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Tolerance to rat liver allografts. IV. Acceptance depends on the quantity of donor tissue and on donor leukocytes

Liver allografts in some rat strains are often spontaneously accepted across a complete major histocompatibility barrier without the requirement for immunosuppression while other nonliver allografts are rejected. In previous studies, we have shown that spontaneous acceptance is dependent on liver passenger leukocytes. Depletion of passenger leukocytes by donor irradiation allows rejection, with DA recipients of irradiated PVG livers having a median survival time (MST) of 16 days. Here we show that, in this model, spontaneous acceptance is reconstituted by intravenous injection of donor leukocytes. Intravenous injection of 3-5x10(7) PVG liver leukocytes significantly prolonged DA survival time (MST=96 days, P=0.026), as did 5x10(7) spleen leukocytes (MST>100 days, P=0.002). Deletion of T cells from the reconstituting inoculum reduced survival time (MST=78 days, P=0.039), whereas deletion of B cells or monocytes/macrophages had no effect on survival time. In contrast, PVG hearts are regularly rejected by DA recipients, and PVG liver or spleen leukocytes, even at doses of greater than 3x10(8) cells/recipient, were unable to induce heart acceptance. To investigate the possibility that acceptance of the irradiated liver but not the heart might be due to the large mass of the liver, two kidneys and two hearts of PVG origin were transplanted to each DA recipient together with 1.5x10(8) PVG leukocytes. These organs survived for greater than 200 days, thereby showing that a large mass of donor tissue, in association with donor leukocytes, leads to acceptance of organs that are rejected if transplanted singly. It appears likely that spontaneous liver transplant tolerance is a high-dose or activation-associated immune phenomenon.

Early up-regulation of macrophages and myofibroblasts : A new marker for development of chronic renal allograft rejection

BACKGROUND Increased numbers of macrophages and myofibroblasts are observed to occur in chronic renal allograft rejection (CR). The aim of this study was to examine the expression of cellular markers for the macrophage and myofibroblast in early renal transplant biopsy specimens and correlate these findings with allograft outcome. METHODS The first postengraftment biopsy specimens from 53 patients who underwent renal transplantation between January 1993 and December 1995 were studied using immunohistochemistry with antibodies to alpha-smooth muscle actin, which identifies myofibroblasts and CD68, a marker for monocytes and macrophages. Patients were followed until December 1998 (mean follow-up 4.7+/-1.2 years). RESULTS Nine patients had progressed to CR by the time of the study, whereas 44 patients continued to have stable renal function. A marked increase in both macrophages (P=0.02) and myofibroblasts (P=0.04) was noted in the first biopsy specimen obtained after engraftment in the patients who developed CR compared with those with stable allograft function. There was a positive correlation between alpha-smooth muscle actin and collagen expression (P=0.0001). CONCLUSION Significant increases in macrophages and myofibroblasts occur in the first renal biopsy specimen in those patients who later develop CR.

Evidence that portal tract microvascular destruction precedes bile duct loss in human liver allograft rejection.

In liver allograft rejection, interlobular bile ducts are thought to be the main target of rejection. In contrast, in other organ allografts the capillary bed of the graft appears to be the primary target. To determine whether portal tract microvasculature is destroyed in liver allografts during rejection, we have identified portal tract microvasculature in 11 normal livers and 38 liver allograft biopsy specimens using monoclonal antibodies to capillary endothelium in immunohistochemical staining. El.5, CD31 and EL-4 antibodies identified portal microvascular endothelium in normal liver that had the morphology of capillaries. In allograft biopsies the number of microvascular structures per portal tract was reduced markedly in acute cellular rejection to 1.1 ±0.6 (n=25) and to 0.65±0.9 (n=15) in chronic ductopenic rejection compared with nonrejecting allografts (2.8± 0.6)(n=4) or normal liver (3.8±0.7)(n=11). To determine whether loss of microvascular structures preceded bile duct destruction in rejection, sections were double-stained to identify both microvasculature and bile ducts. The number of microvascular structures per bile duct was significantly lower in acute cellular rejection (0.5± 0.4)(n=18) or chronic rejection (0.3±0.4)(n=8) compared with normal liver (2.3±0.6)(n=7) (P<0.0001), demonstrating that components of the portal vasculature are destroyed prior to bile ducts. There was a correlation between the severity of rejection and the loss of microvascular structures per bile duct (P<0.001). In conclusion, in common with other allografted organs, the microvasculature of liver allografts appears to be an early target of rejection.

