Prognostic nutritional index as a prognostic factor in lung cancer patients receiving chemotherapy: a systematic review and meta-analysis.

OBJECTIVE: Lung cancer is one of the leading causes of morbidity and mortality in the world. In the past decade, numerous studies focus on the prognostic nutritional index (i.e., a measure of serum albumin and lymphocyte in peripheral circulation) as a possible biomarker to predict the survival outcomes in cancer patients undergoing chemotherapy. Prognostic nutritional index can reliably predict the survivability outcomes by effectively quantifying the nutritional and immunological status of cancer patients. To date, only one review has attempted to evaluate the impact of the prognostic nutritional index on the survival outcomes in lung cancer patients with certain limitations. The goal of the present systematic review and meta-analysis is to bridge the gap in the literature and evaluate the capacity of the prognostic nutritional index for predicting the survivability outcomes in lung cancer patients undergoing chemotherapy. The aim of the study is to evaluate the impact of prognostic nutritional index scoring on survival outcomes in lung cancer patients undergoing chemotherapy. MATERIALS AND METHODS:  A systematic academic literature search was performed based on the PRISMA guidelines across Web of Science, EMBASE, CENTRAL, Scopus, and MEDLINE databases. A random-effect meta-analysis was performed to evaluate the impact of prognostic nutritional index scoring (i.e., high/low) on survival outcomes (i.e., progression-free survival, overall survival) in lung cancer patients undergoing chemotherapy. RESULTS:  From 963 studies, 16 eligible studies with 4250 lung cancer patients (62.32 ± 5.08 years) undergoing chemotherapy were included. Our meta-analysis revealed worse mortality outcomes in terms of progression-free survival (HR: 1.31) and overall survival (1.21) for the group with a low prognostic nutritional index score as compared to the group with a high prognostic nutritional index score in lung cancer patients undergoing chemotherapy. Subsequent subgroup analyses further demonstrated markedly worse outcomes for progression-free survival (1.32) and overall survival (1.52) in non-small lung cancer patients with lower prognostic nutritional index scores. CONCLUSIONS:  We provide preliminary evidence suggesting that lower prognostic nutrition index scores are associated with worse survivability outcomes (progression-free survival and overall survival) in lung cancer patients undergoing chemotherapy. We also show that lower prognostic nutrition index scores correlate with even worse survival outcomes in patients with non-small lung cancer histological subtype of lung cancer. These findings should help clinicians to stratify the risks associated with the chemotherapeutic management of lung cancer patients.

Infectious tolerance mediated by CD8+ T-suppresor cells after UV-B-irradiated donor-specific transfusion and rat heart transplantation.

AIMS: CD8+CD28- human T-suppressor cells (Ts), which can be generated in vitro, act directly on APC rendering them tolerogenic to unprimed and primed CD4+ T cells. The aim of this study was to investigate the possibility that CD8+ T cells mediate the induction of tolerance in a heart transplantation model in rodents. MATERIALS AND METHODS: Blood from Lewis rats was UV-B-irradiated and transfused into ACI recipients on days -21, -14, and -7 before heart allograft transplantation on day 0. CD4(+) and CD8(+) T cells were positively selected from ACI rats, which had tolerated Lewis heart allografts for more than 100 days and were adoptively transferred to naive ACI rats pretreated (day -1) with gamma irradiation. These ACI rats underwent transplantation with Lewis hearts 24 hours after adoptive transfer of putative T-suppressor cells. RESULTS: Adoptive transfer of CD8(+) T cells from tolerant ACI to naive ACI rats significantly prolonged Lewis heart mean allograft survival time (MST +/- SD) to 69 +/- 13 days as compared with 15 +/- 1 and 14 +/- 1 days in animals adoptively transferred with CD4+ T cells or untreated controls, respectively (P < .001). Similarly, adoptive transfer of CD8(+) T cells from secondary ACI recipients to naive syngeneic animals also significantly prolonged survival of heart allografts to MST +/- SD of 72 +/- 4 for CD8(+) and 15 +/- 4 days for CD4(+) T cells (P < .001). CONCLUSIONS: These data demonstrate that allogeneic tolerance induced in ACI recipients by treatment with UV-B-irradiated blood from Lewis donors is mediated by CD8+ T-suppressor cells.

