移植肾临界改变的演变及其预后

目的 探讨移植肾临床改变的演变过程及其对肾移植长期效果的影响。方法 肾移植术后常规进行肾活检。对４６例首次病理确诊为“临界改变”,临床上伴有或不伴有移植肾功能异常者进行长期随访。结果 ４６例临界改变多发生于术后３个月内（４２例,占９１．３％）。１５例临界改变伴肾功能异常者经甲泼尼龙冲击强化治疗后,１２例于治疗后１个月,血肌酐降至正常,临界改变治疗组３年移植肾存活率明显高于对照组和临床改变未治疗组。     

Transplant surgery injury recruits recipient MHC class II-positive leukocytes into the kidney

BACKGROUND: CD4 T cells, which are stimulated by the "indirect pathway" of antigen-presentation, participate in rejection. These T cells are sensitized by recipient major histocompatibility complex (MHC) class II-positive leukocytes that migrate into the transplant. Therefore, an important early step in rejection is the immigration of these recipient MHC class II-positive leukocytes into the renal transplant. The regulation of this early step is not understood. We now test the hypothesis that such leukocytes immigrate into the renal transplant in response to ischemic injury occurring during the transplant procedure. METHODS: We transplanted Brown Norway (BN) kidneys into F1 Lewis/Brown Norway (L/BN) recipients. The F1 recipients are tolerant to the parental BN antigens, and any infiltration of recipient MHC class II-positive leukocytes results from injury occurring during transplantation surgery. In addition, ischemia/reperfusion injury was also induced by temporarily occluding the native renal arteries for 30 minutes. Transplanted kidneys and native kidneys, which suffered ischemia/reperfusion injury, were studied by immunohistochemistry on days 3, 7, 14, and 28 after surgery. Staining by the new monoclonal antibody (mAb) OX62 and antibodies to MHC class II identified dendritic cells. In addition, the following monoclonal antibodies identified: gamma/delta T cells, V65; B cells, OX33; cells that may be macrophages, dendritic cells, or dendritic cell precursors, ED1 (+) and OX62 (-); and recipient class II MHC, OX3. RESULTS: After transplantation, the serum creatinine increased to 4 mg/dl and then decreased, which was consistent with reversible injury during transplantation and the absence of rejection. We found that the injury of transplantation itself resulted in the infiltration of recipient MHC class II-positive leukocytes into the transplanted kidney. This infiltrate peaked at days 7 to 14 after surgery. The inflammation was peritubular and patchy and involved cortex and outer medulla. Double staining for OX62 and OX3 identified some of the infiltrating leukocytes as dendritic cells. Other recipient leukocytes were MHC class II positive, ED1 positive, and OX62 negative. We also found that MHC class II leukocytes, including dendritic cells, infiltrated native kidneys injured by ischemia/reperfusion injury. CONCLUSION: To our knowledge, this is the first demonstration that injury to the kidney during transplantation recruits recipient MHC class II-positive leukocytes into the kidney. Some of these leukocytes are dendritic cells.     

Macrophages act as effectors of tissue damage in acute renal allograft rejection

BACKGROUND: Macrophages constitute 38% to 60% of infiltrating cells during acute renal allograft rejection. Their contribution to tissue damage during acute rejection was examined by depleting macrophages in a rat model. METHODS: Lewis rats underwent bilateral nephrectomy and then received a Dark Agouti renal allograft and liposomal-clodronate, control phosphate-buffered saline liposomes, or saline intravenously (n=7 per group) on days 1 and 3 postsurgery. Grafts were harvested on day 5. RESULTS: Liposomal-clodronate treatment resulted in a 70% reduction in blood ED1+ monocytes and 60% reduction in intragraft ED1+ macrophages (both P<0.01). Half of all remaining interstitial ED1+ cells were undergoing apoptosis (terminal deoxynucleotide transferase-mediated dUTP nick-end labeling+/ED1+), and thus functional depletion of more than 75% of macrophages was achieved. Histologic and functional parameters of acute rejection were attenuated: interstitial infiltrate, tubulitis, and glomerulitis (P<0.01); tubular cell apoptosis (P<0.001); tubular cell proliferation (P<0.001); and serum creatinine (P<0.01). Production of inducible nitric oxide synthase by infiltrating cells and urinary nitric oxide excretion was reduced by 90% (P<0.001). In contrast, no reduction in the number of other leukocytes was seen (CD3+, CD4+, CD8+, and natural killer cells). Activation of lymphocytes (CD25+) and production of lymphocyte effector molecules (granzyme B) were unaltered. CONCLUSION: This study demonstrates that macrophages contribute to tissue damage during acute rejection.     