Vascular endothelial growth factor expression in human chronic renal allograft rejection.

BACKGROUND Chronic renal allograft rejection is characterized by interstitial fibrosis and vasculopathy. Vascular endothelial growth factor (VEGF) is an endothelial mitogen with increased expression in inflammation and vasculopathy. METHODS Renal tissue from 17 patients with chronic rejection was examined for VEGF protein and the presence of CD 68-positive macrophages, and compared to biopsies from patients with temporary allograft dysfunction, acute rejection, and native kidneys with thin membrane disease. RESULTS In the chronic rejection group, there was markedly increased expression of VEGF protein in the interstitium (P<0.0001). In serial sections, VEGF colocalized with the expression of CD 68-positive macrophages. Significantly more macrophages were in the tubulointerstitium in tissue with chronic rejection than in those with temporary allograft dysfunction (P<0.005). Additionally, VEGF protein expression in the glomeruli and the vascular compartment of patients with chronic rejection was increased. CONCLUSION The up-regulation of VEGF in chronic renal allograft rejection may be important in inflammation and development of fibrosis.

A short course of methylprednisolone immunosuppression inhibits both rejection and spontaneous acceptance of rat liver allografts.

BACKGROUND The effects of immunosuppressive drugs on transplant tolerance have not been extensively studied, although their effect on rejection is well established. METHODS We examined the effects of a short course of treatment with the immunosuppressive drug methylprednisolone (MP) on the survival of PVG liver allografts in Dark Agouti (DA) recipients that accepted the livers and in Lewis recipients that rejected the livers. Infiltration of liver allografts was examined by immunohistochemical staining of liver sections, and apoptosis was measured by terminal deoxynucleotide transferase-mediated dUTP nick end labeling. RESULTS A 5-day course of MP (days 0 to 4) led to rejection of four of six livers (mean survival time [MST] 99 days) in DA recipients compared with long-term survival (MST >100 days) in untreated animals. Delayed administration of MP (days 3 to 7) exacerbated rejection in DA recipients, and all eight animals rejected the graft (MST 68.5 days). Treatment of Lewis recipients with MP did not significantly prolong survival when administered from days 0 to 4 (MST 13 days), although delay of administration improved the outcome. Treatment from days 3 to 7 resulted in an MST of 21 days, whereas treatment from days 7 to 11 resulted in an MST of 41.5 days. MP treatment from day 3 to day 7 reduced T cells and interleukin 2 receptor-expressing cells but increased the numbers of apoptotic cells infiltrating both DA and Lewis strain allografts. CONCLUSIONS These results show that immunosuppression with MP inhibits both spontaneous tolerance and rejection of liver allografts in a rat model and question the efficacy of administering MP to all liver allograft recipients from the time of transplantation.

Expression of HLA antigens on renal tubular cells in culture. I: Evidence that mixed lymphocyte culture supernatants and gamma interferon increase both class I and class II HLA antigens