Effect of streptavidin on cardiac allograft prolongation is due to host T-Cell suppression.

AIM: The aim of this study was to evaluate the effectiveness of streptavidin immunomodulation in the high-responder WF-to-Lewis combination. METHODS/RESULTS: We examined the effects of streptavidin on the proliferative response of T cells in coculture studies. Two to 200 microg/mL streptavidin significantly (P < .001) suppressed the proliferation of Lewis T cells to WF by 76%-83% compared with untreated responders. Next, we studied the survival of WF cardiac allografts in Lewis recipients pretreated with streptavidin. A 5-day course of peritransplantation recipient treatment with streptavidin doses of 8, 12, 20, 40, and 60 mg/kg combined with single dose of 0.5 mL antilymphocyte serum (ALS) significantly (P < .001) prolonged cardiac allograft survival from MST of 7 +/- 0.5 and 8 +/- 0.5 days in naive and ALS-treated controls to 15 +/- 1, 20 +/- 3, 16 +/- 3, 17 +/- 3, and 23 +/- 2 days, respectively. In contrast, posttransplantation administration of 80 mg/kg streptavidin resulted in animal death, suggesting toxicity of this dose. Additionally, 10 mg/kg or 20 mg/kg streptavidin administration for 10 consecutive days resulted in significant graft prolongation (MST of 18 +/- 1 and 21 +/- 1 days, respectively; P < .001). CONCLUSION: Although peritransplantation streptavidin treatment is effective in prolonging rat cardiac allografts in the high-responder WF-to-Lewis combination, it does not induce permanent graft survival as observed in the low-responder combination of Lewis-to-ACI. Our finding of in vitro immunomodulatory effect of streptavidin on T-cell proliferation suggests that its in vivo effect is partly due to prevention of T-cell activation following antigen exposure.

Indirect allorecognition in acquired thymic tolerance: induction of donor-specific permanent acceptance of rat islets by adoptive transfer of allopeptide-pulsed host myeloid and thymic dendritic cells.

Pancreatic islet transplantation remains a promising approach to the treatment of type 1 diabetes. Unfortunately, graft failure continues to occur because of immunologic rejection, despite the use of potent immunosuppressive agents. It is therefore reasoned that induction of peripheral tolerance by the use of self-dendritic cells (DCs) as a vehicle to deliver specific target antigens to self-T-cells without ex vivo manipulation of the recipient is an attractive strategy in the treatment of type 1 diabetes. The finding that intrathymic inoculation of an immunodominant WF major histocompatibility complex (MHC) Class I (RT1.A(u)) peptide five (P5) or P5-pulsed host myeloid DCs induces acquired thymic tolerance raises the possibility that adoptive transfer of allopeptide-primed host myeloid or lymphoid DCs might induce transplant tolerance. To address this hypothesis, we studied the effects of intravenous transfer of in vitro P5-pulsed syngeneic myeloid DCs or in vivo P5-primed syngeneic lymphoid (thymic) DCs on islet survival in the WF-to-ACI rat combination. In vivo primed thymic DCs isolated from ACI rats given intrathymic inoculation of P5 for 2 days were capable of in vitro restimulation of in vivo P5-primed T-cells (memory cells). In the first series of studies, we showed that intravenous-like intrathymic-inoculation of in vitro P5-pulsed host myeloid DCs induced donor-specific permanent acceptance of islets in recipients transiently immunosuppressed with antilymphocyte serum (ALS). We next examined whether thymic DCs isolated from animals that had been previously intrathymically inoculated with P5 could induce T-cell tolerance. The results showed that intravenous adoptive transfer of in vivo P5-primed thymic DCs led to donor-specific permanent acceptance of islets in recipients transiently immunosuppressed with ALS. This finding suggested that the thymic DCs take up and present P5 to developing T-cells to induce T-cell tolerance, thus providing evidence of a direct link between indirect allorecognition and acquired thymic tolerance. The second series of studies examined the mechanisms involved in this model by exploring whether in vivo generation of peptide-specific alloreactive peripheral T-cells by intravenous inoculation of P5-pulsed self-DCs was responsible for the induction of T-cell tolerance. Intrathymic inoculation of splenic T-cells obtained from syngeneic ACI rats primed with intravenous injection of P5-pulsed DCs with a high in vitro proliferative response to P5 in the context of self-MHC induced donor-specific permanent acceptance of islets from WF donors. In addition, the clinically relevant model of intravenous injection of P5-activated T-cells combined with transient ALS immunosuppression similarly induced transplant tolerance, which was then abrogated by thymectomy of the recipient before intravenous injection of the activated T-cells. These data raise the possibility that circulation of peptide-activated T-cells to the host thymus plays a role in the induction and possibly the maintenance of T-cell tolerance in this model. Our findings suggest that intravenous administration of genetically engineered host DCs expressing alloMHC peptides might have therapeutic potential in clinical islet transplantation for the treatment of autoimmune diabetes.