Magnetic resonance imaging detection of rat renal transplant rejection by monitoring macrophage infiltration

BACKGROUND: A rat renal transplantation model was studied by noninvasive magnetic resonance imaging (MRI) with an infusion of ultrasmall superparamagnetic iron oxide (USPIO) particles to test whether the accumulation of immune cells, such as macrophages, could be detected in vivo while the kidney transplant was being rejected. METHODS: Major histocompatibility disparate DA to BN male rat renal transplantation recipients were infused with USPIO particles, with magnetic resonance (MR) images acquired before, immediately after, and one day following infusion. RESULTS: When the USPIO infusion was on the fourth day post-transplantation, some rejecting allografts showed a decrease of MR signal intensity one day later. Isografts and allografts with triple immunosuppressant treatment had no MR signal reduction. Immunohistologic staining for ED1+ macrophages and CD4+ and CD8+ T cells in allogeneic transplanted kidneys indicated the accumulation of these immune cells as acute rejection occurred. Morphological studies by electron microscopy confirmed the existence of iron inside the lysosomes of macrophages of rejecting kidneys, while Prussian blue staining detected the presence of iron plaques in macrophages. Isografts and allografts with a triple immunosuppressant treatment exhibited smaller MR signal reductions with minimal histologic changes. CONCLUSIONS: The concurrence of MR signal reduction following USPIO infusion with pathological manifestation in a rat renal allograft model suggests the possibility that renal transplantation status may be assessed by MRI using USPIO particles as markers for the accumulation of immune cells, such as macrophages.     

Altered intragraft immune responses and improved renal function in MHC class II-deficient mouse kidney allografts

BACKGROUND: During renal allograft rejection, expression of MHC class II antigens is up-regulated on the parenchymal cells of the kidney. This up-regulation of MHC class II proteins may stimulate the intragraft alloimmune response by promoting their recognition by recipient CD4+ T cells. In previous studies, absence of donor MHC class II antigens did not affect skin graft survival, but resulted in prolonged survival of cardiac allografts. METHODS: To further explore the role of MHC class II antigens in kidney graft rejection, we performed vascularized kidney transplants using donor kidneys from A(beta)b-deficient mice that lack MHC class II expression. RESULTS: At 4 weeks after transplant, GFR was substantially depressed in control allografts (2.18+/-0.46 ml/min/kg) compared to nonrejecting isografts (7.98+/-1.62 ml/min/kg; P<0.01), but significantly higher in class II- allografts (4.38+/-0.60 ml/min/kg; P<0.05). Despite the improvement in renal function, class II- allograft demonstrated histologic features of acute rejection, not unlike control allografts. However, morphometric analysis at 1 week after transplantation demonstrated significantly fewer CD4+ T cells infiltrating class II- allografts (12.8+/-1.2 cells/mm2) compared to controls (25.5+/-2.6 cells/mm2; P=0.0007). Finally, the intragraft profile of cytokines was altered in class II- allografts, with significantly reduced expression of Th2 cytokine mRNA compared to controls. CONCLUSIONS: These results support a role of MHC class II antigens in the kidney regulating immune cells within the graft. Further, effector pathways triggered by class II antigens promote renal injury during rejection.     