The altered expression of HLA antigens on tissues during rejection is of potential importance to both the initiation and effector arms of the alloimmune response. Associated with rejection episodes, renal tubular cell expression of HLA DR (class II) antigens has been observed to be markedly increased. In this study an in vitro assay using cultured renal tubular cells from normal human kidneys was developed. Monoclonal antibodies to detect HLA DR and HLA A, B, C (class I) molecules were used to identify these antigens on cultured tubular cells either by indirect immunofluorescence stains and flow cytometric analysis or by immunoperoxidase stains with cytological analysis. With these techniques normal cultured cells had little membrane or cytoplasmic HLA DR but did have membrane HLA A, B, C. Culture of renal tubular cells with either snpernatants from mixed lymphocyte cultures or purified gamma interferon induced expression of HLA DR, with maximum expression occnring between day 4 and day 6. Increased HLA A, B, C expression was also observed. This increased expression of HLA antigens was shown not to be dependent upon increased cell division of the cultured cells, and removal of gamma interferon from the cultures resulted in a decay in both HLA DR and A, B, C expression within days. HLA expression was inhibited by addition of protein synthesis inhibitor cycloheximide, but not by the addition of puromycin, mitomycin C, or actinomycin D—which suggested that tubular cells had transcribed m RNA for both HLA DR and A, B, C antigens. Expression of HLA antigens was not inhibited by cyclosporine, corticosteroids, or azathioprine. These studies demonstrate that the increased expression of HLA antigens seen in renal allografts at the time of rejection episodes can be explained by the release of lymphokines, especially gamma interferon, by infiltrating cells, and that reduced HLA DR expression of transplanted kidneys in patients treated with cyclosporine is not due to the drug directly inhibiting HLA expression by graft cells.

Identification of the cellular subpopulations infiltrating rejecting cadaver renal allografts: Preponderance of the T4 subset of T cells

In the rejection response against renal allografts, the relative importance of helper/inducer T cells mediating a delayed-type hypersensitivity response and of T cells with direct cytotoxicity has not been defined. These subpopulations were identified with commercially available monoclonal antibodies and an indirect immunoperoxidase technique in 31 renal biopsies from patients undergoing acute rejection episodes and in 9 rejected nephrectomy specimens. T lymphocytes were the predominant cell population in all biopsies and in 8 of 9 nephrectomies. The T4 helper/inducer subset was equal to, or greater than, the T8 cytotoxic/suppressor subset in 28 of the 31 biopsies and in the 8 nephrectomy specimens that had histological evidence of cellular rejection. T4 lymphocytes were found predominantly in large areas of cellular infiltrate. T8 lymphocytes had a more diffuse interstitial distribution and were a minority of the cells in the large areas of cellular infiltration. These results show that helper/inducer T lymphocytes are often more frequent than cytotoxic/suppressor cells in acute renal allograft rejection in humans and they suggest that helper/inducer T cells may play an important role in the mediation of graft destruction.

Infiltrating Foxp3(+) regulatory T cells from spontaneously tolerant kidney allografts demonstrate donor-specific tolerance.

Foxp3+ regulatory T cells (Tregs) have an essential role in immune and allograft tolerance. However, in both kidney and liver transplantation in humans, FOXP3+ Tregs have been associated with clinical rejection. Therefore, the role and function of graft infiltrating Tregs have been of great interest. In the studies outlined, we demonstrated that Foxp3+ Tregs were expanded in tolerant kidney allografts and in draining lymph nodes in the DBA/2 (H‐2d) to C57BL/6 (H‐2b) mouse spontaneous kidney allograft tolerance model. Kidney allograft tolerance was abrogated after deletion of Foxp3+ Tregs in DEpletion of REGulatory T cells (DEREG) mice. Kidney allograft infiltrating Foxp3+ Tregs (K‐Tregs) expressed elevated levels of TGF‐β, IL‐10, interferon gamma (IFN‐γ), the transcriptional repressor B lymphocyte‐induced maturation protein‐1 (Blimp‐1) and chemokine receptor 3 (Cxcr3). These K‐Tregs had the capacity to transfer dominant tolerance and demonstrate donor alloantigen‐specific tolerance to skin allografts. This study demonstrated the crucial role, potency and specificity of graft infiltrating Foxp3+ Tregs in the maintenance of spontaneously induced kidney allograft tolerance.

