Cellular basis of allograft rejection in vivo. V. Examination of the mechanisms responsible for the differing efficacy of monoclonal antibody to CD4+ T cell subsets in low- and high-responder rat strains

MRC OX35, an anti-CD4 mAb, was used to treat high responder Wistar Furth (W/F) (RT1u) and low responder DA (RT1a) rats which had been grafted with directly vascularized hearts from PVG (RT1c) rats across a full MHC plus non-MHC incompatibility. Four doses of mAb at 7 mg/kg given in the first 2 wk postgrafting induced indefinite graft survival (greater than 150 days) in DA hosts, but only delayed rejection to 18 to 42 days in W/F as compared to rejection times of 6 to 8 days in untreated rats. The extension of MRC OX35 treatment to 6 wk in W/F rats induced indefinite graft survival in three of six rats. During treatment MRC OX35 therapy only partially depleted CD4+ cells, and all circulating CD4+ cells were coated with MRC OX35. The capacity of naive CD4+ and CD8+ cells from W/F and DA to be activated to PVG alloantigen was compared both in vitro in an MLC assay and in vivo by an adoptive transfer assay of their capacity to restore rejection of PVG heart grafts in irradiated syngeneic hosts. CD4+ cells from both W/F and DA proliferated in MLC and restored graft rejection. W/F CD8+ cells both proliferated in MLC and restored rejection, but DA CD8+ cells neither proliferated nor reconstituted rejection. Examination of lymphocytes from MRC OX35 treated hosts with long-surviving grafts showed that they were neither depleted of CD4+ T cells nor did they lack the capacity to proliferate to PVG Ag in MLC, this response being similar to that to third-party Ag or by naive lymphocytes. Compared to first-set rejection, PVG skin graft rejection was delayed 2 to 3 days in W/F and 10 to 12 days in DA rats with long-surviving grafts after MRC OX35 therapy, whereas they rejected third-party skin grafts in first-set tempo. These studies show that differences in graft survival in anti-CD4 treated low and high responder strains may be due to the inherent capacity of CD8+ cells to be activated to effect rejection independent of CD4+ cells in W/F but not in DA. In those hosts that accept grafts, there is no evidence of clonal deletion, but there appears to be a form of unresponsiveness akin to that induced in adult rats by other immunosuppressive therapies that protects the graft from rejection.     

Efficiency of intrathymic tolerance induction in various inbred rat strains: relationship with TH1/TH2 status of the recipient?

The simultaneous transplantation and intrathymic tolerance induction (STITTI) protocol induces a longlasting state of functional tolerance in over 90% of AO (RT1^u) recipients transplanted with a fully MHC-incompatible PVG (RT1^c) cardiac allograft. Similar results are obtained when using LEWIS (RT1¹) rats as recipients of either PVG or DA (RT1^avl) grafts. However, when STITTI is performed on PVG and BN (RT1ⁿ) as recipient animals receiving spleen cells intrathymically and a cardiac allograft from respectively AO and PVG rats, this procedure results in significantly shorter graft survival (MST PVG → BN 25 ± 9 days; AO → PVG 31 ± 8 days) as compared to the combinations using AO (MST PVG → AO > 236 ± 28 days) and LEWIS (MST PVG → LEW > 366 ± 51 days; DA → LEW > 123 ± 33 days) rats as recipients. Since both PVG and BN rats are relatively deficient in their ability to produce IFNγ and intrathymic IFNγ responses are very dominant upon intrathymic injection of alloantigens, it is argued that the inability to effectively induce a longlasting state of functional tolerance in BN and PVG rats using the STITTI protocol may be related to their decreased IFNγ-production potential.     