Studies on the participation of different T cell subsets in rat liver allograft rejection

In this study, we investigated which subsets of rat T cells (CD8 + vs. CD4 + ) are involved in the rejection of liver allografts by the in vivo administration of monoclonal antibody (OX-8 or OX-38, and W3/25 MAb) into thymectomized recipient Lewis (RTI¹) rats prior to DA (RTI^a) liver transplantation. We also compared the results of allograft survival of liver and heart transplants under the same experimental conditions. In order to deplete either CD8 + T cells or CD4 + T cells from recipient animals, 0.4 ml of OX-8 (ascitic form) or a 0.8 ml cocktail of MAb W3/25 and OX-38 (0.4 ml each) was injected into thymectomized recipient rats, respectively. Untreated Lewis rats consistently rejected donor DA liver grafts between 9 and 11 days (n = 7, 9.8 days ± 1.1 days). In contrast, anti-CD8 MAb pretreatment extended the survival times of DA liver grafts for up to 40 days (n = 5, 26.8 days ± 8.4 days). Furthermore, survival of DA liver grafts was significantly prolonged in Lewis rats that had been pretreated with anti-CD4 MAb (n = 7,35.6 days ± 17.9 days). Two out of seven recipient animals survived for more than 60 days. For heart transplantation, untreated Lewis rats rejected DA heart grafts between 6 and 8 days after operation (n = 6, 6.5 days ± 1.2 days). Anti-CD4 MAb treatment prolonged heart graft survival for more than 60 days in all cases (n = 3, > 60 days). However, there was virtually no effect of anti-CD8 MAb treatment on heart graft survival (n = 4, 7.0 days ± 0.9 days). These results suggested that when whole MHC disparity prevailed between donor and recipient, both subsets of T cells were required for the rejection of liver allografts and that class II reactive T cells predominantly mediated liver graft rejection. Furthermore, CD8 + T cells played a differential role in the rejection of rat liver and heart allograft.     

Transplantation of a single kidney per se does not lead to late graft dysfunction

In unraveling the pathogenesis of chronic transplant dysfunction (CTD), non-alloantigen specific factors, as ischemia/reperfusion and renal mass have been suggested to play a role in the process. The aim of the present study was to investigate the effect of the transplantation procedure per se on the development of CTD in a syngeneic kidney transplant model in the rat. Kidney transplantation was performed with the BN rat as donor and recipient, the recipient kidneys having been removed. Unilaterally nephrectomized (UNx) and native BN rats served as controls. Renal function was determined monthly (proteinuria and glomerular filtration rate/100 g body weight; GFR). The follow-up period was until 52 weeks post-transplantation. Histomorphological analysis of CTD according to the BANFF criteria was carried out. Immunohistochemical staining was performed to identify infiltrating cells (CD4, CD8, and ED1) and the expression of MHC class II and ICAM-1. Isografts had a minor, constant proteinuria during follow-up, which did not differ from that of UNx: 27 +/- 10 vs. 29 +/- 2 mg/24 h at week 52. Unilateral nephrectomy led to a significant reduction of the GFR, which was about 80% of that of native rats. The GFR of isografts did not differ from that of UNx rats. Histomorphology of renal isografts was comparable to UNx and native kidneys; some glomerulopathy and tubular atrophy leading to a total BANFF-score of 2.6 +/- 0.5. In native BN kidneys, few CD4+ cells and ED-1+macrophages (mphi) were found; MHC class II was constitutively expressed on the proximal tubules and ICAM-1 on the glomeruli and peritubular capillaries. UNx-kidneys showed a similar pattern. Isografts had significantly more CD4+ cells and Mphi, mainly localized in the glomeruli, and a more intense ICAM-1 expression in the glomeruli and interstitium. Transplantation of one kidney in itself does not lead to CTD.     

Stimulation of CD4+ T lymphocytes by allogeneic MHC peptides presented on autologous antigen-presenting cells. Evidence of the indirect pathway of allorecognition in some strain combinations.

A preliminary analysis of the alloantibody response to free, unconjugated class I and class II MHC peptides in several rat and mouse strains was performed, to screen for an effective interaction between the allogeneic MHC peptides and recipient MHC molecules. The PVG rat strain was noted to produce very strong, MHC-restricted, primary and secondary responses to a synthetic peptide derived from the alpha helical region of the alpha 2 domain of an RT1.C/E class I MHC molecule of the DA strain. In vitro proliferation studies demonstrated that CD4+ but not CD8+ T cells of the PVG strain responded in a recipient APC-dependent manner to the peptide, whereas the BN strain (which showed no antibody response to this peptide) gave no T cell proliferation. Immunization of PVG rats with the peptide did not influence the rejection of DA skin allografts. The relevance of these studies to the possible mechanisms of allograft rejection by an indirect pathway are discussed.     