Postoperative administration of donor B cells induces rat kidney allograft acceptance: lack of association with Th2 cytokine expression in long-term accepted grafts.

Background. Although donor leukocytes are only thought to prolong survival when administered before transplantation, recent evidence shows that they are effective at transplantation. This study aims to identify the leukocyte subset that is most active in prolonging kidney allograft survival and examine the cytokine expression in long-term acceptance. Methods. PVG rat kidneys were transplanted to completely MHC class I and class II-mismatched DA recipients. Donor B cells or T cells, purified by negative selection, were injected i.v. at the time of transplantation. Expression of interleukin (IL)-2, IL-4, IL-10, interferon (IFN)-&ggr;, and transforming growth factor-&bgr; mRNA was measured by quantitative real-time polymerase chain reaction (PCR). Immunohistochemical analysis and terminal deoxynucleotide transferase-mediated dUTP nick-end labelling (TUNEL) staining was used to identify infiltrating cells and apoptotic cells, respectively, in sections of kidney allografts. Results. Median kidney graft survival time (MST) of B cell-treated animals (n=5) was >300 days, compared with 7 days in untreated animals (n=7) (P =0.003), whereas animals treated with the same number of T cells (n=6) had a MST of 17 days (P =0.1 vs. untreated, P =0.03 vs. B cell-treated). Examination of the long-term (>300 days) accepted grafts from B cell-treated recipients showed little evidence of kidney damage but a moderate perivascular infiltrate consisting of T and B cells. This infiltrate seemed to be quiescent because there was no detectable expression of IL-2 receptors or of apoptotic cells. It produced little or no cytokine mRNA, because expression in the long-term accepted grafts was similar to levels in normal kidneys or syngeneic transplants. There was a marked increase of cytokine mRNA early after transplantation in both leukocyte-treated and untreated grafts, with more rapid appearance of IFN-&ggr; and IL-10 in leukocyte-treated grafts. Conclusions. Donor B cells efficiently induce long-term acceptance of transplanted kidneys in a fully MHC-mismatched rat model when administered at transplantation, by a mechanism that seems to be independent of Th2 cytokine expression within the long-term accepted graft.

Time course of upregulation of fibrogenic growth factors and cellular infiltration in a rodent model of chronic renal allograft rejection.

BACKGROUND Chronic Rejection (CR) is the leading cause of renal allograft dysfunction. Upregulation of growth factors has been shown in CR but the time point at which this occurs in not known. The aim of this study was to examine the time course of upregulation of growth factors and correlate this with the macrophage and myofibroblast interstitial infiltrate. METHODS Using a rat model of CR (F344 kidney donor to Lewis recipient), infiltration by ED1 + macrophages and proliferation of alpha-smooth muscle actin (alpha-SMA) and desmin-expressing cells was examined using immunohistochemistry. In addition, expression of mRNA for interferon-gamma (IFN-gamma), transforming growth factor-beta (TGF-beta), basic-fibroblast growth factor (b-FGF) and vascular endothelial growth factor (VEGF) was studied using a semi-quantitative reverse transcriptase polymerase chain reaction (RT-PCR) technique. Native Lewis rat kidney and Lewis-Lewis isografts were used as controls. RESULTS Immunohistochemical staining of ED1 + cells showed a marked increase in the macrophage infiltrate of allografts compared to isografts at all time periods (P = 0.0002) peaking at weeks 8-12 after transplantation. Expression of alpha-SMA was also increased in allografts (P = 0.002). RT-PCR analysis showed that mRNA for TGF-beta was maximally upregulated in allografts in comparison to isografts at week 8 after engraftment (P = 0.05) and declined thereafter, although remained at elevated levels compared to controls. IFN-gamma and b-FGF gene expression was increased in allografts late in the post-transplantation period. CONCLUSION Early infiltration of macrophages and production of TGF-beta1 was followed by later upregulation of fibrogenic growth factors and myofibroblasts associated with interstitial fibrosis and organ dysfunction.