Mechanisms maintaining antibody-induced enhancement of allografts. II. Mediation of specific suppression by short lived CD4+ T cells

In DA rats grafted with PVG hearts, the injection of 1 ml of Wistar-Furth x DA)F1 anti-PVG serum on the day of grafting prevents rejection and induces a state of specific unresponsiveness. An adoptive transfer assay was used to test the capacity of T cell subsets, taken from rats given enhancing serum, to either restore rejection or to transfer unresponsiveness to syngeneic hosts irradiated with 9 Gy and grafted with donor (PVG) or third party (Wistar-Furth) hearts. W3/25+ (CD4+) cells from these animals retained some capacity to restore rejection until 50 days posttransplant, after which they invariably failed to restore PVG graft rejection but retained the capacity to effect Wistar-Furth rejection. At this time CD4+ cells were also capable of inhibiting naive but not specifically sensitized CD4+ cells capacity to restore PVG graft rejection in irradiated hosts. The development of CD4+ suppressor cells was concurrent with the appearance of clinically evident unresponsiveness in the host. MRC Ox8+ (CD8+) cells from enhanced rats when mixed with naive CD4+ cells delayed rejection in adoptive recipients but did not reestablish unresponsiveness. Paradoxically, the CD4+ cells that transfer unresponsiveness to the adoptive host proliferate such as normal cells in MLC to both donor and third party alloantigen. Unfractionated cells, CD4+ or CD8+ cells did not proliferate to relevant idiotype in vitro. The CD4+ cells after 3 days in culture, with either alloantigen or idiotype-bearing stimulator cells, lost their capacity to suppress in the adoptive transfer assay. The maintenance of specific unresponsiveness was thus shown to be due to a CD4+ suppressor T cell whose function was lost in culture, and therefore could not be detected in MLC or idiotype assays.     

Functional and morphological study of cultured pancreatic islets treated with cyclosporine

Cyclosporine A (CsA), a potent immunosuppressive drug, has been found to induce glucose intolerance through its toxic effect on the endocrine pancreas. It is not exactly known whether CsA has a direct effect on the endocrine pancreas or induces its effect indirectly. The present study was therefore undertaken to examine the function and morphology of isolated pancreatic islets when they are directly exposed in vitro to CsA. Pancreatic islets were isolated from adult male Lewis rats using collagenase ductal perfusion technique. The islets were separated with the discontinuous Ficoll gradient technique and further purified by hand picking of the non-islet tissue. The islets were cultured in RPMI-1640, pH 7.4 and maintained at 37 degrees C in a humid atmosphere of 5% (v/v) carbon dioxide in air. Cyclosporine was added to the culture medium to give a final concentration of 1 microg/ml (therapeutic dose), 5 microg/ml (toxic dose), or vehicle (control). Islets were harvested at 1, 4 and 10 days of culture and processed for functional or histological study. The functional study of the islets cultured with 1 microg/ml CsA showed insulin and C-peptide contents similar to those of the control islets. The islets cultured with 5 microg/ml CsA showed a marked decrease in insulin and C-peptide contents. Glucose-dependent insulin release was variable. C-peptide release was lower than that of the control following both the therapeutic and toxic doses of CsA. Phase contrast microscopy showed that the islets cultured with 1 microg/ml CsA were mostly normal looking with a well-defined regular periphery; a few islets had ill-defined or irregular peripheries. The islets cultured with 5 microg/ml CsA had ill-defined irregular peripheries at 1 day, and were dense and forming clumps at 4 and 10 days following culture. There was a decrease in the islet number following the therapeutic dose; the decrease was more following the toxic dose of CsA. The islet diameters increased after the therapeutic dose, but slightly decreased following the toxic dose of CsA. Islets showed a weakly positive immunoperoxidase reaction for insulin that was weaker following the toxic dose of CsA. It is concluded that CsA has a direct effect on B-cells that was proved by the functional and morphological changes seen in the pancreatic islets cultured in vitro.     

A novel strategy for intrastriatal dopaminergic cell transplantation: Sequential “nest” grafting influences survival and behavioral recovery in a rat model of Parkinson's disease