Major histocompatibility complex class I peptide-pulsed host dendritic cells induce antigen-specific acquired thymic tolerance to islet cells.

BACKGROUND: As T-cell receptor-major histocompatibility complex (MHC) class I/self peptide interaction regulates T-cell development in the thymus, we reasoned that presentation of peptides by self dendritic cells (DC) to developing T cells in the thymus might induce acquired thymic tolerance. This hypothesis is based on the finding that intrathymic injection of allopeptides in the adult animal induces acquired tolerance. To examine this hypothesis, we studied the effects of intrathymic (IT) injection of a single immunodominant Wistar-Furth (WF) MHC class I (RT1.Au) peptide-pulsed host DC on islet allograft survival in the WF-to-ACI rat combination. METHODS: Bone marrow-derived ACI DC expressing MHC class I and II, OX62, and ED2 present allopeptides to naive and specifically peptide-primed syngeneic T cells in mixed lymphocyte reaction. Host DC pulsed with RT1.Au peptide 5 (residues 93-109) were injected into the thymus of streptozotocin-induced diabetic ACI that were transplanted 7 days later with donor-type (WF) or third-party (Brown Norway [BN]) islets. RESULTS: Whereas IT injection of 300 microg of peptide 5 alone led to normoglycemia and permanent islet survival in three of six diabetic ACI recipients, similar treatment combined with simultaneous intraperitoneal injection of 0.5 ml of anti-lymphocyte serum (ALS) on day -7 led to 100% permanent islet allograft survival (>200 days) compared to a mean survival time of 15.0+/-2.3 days in controls treated with ALS alone. In contrast, similarly prepared animals rejected the third-party (BN) islets in an acute fashion. To address the question of indirect allorecognition in acquired thymic tolerance, we examined the effect of peptide-pulsed host DC on graft survival. Whereas IT injection of peptide-pulsed host DC alone resulted in permanent islet survival in two of five animals, IT injection of peptide-pulsed host DC combined with 0.5 ml of ALS induced 100% donor-specific permanent islet allograft survival in the WF-to-ACI rat combination. These results suggest that thymic DC take up, process, and present the administered peptide to the developing T cells by the indirect allorecognition pathway in the induction of acquired thymic tolerance. CONCLUSION: We have demonstrated a novel approach to inducing transplant tolerance to islet allografts with IT injection of allopeptide-pulsed host DC. This finding suggests that immunization strategies using DC expressing MHC allopeptides or peptide analogue might be potentially useful in the treatment of autoimmune diabetes mellitus.