Cold ischemia augments allogeneic-mediated injury in rat kidney allografts

BACKGROUND: Some clinical studies demonstrate that kidney grafts with prolonged cold ischemia experience early acute rejection more often than those with minimal ischemia. The mechanism, however, is putative. Therefore, the aim of this study was to unravel the impact of ischemia on the immune response in rat kidney allografts compared with that in isografts. METHODS: To induce ischemic injury, donor kidneys were preserved for 24 hours in 4 degrees C University of Wisconsin solution before transplantation. No immunosuppression was administered. The histomorphology according to the BANFF criteria for acute rejection and infiltrating cells were assessed at days 1, 2, 3, 4, 6, and 8 post-transplantation. RESULTS: In allografts, exposure of the kidney to ischemia led to a significantly earlier onset of interstitial cell infiltration and tubulitis compared with nonischemic allografts. The BANFF score of interstitial cell infiltration was 1 +/- 0 vs. 0.25 +/- 0.29 at day 3 and 2 +/- 0 vs. 1.25 +/- 0.25 at day 4. In contrast, in isografts, the effect of ischemia on the histology was not significant. From day 6, the histologic differences between ischemic and nonischemic grafts disappeared. Ischemia led to a more intense expression of P-selectin (day 1), intercellular adhesion molecule-1 (ICAM-1; day 2), and major histocompatibility complex (MHC) class II on endothelium and proximal tubular cells (day 2) in both allografts and isografts. Concurrently with the up-regulated ICAM-1 and MHC expression, significantly more CD4(+) cells and macrophages infiltrated the ischemic allografts at days 2 and 3 and the ischemic isografts at day 4. Importantly, the influx of these cells after ischemia was significantly greater in allografts than in isografts. CONCLUSIONS: Cold ischemia augments allogeneic-mediated cell infiltration in rat kidney allografts. The earlier onset of acute rejection in 24-hour cold preserved allografts may be prevented by better preservation or treatment using tailored immunosuppression.     

Islet Allograft Rejection in Rats: A Time Course Study Characterizing Adhesion Molecule Expression,MHC Expression,and Infiltrate Immunophenotypes

Wistar Furth (RT1^u) islets transplanted under the renal capsules of streptozotocin-diabetic Lewis (RT1^l) rats reject after 5–6 days of normoglycemia. Hand-picked WF islets (1500–2000) were transplanted under the kidney capsules of diabetic Lew or WF rats. Rats bearing iso- or allografts were killed on posttransplant days 2, 4, and 6. Serial frozen sections of grafts and controls were stained by immunoperoxidase for rat MAC-1, class II MHC, CD2, CD4, CD8, B-cells, VLA-4, LFA-1, L-selectin, ICAM-1, and VCAM-1. Infiltrating cells, parenchymal cells, and endothelial cells in five distinct compartments (i.e., peritoneal reflection, subcapsular perivascular space, islet grafts, graft–kidney interface, and kidney) were evaluated for expression of the various markers at each interval. Significant infiltrates arrived in three distinct waves in both iso- and allografts. First, macrophages blanketed the peritoneal capsular reflection and infiltrated by day 2. Second, the first wave of lymphocytes arrived in the edematous subcapsular soft tissue via capsular vessels by day 2 (allo > iso). Third, the second wave of lymphocytes arrived from the renal parenchyma to form a dense band at the graft–kidney interface and around grafts by days 4 and 6 (allo >>> iso); CD4+ cells vastly outnumbered CD8+ cells, with CD4+ cells being mobilized first and from interstitial vessels throughout the entire kidney. CD8+ cells emigrated only from renal interstitial vessels adjacent to the graft. Large numbers of L-selectin+, VLA-4+, and LFA-1+ cells were seen in the infiltrates with the most intensely staining cells being intravascular. B-cells composed a very small proportion of infiltrating cells in both allo- and isografts. Endothelial staining for ICAM-1 and VCAM-1 was prominent throughout. Both class II MHC and ICAM-1 expression were induced on renal tubular epithelial cells, but neither was found on islet parenchymal cells. In conclusion, this study shows that islet allograft rejection is more complex than previously realized.     