Neural transplantation in experimental parkinsonism (PD) is limited by poor survival of grafted embryonic dopaminergic (DA) cells. In this proof-of-principle study we hypothesized that a first regular initial graft may create a “dopaminergic” environment similar to the perinatal substantia nigra and consequently stimulate a subsequent graft. Therefore, we grafted ventral mesencephalic neurons sequentially at different time intervals into the same target localization. Rats with a unilateral lesion of the dopamine neurons produced by injections of 6-hydroxydopamine (6-OHDA) received E14 ventral mesencephalon derived grafts into the DA-depleted striatum. In the control group we grafted all 6 deposits on the first day (d0). The other 4 groups received four graft deposits distributed over 2 implantation tracts followed by a second engraftment injected into the same site 3, 6, 14 and 21 days later. Quantitative assessment of the survival of tyrosine hydroxylase-immunoreactive neurons and graft volume revealed best results for those DA grafts implanted 6 days after the first one. In the present study, a model of short-interval sequential transplantation into the same target-site, so called “nest” grafts were established in the 6-OHDA rat model of PD which might become a useful tool to further elucidate the close neurotrophic and neurotopic interactions between the immediate graft vicinity and the cell suspension graft. In addition, we could show that the optimal milieu was established around the sixth day after the initial transplantation. This may also help to further optimize current transplantation strategies to restore the DA system in patients with PD.     

Cyclosporine and experimental skin allografts: long-term survival in rats treated with low maintenance doses

Although cyclosporine (CsA) is a powerful immunosuppressive agent in organ transplantation, its efficacy in skin transplantation has not been examined completely. We have tested it as primary immunosuppression in a rat skin allograft model. Histoincompatible Brown-Norway skin grafts are rejected in untreated Lewis hosts within 9 +/- 1 days but survive for 22 +/- 3, 34 +/- 2, or 41 +/- 8 days after 7, 14, or 21 days of CsA treatment (15 mg/kg per day subcutaneously), respectively (p less than 0.001). Animals treated daily for 4 weeks died from drug toxicity; however, an initial 2-week course followed by a low maintenance dose (15 mg/kg every fourth day) produced indefinite (greater than 150 days) graft acceptance without side effects. The long-surviving grafts were supple, grew long hair, and showed normal histology. When the drug was stopped at any time during this maintenance period, early signs of rejection (hair loss, epidermal breakdown, and localized ulceration) occurred, which could be reversed completely by a short CsA "pulse" (15 mg/kg per day for 7 days). These experimental data support the potential application of CsA immunosuppression in human skin allotransplantation.     

W3/25+ T cells mediate the induction of immunologic unresponsiveness in enhanced rat recipients of cardiac allografts

Cellular suppressor mechanisms developing during the induction of immunologic enhancement were studied in LEW rats immunized actively with BN spleen cells and passively with LEW anti-BN hyperimmune serum 11 and 10 days before receiving a (LEW X BN)F1 cardiac allograft, respectively. With this regimen, graft survival is prolonged from 7.4 +/- 0.5 days in unmodified, acutely rejecting hosts to 25 +/- 12 days in enhanced recipients, with one-third of the grafts surviving indefinitely. To test for suppressor capacities, 60 X 10(6) splenic T helper/inducer (W3/25+) and T suppressor/cytotoxic (OX8+) cells were adoptively transferred 7 and 14 days after transplantation either into unmodified syngeneic LEW animals that received (LEW X BN)F1 test grafts 24 hr later or into T cell-deprived B rats with indefinitely functioning heart transplants that were reconstituted with sensitized lymph node cells (100 X 10(6). W3/25+ T cells harvested on days 7 and 14 from enhanced recipients prolonged test graft survival in unmodified hosts (13.1 +/- 2.3 and 13.3 +/- 1.3 days, respectively, p less than 0.001) and delayed rejection in reconstituted B rats from 6.7 +/- 0.5 to 18.2 +/- 6.5 and 23.3 +/- 5.8 days, respectively (p less than 0.001). OX8+ and B lymphocytes had no suppressor activity. However, enzymatic stripping of the surfaces of W3/25+ cells abrogated suppressor function. Similarly, after i.p. treatment with cyclophosphamide, W3/25+ T cells lost their suppressor properties. Lack of donor specific but not third party alloaggressiveness was demonstrated by the profoundly diminished ability of W3/25+ lymphocytes from enhanced hosts to recreate rejection in nonreconstituted B rats, even when exogenous interleukin 2 was administered. After pronase treatment, however, W3/25+ T cells were capable of inducing immunoresponsiveness at a tempo similar to naive T helper cells (31.5 +/- 12.5 vs 32.8 +/- 7.9). Thus, the present studies provide evidence for the development of a specific W3/25+ suppressor cell in the induction of active and passive enhancement. Coincident abrogation of specific T effector alloaggressiveness is apparently mediated by surface-blocking factors.     

