/min/1.73 m2, respectively. Conventional light microscopy of specimens from controls and from patients who died with dilatative cardiomyopathy did not reveal renal structural abnormalities. By contrast kidney specimens from cyclosporine-treated patients had obliterative arteriolopathy and ischemic-type changes, with thickening and wrinkling of glomerular capillary wall. Morphometrical analysis of 28 control glomeruli and 40 glomeruli from patients with dilatative cardiomyopathy showed glomerular capillary tuft volumes (VCT) ranging between 1.2 and 2.3 microns 3 x 10(-6), whereas of 102 glomeruli from cyclosporine-treated patients 42.1% had VCT lower than 1.2 microns 3 x 10(-6) and 24.4% VCT higher than 2.3 microns 3 x 10(-6).(ABSTRACT TRUNCATED AT 250 WORDS)

Morphometrical analysis of glomerular changes induced by cyclosporine in the rat.

Functional and morphologic techniques were used to study the renal changes induced by a long-term exposure of normal rats to cyclosporine A (CsA), as well as their potential reversibility. CsA treatment for 3 months resulted in a significant (P less than 0.01) reduction of glomerular filtration rate (GFR) as compared with vehicle-treated animals. Histological examination of the kidneys showed mild glomerular damage characterized by ischemic lesions, increased mesangial matrix, and intracapillary hypercellularity in the CsA-treated group, but not in the vehicle-treated group. Proximal tubular abnormalities and limited areas of interstitial fibrosis were also present in the CsA group. A complete reconstruction of glomerular corpuscle was used to evaluate the consequence of CsA-induced renal ischemia on capillary tuft volume. The results showed that in rats administered CsA for 3 months glomerular volume distribution was shifted toward small glomeruli. Prolongation of CsA administration for 5 months did not result in a further decrease in GFR, and was associated with the appearance of a subset of glomeruli that became larger than normal. We have also investigated whether, once established, CsA-induced renal injury is reversible. In rats that were administered CsA for 3 months and then treatment discontinued for 2 months, GFR returned to pretreatment values and partial reversibility of morphologic changes was observed. Morphometric analysis showed that 2 months after withdrawal of CsA, glomerular volume distribution was almost comparable to that observed in vehicle-treated animals.(ABSTRACT TRUNCATED AT 250 WORDS)

Kidney graft survival in rats without immunosuppressants after intrathymic glomerular transplantation.

Isolated glomeruli from Brown-Norway (RT1n) rat kidney were inoculated into the thymus of 6 incompatible Lewis (RT1(1] rats pretreated for 2 days with 40 mg/kg oral cyclosporin daily and given 2.5 mg/kg subcutaneous dexamethasone at inoculation. 10 days later the left kidney from the Brown-Norway donor used to prepare glomeruli was transplanted orthotopically to the Lewis (RT1(1] rat that had received intrathymic glomeruli. Donor-specific unresponsiveness allowed the renal allograft to survive indefinitely without further immunosuppression. 6 control Lewis rats treated as above except that medium alone was injected intrathymically rejected a renal allograft within 7-9 days.