Late graft dysfunction after prolonged cold ischemia of the donor kidney: inhibition by cyclosporine.

BACKGROUND: The present study was devised to elucidate the influence of prolonged cold ischemia on the development of chronic transplant dysfunction (CTD) in kidney isografts (Brown Norway-->Brown Norway; BN-->BN) and in kidney allografts (BN-->Wistar Agouti/ Rij [WAG]) under temporary cyclosporine (CsA) therapy. METHODS: To induce ischemic injury, BN donor kidneys were preserved for 24 hr in 4 degrees C University of Wisconsin solution before transplantation. Renal function (proteinuria), histomorphology according to the BANFF criteria for CTD, and infiltrating cells were assessed. Grafts were examined both early at days 2, 3, 6, and 10, and late at week 26 (allografts) or at week 52 (isografts). RESULTS: Nonischemic isografts preserved a normal function and morphology. Ischemic isografts developed a progressive proteinuria over time and demonstrated significantly more glomerulopathy with macrophage (Me) infiltration and intimal hyperplasia than nonischemic controls at week 52. During the initial 10 days, there was an increased infiltration of MHC class II+ cells, predominantly CD4+ cells and Mphi, coinciding with up-regulated intercellular adhesion molecule-1 expression. CsA treatment in ischemic isografts inhibited infiltration of MHC II+ cells in the early stage, which was accompanied by significantly less renal damage at week 52 compared with untreated controls (proteinuria: 59+/-8 vs. 134+/-19 mg/24 hr; BANFF score: 2.8+/-0.4 vs. 4.3+/-1.0). Under CsA therapy, 24-hr cold ischemia of the allograft affected neither the onset or progress of proteinuria, nor the histomorphology (BANFF score: 7.8+/-2.4 vs. 7.3+/-1.9). In both ischemic and nonischemic allografts, intercellular adhesion molecule-1 expression and mononuclear cell infiltration (CD4, CD8, Mphi was abundantly present during the first 10 days and function deteriorated rapidly. CONCLUSIONS: Prolonged cold ischemia plays a role in the induction of CTD, but its deleterious effect can be successfully inhibited by CsA. Therefore, the alloantigeneic stimulus is the overriding component in the multifactorial pathogenesis of CTD.     

Macrophage-derived interleukin-18 in experimental renal allograft rejection.

BACKGROUND: Interleukin 18 (IL-18) is primarily a macrophage-derived, pro-inflammatory cytokine. As macrophages can act as effector cells in acute rejection, we examined the role of IL-18 in a rat model of acute renal allograft rejection. METHODS: Life-sustaining orthotopic DA to Lewis allograft and Lewis-Lewis isograft kidney transplants were performed. In the same model, macrophage-depleted animals, achieved with liposomal-clodronate therapy, were also studied. Macrophage (ED1+) accumulation and IL-18 expression was assessed by immunohistochemistry. CD11b+ cells (macrophages) were isolated from kidney and spleen by micro beads. Real-time PCR was used to assess IL-18 and INF-gamma mRNA expression in tissue and cell isolates. RESULTS: Allografts, but not isografts, developed severe tubulo-interstitial damage and increased serum creatinine by day 5 (P<0.001). Immunohistochemistry revealed a greater ED1+ cell accumulation in day 5 allografts compared with isografts (P<0.001). IL-18 mRNA expression was increased 3-fold in allografts compared to isografts (P<0.001). Accordingly, IL-18 protein was increased in allografts (P<0.001), and was predominantly expressed by ED1+ macrophages. CD11b+ macrophages isolated from allografts had a 6-fold upregulation of IL-18 mRNA expression compared to isograft macrophages (P<0.001). Macrophage depletion resulted in a marked attenuation of allograft rejection, ED1+ and IL-18+ cells were significantly reduced (P<0.05) as was IL-18 mRNA expression (29.28+/-2.85 vs 62.48+/-3.05, P<0.001). INF-gamma mRNA expression (P<0.01) and iNOS (P<0.001) production were also significantly reduced in the macrophage-depleted animals. CONCLUSION: This study demonstrates that IL-18 is significantly increased during acute rejection and is principally produced by intra-graft macrophages. We hypothesize that IL-18 upregulation may be an important macrophage effector mechanism during the acute rejection process.     