Adoptive immunotherapy of leukemia in the rat, without graft-VS-host complications.

PVG rats bearing a transplantable T cell leukemia were treated with large inocula of lymphoid cells from AUG rats sensitized either against the leukemia or against PVG lymphocytes. AUG and PVG bear identical Ag-B antigens but differ at minor loci, including the Pta loci, which code for differentiation antigens expressed only on peripheral T lymphocytes. Treatment with AUG cells immune to either the PVG leukemia or normal PVG cells resulted in prolonged survival of leukemic rats, a profound but ephemeral leukopenia and prolonged disappearance of leukemic cells from lymphoid tissue. All treated animals, however, eventually died with large, discrete deposits of leukemic cells in both hard and soft tissues. Despite the deliberate mismatching of host and donor cells for minor transplanation antigens, no evidence of GVH symptoms was observed in treated rats. This was interpreted as a result of directing the adoptive immune response to antigens of restricted distribution, i.e., on leukocytes and not on somatic cells.     

Pancreatic islets engineered with SA-FasL protein establish robust localized tolerance by inducing regulatory T cells in mice

Allogeneic islet transplantation is an important therapeutic approach for the treatment of type 1 diabetes. Clinical application of this approach, however, is severely curtailed by allograft rejection primarily initiated by pathogenic effector T cells regardless of chronic use of immunosuppression. Given the role of Fas-mediated signaling in regulating effector T cell responses, we tested if pancreatic islets can be engineered ex vivo to display on their surface an apoptotic form of Fas ligand protein chimeric with streptavidin (SA-FasL) and whether such engineered islets induce tolerance in allogeneic hosts. Islets were modified with biotin following efficient engineering with SA-FasL protein that persisted on the surface of islets for >1 wk in vitro. SA-FasL-engineered islet grafts established euglycemia in chemically diabetic syngeneic mice indefinitely, demonstrating functionality and lack of acute toxicity. Most importantly, the transplantation of SA-FasL-engineered BALB/c islet grafts in conjunction with a short course of rapamycin treatment resulted in robust localized tolerance in 100% of C57BL/6 recipients. Tolerance was initiated and maintained by CD4(+)CD25(+)Foxp3(+) regulatory T (Treg) cells, as their depletion early during tolerance induction or late after established tolerance resulted in prompt graft rejection. Furthermore, Treg cells sorted from graft-draining lymph nodes, but not spleen, of long-term graft recipients prevented the rejection of unmodified allogeneic islets in an adoptive transfer model, further confirming the Treg role in established tolerance. Engineering islets ex vivo in a rapid and efficient manner to display on their surface immunomodulatory proteins represents a novel, safe, and clinically applicable approach with important implications for the treatment of type 1 diabetes.     

Mast cells accumulate in the renal capsule adjacent to transplanted pancreatic islets in rats

Mast cells are important mediators of normal angiogenesis, and participate in normal would healing, i.e. processes involved in pancreatic islet engraftment. The aim of the study was to evaluate if mast cells are present in islet grafts. For this purpose, male normoglycaemic Wistar-Furth rats were either untreated or syngeneically implanted with 250 islets under the renal capsule. The animals were killed 1 month later, and the kidneys and endogenous pancreas were removed, fixed and embedded in paraffin. The distribution of mast cells was studied in Alcian Blue stained sections. Mast cells were rarely encountered in endogenous islets, but were frequent in the renal capsule adjacent to islet grafts. Mast cells interspersed between graft endocrine cells were as rare as in the endogenous pancreas. We conclude that mast cells may contribute to the engraftment after islet transplantation.     

pH is decreased in transplanted rat pancreatic islets

Recent studies of transplanted pancreatic islets have indicated incomplete revascularization. We investigated the pH, in relation to oxygen tension (Po(2)), in endogenous islets and islets syngeneically transplanted to the renal subcapsular site of nondiabetic and streptozotocin-diabetic recipients. Tissue pH and Po(2) were measured using microelectrodes. In the endogenous islets, tissue pH was similar to that in arterial blood. In the transplanted islets, tissue pH was 0.11-0.15 pH units lower. No differences in islet graft pH were seen between nondiabetic and diabetic animals, and none if the islet grafts were investigated 1 day or 1 mo posttransplantation. The Po(2) in the endogenous islets was approximately 35 mmHg. Transplanted islets had a markedly lower tissue Po(2) both 1 day and 1 mo after transplantation. A negative correlation between the tissue Po(2) and the hydrogen ion concentration was seen in the 1-mo-old islet transplants in diabetic animals. In conclusion, decreased Po(2) in transplanted islets is associated with a decreased tissue pH, suggesting a shift toward more anaerobic glucose metabolism after transplantation.     