Regulatory T cells maintain peripheral tolerance to islet allografts induced by intrathymic injection of MHC class I allopeptides.

Although transplantation remains the treatment of choice for diabetes mellitus, immunological rejection of allografts continues to be a major problem. The search for strategies to prevent graft rejection led us to examine if the fate of developing T cells may be influenced by the presence of allo MHC class I peptides in the thymus because T cell receptor-MHC class I/self-peptide interaction regulates thymocyte development. We studied the effects of intrathymic (IT) injection of a short segment of a synthetic immunogenic MHC class I peptide (peptide 2, residues 67-85) of the hypervariable domain of RT1.A derived from WAG rat (RT1U) on islet graft survival in the WF(RT1U)-to-ACI combination. Adult diabetic male recipients were treated with IT injection of a single WAG-derived MHC class I peptide 7 days before intraportal islet transplantation. Long-term unresponsive islet recipients were examined for the development of alloantigen (Ag)-specific regulatory cells. The results showed that while IT injection of 150 microg peptide 2 on day -7 did not prolong graft survival in naive recipients [median survival time (MST) of 14.0 days vs. 9.6 in controls], IT injection of 300 or 600 microg peptide 2 led to normoglycemia and permanent islet survival (> 200 days) in 4/6 and 3/5 STZ-induced diabetic ACI recipients, respectively. IT injection of 150, 300, or 600 microg peptide 2 combined with 0.5 antilymphocyte serum (ALS) immunosuppression on day -7 led to 100% permanent islet allograft survival (> 200 days) compared to MST of 15.0 +/- 2.3 days in ALS alone-treated controls. Similarly prepared animals rejected third-party Brown Norway (BN) islets in an acute fashion, thus demonstrating donor specificity. Intravenous injection of 300 microg peptide 2 combined with 0.5 ml ALS did not prolong islet allograft survival. The long-term unresponsive islet allograft recipients challenged with second set grafts accepted permanently 100% donor-type cardiac allografts while rejecting third-party (BN) hearts without rejecting the primary Wistar Furth (WF) islets. In analyzing the underlying mechanisms of acquired systemic tolerance, we found no suppressor/regulatory cells in adoptive transfer studies in tolerant animals at 30 days after IT injection of allopeptides. In contrast, adoptive transfer of 5 x 10(7) unseparated spleen cells from tolerant animals at 60 and 100 days after islet transplantation into lightly irradiated [200 rad total body irradiation (TBI)] ACI recipients led to donor-specific permanent islet graft survival in 2/3 and 4/5 secondary recipients, respectively, compared to an MST of 13.8 days in lightly irradiated ACI given unmodified syngeneic spleen cells. In addition, adoptive transfer of 2 x 10(7) purified T cells obtained from long-term functioning islet recipients led to permanent donor-specific islet survival in secondary recipients. The finding that IT injection of a short segment of a synthetic immunodominant MHC class I peptide derived from WAG that shares the RT1.A(U) domain with the graft donor is capable of inducing acquired systemic tolerance to WF islets suggests that linked recognition or epitope suppression may be involved in the induction of unresponsiveness. Generation of peripheral Ag-specific regulatory cells that suppress Ag-specific alloreactive T cells is, in part, responsible for the maintenance of tolerance in this model.

Mechanism of acquired thymic tolerance induced by a single major histocompatibility complex class I peptide with the dominant epitope: differential analysis of regulatory cytokines in the lymphoid and intragraft compartments.