Superagonistic CD28 Antibody Induces Donor‐Specific Tolerance in Rat Renal Allografts

The ultimate goal of organ transplantation is to establish graft tolerance where CD4+CD25+FOXP3+ regulatory T (Treg) cells play an important role. We examined whether a superagonistic monoclonal antibody specific for CD28 (CD28 SA), which expands Treg cells in vivo, would prevent acute rejection and induce tolerance using our established rat acute renal allograft model (Wistar to Lewis). In the untreated or mouse IgG‐treated recipients, graft function significantly deteriorated with marked destruction of renal tissue, and all rats died by 13 days with severe azotemia. In contrast, 90% of recipients treated with CD28 SA survived over 100 days, and 70% survived with well‐preserved graft function until graft recovery at 180 days. Analysis by flow cytometry and immunohistochemistry demonstrated that CD28 SA induced marked infiltration of FOXP3+ Treg cells into the allografts. Furthermore, these long‐surviving recipients showed donor‐specific tolerance, accepting secondary (donor‐matched) Wistar cardiac allografts, but acutely rejecting third‐party BN allografts. We further demonstrated that adoptive transfer of CD4+CD25+ Treg cells, purified from CD28 SA‐treated Lewis rats, significantly prolonged allograft survival and succeeded in inducing donor‐specific tolerance. In conclusion, CD28 SA treatment successfully induces donor‐specific tolerance with the involvement of Treg cells, and thus the therapeutic value of this approach warrants further investigation and preclinical studies.     

转染IKK2dn的受者树突状细胞回输延长同种异体肾移植大鼠的存活时间

目的 探讨IKK2dn基因转染并负载供者抗原的受者未成熟树突状细胞(imDC)延长同种异体肾移植大鼠的存活时间及其机制.方法 获取和培养Lewis大鼠骨髓源性DC,转染IKK2dn并负载BN大鼠可溶性抗原进行体外实验,检测CD86和主要组织相容性复合物(MHC)Ⅱ的表达及DC刺激T淋巴细胞增殖的能力.肾移植受者为Lewis大鼠,用随即数字表法分DC组、空转染组、转染组、对照组,术前7d分别输注1×10~7个D、Adv-0-DC、负载BN抗原的Adv-IKK2dn-DC和等量生理盐水,供者均为BN大鼠.另设第三方供者组,术前处理同转染组,供者为Wistar大鼠.移植后检测各组受者T淋巴细胞的增殖能力及血清白细胞介素2(IL-2)和γ干扰素(IFN-γ)的表达水平,观察各组大鼠的存活时间和发生排斥反应情况.结果 DC的体外实验结果显示:与转染IKK2dn前相比,转染后DC仍能低水平表达CD86和MHC Ⅱ,负载供者抗原后CD86和MHCⅡ表达均增加,而转染IKK2dn后再负载供者抗原,CD86和MHC Ⅱ的表达未发生明显变化;DC负载供者抗原后,刺激T淋巴细胞增殖的能力明显增强(P<0.05),而转染IKK2dn并负载供者抗原后不能有效刺激T淋巴细胞增殖.肾移植术后的检测结果显示:转染组T淋巴细胞的增殖能力明显低于其他4组(P<0.05或P相似文献   

Acute renal allograft rejection with severe tubulitis (Banff 1997 grade IB)

Recent studies have correlated renal allograft function with individual histologic lesions defined in the Banff schema of kidney transplantation pathology. The clinical significance of severe tubulitis (Banff 97 grade t3) has not been specifically examined. We compared the clinical course and response to antirejection therapy in 36 patients with t3 tubulitis, and 137 patients with milder grades of tubulitis and varying grades of intimal arteritis. Rejection associated with severe tubulitis (grade t3) was associated with graft outcome that was worse than mild to moderate tubulitis (grades t1 or t2) and approached that seen in grade v1 intimal arteritis. Rejection characterized by grade v2 or v3 intimal arteritis had worse prognosis than v1 intimal arteritis and all grades of tubulitis without coexisting intimal arteritis. These observations validate the Banff 97 recommendation that the severity of both tubulitis and intimal arteritis needs to be graded in renal allograft biopsies. In addition, grade t3 tubulitis is identified as a lesion which should be a cause for clinical concern.     