Metallothionein protects islets from hypoxia and extends islet graft survival by scavenging most kinds of reactive oxygen species

Islet transplantation is a promising therapy for Type 1 diabetes, but many attempts have failed due to early graft hypoxia or immune rejection, which generate reactive oxygen species (ROS). In the current study, we determined that transgenic overexpression of the antioxidant metallothionein (MT) in pancreatic beta cells provided broad resistance to oxidative stress by scavenging most kinds of ROS including H2O2, peroxynitrite radical released from streptozotocin, 3-morpholinosydnonimine (SIN-1), and superoxide radical produced by xanthine/xanthine oxidase. MT also reduced nitric oxide-induced beta cell death. A direct test of hypoxia/reperfusion sensitivity was made by exposing FVB and MT islets to hypoxia (1% O2). MT markedly reduced ROS production and improved islet cell survival. Because MT protected beta cells from a broad spectrum of ROS and from hypoxia, we considered it to be an ideal candidate for improving islet transplantation. We first tested syngeneic transplantation by implanting islets under the kidney capsule of the same strain, FVB mice, thereby eliminating the immune rejection component. Under these conditions, MT islets maintained much greater insulin content than control islets. Allotransplantation was then tested. MT transgenic and normal FVB islets were implanted under the kidney capsule of BALB/c mice that were previously treated with streptozotocin to induce diabetes. We found that MT islets extended the duration of euglycemia 2-fold longer than nontransgenic islets. The benefit of MT was due to protection from ROS since nitrotyrosine staining, an indicator of free radical damage, was much lower in MT grafts than in FVB grafts. The time course of protection suggested that the major mode of MT action may have been protection from hypoxia or hypoxia/reperfusion. These data demonstrate that treatment with a broad spectrum antioxidant protects islets from ROS damage such as that produced during the early phase of islet transplantation.     

Isolated islet transplantation in experimental diabetes.

Pancreatic islets have been isolated from the exocrine pancreas of inbred rats by the collagenase digestion method. Transplantation of isolated islets into the portal venous system of streptozotocin diabetic recipients resulted in complete abrogation of the diabetic state as measured by non-fasting serum glucose level, 24 h urinary output, rate of weight gain and glucose tolerance test. Transplantation to other sites resulted in less than optimal survival and function of islets. Allogeneic islets, transplanted across weak histocompatibility barriers, can survive and function for prolonged periods of time when transplanted recipients are immunosuppressed with antilymphocyte serum (ALS). Recipients of allogeneic islets, after a period of immunosuppression with ALS, become permanently tolerant to the allografted islets and to subsequent skin grafts from similar allogeneic donors. Allografted islets are able to prevent the occurrence of diabetic renal and ophthalmic changes that occur in control diabetic animals which had not undergone transplantation.     

Time course of angiogenesis in solid pineal autografts

Angiogenesis and reperfusion of blood vessels were analysed qualitatively, at the light- and electron-microscopical levels, in solid pineal autografts placed intracerebrally in adult rats (post-transplantation survival times: 1, 3, 7, 10, 14 and 28 days). Reperfusion of blood vessels was studied in sections from immersion-fixed brains incubated to demonstrate the endogenous peroxidase activity of erythrocytes within the lumen of blood vessels. The possible presence of the blood-brain barrier (BBB) within the grafts was also investigated by injecting native horseradish peroxidase (HRP) intravenously into the rats. Angiogenesis, the morphological and functional properties of blood vessels vascularizing the grafts and the survival of pineal tissue were analysed ultrastructurally following transplantation. Revascularization of pineal autografts placed into the adult host central nervous system occurred very slowly, requiring 7–10 days to establish anastomoses between graft and host blood vessels. During this process, signs of angiogenesis in pineal and cerebral capillaries were evident, suggesting that both contributed to graft revascularization. Morphological and functional studies with HRP revealed that, following transplantation, blood vessels at the graft-host interface or within pineal autografts maintained their morphological and functional properties: they were fenestrated and did not present a BBB to blood-borne peroxidase. Thus, after grafting, the presence or absence of the BBB is graft-determined. Revascularized pineal tissue showed good survival and pinealocytes revealed structural features of active secretory cells.     

Murine CD8+ T cell helper function is particularly sensitive to cyclosporine suppression in vivo

In order to investigate the mechanism of action of cyclosporine (CsA) in vivo the drug was used to prolong the survival of different types of allogeneic skin grafts on mice under different conditions. Lower doses of CsA were necessary to prolong class I-disparate grafts than to prolong class II-disparate grafts than to prolong whole MHC-disparate grafts. Second set skin grafts, even of class I-only disparity, could not be prolonged even by higher doses of CsA. Primary class I-disparate grafts, which survived at a low dose of CsA, were rejected at the same dose if a second inducer graft was also placed expressing the same class I Ag plus other mismatched class II Ag. A suboptimal dose of CsA was synergistic with an anti-CD4 mAb but not with an anti-CD8 antibody for whole MHC-mismatched grafts. These results support the notion that CsA interferes with helper T cell function in vivo and suggest that CD8+ helper function is particularly sensitive to CsA suppression.     

Reduction of diffusion barriers in isolated rat islets improves survival, but not insulin secretion or transplantation outcome

For people with type 1 diabetes and severe hypoglycemic unawareness, islet transplants offer hope for improving the quality of life. However, islet cell death occurs quickly during or after transplantation, requiring large quantities of islets per transplant. The purpose of this study was to determine whether poor function demonstrated in large islets was a result of diffusion barriers and if removing those barriers could improve function and transplantation outcomes. Islets were isolated from male DA rats and measured for cell viability, islet survival, glucose diffusion and insulin secretion. Modeling of diffusion barriers was completed using dynamic partial differential equations for a sphere. Core cell death occurred in 100% of the large islets (diameter >150 μm), resulting in poor survival within 7 days after isolation. In contrast, small islets (diameter <100 μm) exhibited good survival rates in culture (91%). Glucose diffusion into islets was tracked with 2-NBDG; 4.2 μm/min in small islets and 2.8 μm/min in large islets. 2-NBDG never permeated to the core cells of islets larger than 150 μm diameter. Reducing the diffusion barrier in large islets improved their immediate and long-term viability in culture. However, reduction of the diffusion barrier in large islets failed to improve their inferior in vitro insulin secretion compared to small islets, and did not return glucose control to diabetic animals following transplantation. Thus, diffusion barriers lead to low viability and poor survival for large islets, but are not solely responsible for the inferior insulin secretion or poor transplantation outcomes of large versus small islets.     

Reduction of diffusion barriers in isolated rat islets improves survival,but not insulin secretion or transplantation outcome

For people with type 1 diabetes and severe hypoglycemic unawareness, islet transplants offer hope for improving the quality of life. However, islet cell death occurs quickly during or after transplantation, requiring large quantities of islets per transplant. The purpose of this study was to determine whether poor function demonstrated in large islets was a result of diffusion barriers and if removing those barriers could improve function and transplantation outcomes. Islets were isolated from male DA rats and measured for cell viability, islet survival, glucose diffusion and insulin secretion. Modeling of diffusion barriers was completed using dynamic partial differential equations for a sphere. Core cell death occurred in 100% of the large islets (diameter > 150 μm), resulting in poor survival within 7 days after isolation. In contrast, small islets (diameter &lt; 100 μm) exhibited good survival rates in culture (91%). Glucose diffusion into islets was tracked with 2-NBDG; 4.2 μm/min in small islets and 2.8 μm/min in large islets. 2-NBDG never permeated to the core cells of islets larger than 150μm diameter. Reducing the diffusion barrier in large islets improved their immediate and long-term viability in culture. However, reduction of the diffusion barrier in large islets failed to improve their inferior in vitro insulin secretion compared to small islets, and did not return glucose control to diabetic animals following transplantation. Thus, diffusion barriers lead to low viability and poor survival for large islets, but are not solely responsible for the inferior insulin secretion or poor transplantation outcomes of large versus small islets.     