Immunohistological observations of rat fetal pancreas allografts transplanted into unmodified and cyclosporine-treated recipients

Administration of CsA (15 mg/kg/day) prolonged the survival of DA (RT1a) rat fetal pancreas transplanted to the renal subcapular site of both PVG (RT1c) and Lewis (RT1(1] recipients. Sections of fetal pancreas examined 40 days after transplantation into allogeneic CsA-treated recipients showed growth and development of the fetal pancreas tissue, and the presence of numerous insulin-containing islets. CsA treatment prevented the induction of MHC antigen within allografts. Whereas at day 4, both rejecting and CsA treated grafts showed donor class I MHC expression on duct epithelium and islet cells, only rejecting grafts displayed class I MHC induction on acinar cells. Rejecting grafts showed strong induction of class II MHC antigen expression on duct epithelium from day 4 onward but this was completely prevented by CsA treatment. Islet cells in both rejecting and CsA treated allografts remained class II-negative throughout. CsA also resulted in a reduction in the day 6 cellular infiltrate of allografts (median area leukocyte infiltrate reduced from 43% to 10%) with a marked decrease in the number of MRC OX-8-positive cells. These results show a favorable effect of CsA on rat fetal pancreas allografts with a reduction in MHC antigen expression within the graft and prolonged survival of insulin-rich endocrine tissue.     

Late airway changes caused by chronic rejection in rat lung allografts.

Airway disease after lung or heart-lung transplantation is one of late major complications, affecting the prognosis of the transplants. Little is known about the causes of airway changes. We performed rat lung transplantation and investigated the late airway changes of the long-term surviving lung grafts: allografts, BN to Lewis; isografts, BN to BN rat. All recipients were treated with CsA. We found airway changes, i.e., mucosal ulceration, granulation, submucosal fibrosis, which was located in the large airways, in four of five allografted lungs. The lung isografts showed no pathological abnormalities. Immunopathological studies disclosed the localized expression of MHC class II antigens on the bronchial epithelium of the large airways where recipient type dendritic cells accumulated in the submucosa and CD4 positive predominant lymphocytes infiltrated. These findings support the idea that the late airway changes in lung transplants are caused by immunologically mediated chronic rejection.     

Chronic renal allograft rejection. Selective involvement of the glomerular endothelium in humoral immune reactivity and intravascular coagulation

To study immune reactive and thrombotic mechanisms involved in chronic renal allograft rejection, Lewis rat kidneys were transplanted into bilaterally nephrectomized Brown Norway recipients tolerant of LEW erythrocyte antigens. Such BN rats fail to produce anti class I MHC alloantibodies after insertion of a LEW kidney. The LEW renal allografts experience a transient rejection episode without proteinuria followed by the development of chronic rejection, clinically characterized by glomerular proteinuria in the presence of stable renal function. Immunohistological studies of such chronically rejected LEW renal allografts showed the occurrence of glomerular and interstitial infiltration of predominantly monocytes and T cells. CD4-positive T cells dominated over CD8-positive T cells in the chronically rejected LEW renal grafts. IgG deposition was found deposited throughout the renal vasculature--this in contrast to IgM, which was observed only in the glomerular vasculature. Glomerular antibodies were not directed to endothelial class II MHC antigens, and showed only weak complement fixation as demonstrated by C3 staining. Selective glomerular IgM deposition was associated with vascular (platelet-containing) thrombi, and focal and segmental fibrinoid necrosis. In contrast, acutely rejected LEW renal grafts in unmodified BN recipients showed IgM deposition as well as thrombus formation throughout the entire renal vasculature. The results demonstrate that the antibody response to endothelial--and, in particular, glomerular endothelial non-MHC antigens--may bring about chronic vascular renal allograft rejection. How the formation of glomerular thrombotic lesions may be assisted by endothelial reactivity to cytokines from local immune reactive cells is discussed.     