Cystlike structures derived from the marginal cells of Rathke's cleft in rat pituitary grafts

Summary Hemipituitary glands from 30 rats were isotransplanted under renal capsules. At 1, 2, 4, 7 and 20 days after transplantation, the grafts were examined by light and electron microscopy. Two days after transplantation, the central area of graft showed necrosis; however, the peripheral area, where marginal cells of Rathke's cleft were ingesting the remnants of necrotic glandular cells, survived. Four days after transplantation, mitotic figures of marginal cells were observed. Seven days after transplantation, the damaged area of the graft disappeared, and Rathke's cleft was completely lined by marginal cells. Remnants of necrotic glandular cells were not seen in intercellular spaces or in the cytoplasm of marginal cells. Cystlike structures formed in the grafts; some were connected to Rathke's cleft by narrow cavities. The cavity-lining cells of the cysts were agranular and similar to those that lined Rathke's cleft. At 20 days after transplantation, granular cavity-lining cells appeared. It is suggested that marginal cells of immature rats can differentiate into granular cells.     

Host response to tissues placed in the anterior chamber of the eye: demonstration of migration inhibition factor and serum blocking activity.

Allograft immunity of rats to transplantation antigens was demonstrated by in vitro migration inhibition procedures. Spleen cell suspensions from rats sensitized to histocompatibility antigens by skin graft or anterior chamber implants failed to migrate normally in vitro when incubated in the presence of appropriate donor tissue extracts. Tissue grafts transplanted across both major and minor histocompatibility barriers had prolonged survival within the anterior chamber. However, 2 weeks after implantation, the recipient rats showed detectable sensitization to their implants. Serum from 14- to 32-day implant-bearing rats blocked the migration inhibition found in the implanted rats in the presence of corresponding tissue antigen. Such blocking activity was undetectable in the serum from rats which had implants for 7 days or after rejection of the implant was evident. MIF production in implanted and skin-grafted rats was evident at significantly different times in relation to the graft rejection. The asynchrony of MIF synthesis observed in these experimental animals leads us to postulate that the graft rejection and MIF production may be mediated by distinct lymphocyte populations. In addition, the route of the antigen presentation may account in part for the observed differences.     

山萘酚通过增强Treg细胞免疫抑制功能延长移植物生存时间

目的:探讨应用山萘酚增强Treg细胞免疫抑制功能,从而抑制大鼠移植物排斥反应并改善移植物生存的作用和机制。方法:以Wister大鼠和SD大鼠分别为供、受体,建立同种异体皮肤移植排斥反应动物模型。观察受体老鼠皮肤移植物的情况,记录移植物失功时间(移植物皮片80%面积发生排斥)。RT-PCR检测移植7天后脾细胞、淋巴细胞FOXP3、CTLA-4和IL-10的mRNA水平,用HE染色组织病理学观察术后7天移植皮片的淋巴细胞浸润程度。体外实验T细胞增殖抑制试验加入山萘酚作为对照,观察Treg功能情况。结果:1.山萘酚能增强移植后同种异体移植物的生存时间(DMSO组6.3±0.3天,山萘酚组13.7±0.39天,P<0.01);2.RT-PCR显示山萘酚可增强细胞CTLA-4(对照组9.24±0.17,山萘酚组12.48±0.145,P<0.05)、FOXP3(对照组0.96±0.07,山萘酚组1.41±0.07,P<0.01)和IL-10(对照组0.95±0.12,山萘酚组1.50±0.16,P<0.05)的mRNA水平;3.体外T细胞增殖抑制实验中,山萘酚可增强Treg细胞的免疫抑制功能。结论:在大鼠皮肤移植模型中,山萘酚可延长皮肤移植物的生存时间,提高Treg细胞相关IL-10、FOXP3和CTLA-4的mRNA水平;体外实验中,能抑制效应T细胞的增殖,表明山萘酚在提高移植物生存方面存在一定的价值。