"Infectious tolerance" develops after the spontaneous acceptance of Lewis-to-Dark Agouti rat liver transplants

BACKGROUND: After monoclonal antibody or donor-specific transfusion treatment, infectious tolerance to rat or mouse heart or skin transplants can be passed on to naive recipients by adoptive transfer of tolerant lymphocytes. We examined whether similar regulatory cells develop after the spontaneous acceptance of Lewis-to-Dark Agouti (DA) rat liver transplants without immunomodulating agents. METHODS: After Lewis-to-DA rat liver transplantation, 100 x 10(6) splenocytes were harvested and adoptively transferred into a 450 rad-irradiated naive DA rat 24 hours before Lewis heart transplantation. Adoptive transfer of CD4+ or CD8+ T cells was also examined. In some experiments, splenocytes from recipients with long-term accepted Lewis hearts induced by adoptive transfer were serially transferred to multiple generations of recipients before Lewis rat heart transplantation. In vitro mixed lymphocyte culture response and cytotoxic T lymphocyte generation were measured. RESULTS: When splenocytes from a DA rat recipient >60 days after Lewis rat liver acceptance were transferred into irradiated DA rat recipients, all Lewis rat hearts were accepted, whereas third-party Brown-Norway rat hearts were rejected. However, splenocytes from DA rat recipients 30 days after liver transplantation did not prolong Lewis rat heart survival. Adoptive transfer of 40 x 10(6) CD4+, 10 x 10(6) CD4+ or 10 x 10(6) CD8+ cells from a DA rat bearing Lewis rat liver >60 days resulted in acceptance of 88%, 80%, or 57% acceptance of Lewis rat hearts, respectively. Serial second and third adoptive transfer of long-term survivor splenocytes resulted in the acceptance of all Lewis rat hearts. In mixed lymphocyte culture, splenocytes from a naive DA rat and a DA rat accepting a Lewis rat liver transplant for >60 days showed similar proliferative responses to both Lewis and Brown-Norway rat stimulators. An equivalent level of indirect cytotoxic T lymphocyte activity was exhibited by splenocytes from both a naive DA and a DA rat accepting a Lewis rat liver transplant for >60 days. CONCLUSIONS: Regulatory cells developing after the spontaneous acceptance of a Lewis to DA liver transplant can serially adoptively transfer the acceptance of a Lewis rat cardiac graft in spite of the presence of in vitro antidonor reactivity. Both CD4+ and CD8+ populations have this regulatory activity, although the CD4+ population plays the dominant role.     

The macrophage is the predominant inflammatory cell in renal allograft intimal arteritis

BACKGROUND: Intimal arteritis defines acute vascular rejection in the Banff 97 schema. The arteritis is generally considered to be lymphocytic, although the cellular infiltrate in tubulitis is composed of both lymphocytes and macrophages. This study aimed to determine the extent of macrophage involvement in renal allograft intimal arteritis. METHODS: We obtained archival biopsy material from 57 biopsies of 34 renal allografts transplanted between March 1999 and February 2002. All biopsies were diagnostic. We examined clinical and histological parameters. Biopsies were graded using the Banff 97 criteria. We identified macrophages and memory T cells using immunohistochemistry for CD68 and CD45RO, respectively. RESULTS: In all, 24 biopsies showed borderline rejection, and 12 biopsies showed grade IA, 13 showed grade IB, and 8 showed grade II or III acute rejection. Both lymphocytes and macrophages were present in the tubulointerstitium in all grades of acute rejection. We identified intimal arteritis in 10 vessels in eight biopsies. The infiltrating cells invariably included CD68-positive cells; however, we saw intimal CD45RO-positive cells in only seven vessels. There were significantly more CD68-positive cells than CD45RO-positive cells (mean, 9.5 vs. 4.4 positive cells per vessel, P< 0.01). CD45RO cells were never the predominant component of the intimal inflammatory infiltrate. CONCLUSIONS: In the intimal arteritis of biopsies graded as Banff II or III acute rejection, the infiltrating cells were predominantly macrophages. T cells were in the minority. This finding challenges the assumption that the mononuclear cells in intimal arteritis are predominantly lymphocytic.