BACKGROUND: We have recently shown that intrathymic injection of a combination of immunogenic WAG-derived or Wistar-Furth (WF) (RT1.Au) major histocompatibility complex class I peptides induces acquired systemic tolerance to cardiac and islet allografts in the WF-to-ACI rat combination and therefore hypothesized that identification of the class I peptide dominance may play an important role in the induction of antigen (Ag)-specific tolerance. This study defined the peptide with the dominant epitope among the seven synthetic RT1.Au peptides and analyzed the immunoregulatory cytokines within the lymphoid and intragraft compartments associated with acquired thymic tolerance. METHODS: ACI recipients were pretreated with intrathymic (IT) injection of 300 microg of the individual seven RT1.Au peptides 7 days before WF or Lewis cardiac transplantation. Cytokine profile of mixed lymphocyte reaction supernatants of T cells obtained from the thymus, mesenteric lymph nodes, spleen, peripheral blood leukocytes, and graft infiltrating cells after donor (WF) or third-party (Lewis) Ag stimulation were measured by enzyme-linked immunosorbent assay, whereas cytokine gene expression was determined by reverse transcription-polymerase chain reaction. RESULTS: Only IT injection of peptide 5 (93-109) among the seven RT1.Au peptides induced donor-spe cific tolerance to cardiac allografts in the WF-to-ACI rat combination. In addition, intravenous injection of peptide 5 did not prolong WF graft survival in ACI recipients. Analysis of cytokine production by the tolerant recipients showed significant Ag-specific reduction in the production of interleukin (IL)-2 and interferon-gamma (IFN-gamma) in the thymus, mesenteric lymph nodes, spleen, and peripheral blood leukocytes, which was not associated with a concomitant Ag-specific increase in IL-4 and IL-10 production. Measurement of cytokine mRNA expression confirmed undetectable

Comparative studies of specific acquired systemic tolerance induced by intrathymic inoculation of a single synthetic Wistar-Furth (RT1U) allo-MHC class I (RT1.AU) peptide or WAG (RT1U)-derived class I peptide.

BACKGROUND: Because T cell receptor-MHC class I/self-peptide interactions regulate T-cell development, the presence of MHC allopeptides in the thymus may influence T-cell tolerance to alloantigens. This hypothesis is supported by our most recent finding that intrathymic (IT) inoculation of nonimmunogenic synthetic peptides derived from "WAG" RT1.A induces tolerance to cardiac allografts in the Wistar-Furth (WF)-to-ACI model. To evaluate whether in vivo immunogenicity of MHC peptides is relevant to tolerance induction and to examine the effect of peptide specificity, we compared the effects on graft survival of well-defined, strain-specific immunogenic WF MHC class I peptides (RT1.AU) with closely related but non-strain-specific class I peptides derived from WAG (RT1U). METHODS: In vivo immunization of seven MHC class I peptides synthesized from RT1.AU sequences showed that two (u-5 and u-7) were immunogenic, whereas five others were not immunogenic in ACI recipients. We then examined the effects on cardiac allograft survival in the WF-to-ACI model of the two immunogenic RT1.AU peptides (u-5 and u-7) and three immunogenic WAG-derived peptides (peptides 1, 2, and 5). RESULTS: A combination of equal amounts (150 microg or 300 microg) of u-5 or u-7 each with 0.5 ml of antilymphocyte serum (ALS) on day -7 led to 60% and 100% permanent graft survival (>150 days), respectively. IT injection of the individual peptides on day -7 showed that only 300 microg of u-5 significantly prolonged graft survival to a median survival time of 17.3 days from 10.5 days in naive recipients. IT injection of 150, 300, and 600 microg of u-5 combined with 0.5 ml of ALS on day -7 led to permanent graft survival (> 150 days) in four of six, nine of nine, and six of six ACI recipients, respectively, compared with a median survival time of 15.4 days in ALS alone-treated controls. In contrast, similar treatments with peptide u-7 with or without 0.5 ml of ALS did not prolong graft survival, thus demonstrating that peptide u-5 alone mediates the observed effects on graft prolongation. A total of 300 microg of u-5 injected IT combined with ALS led to acute rejection of third-party (Lewis) grafts. Intravenous injection of 300 microg of u-5 with ALS also did not prolong WF graft survival in ACI recipients. The long-term unresponsive ACI recipients accepted permanently donor-type (WF) but not third-party (Lewis) second-set cardiac and islet allografts. Similarly, we showed that although IT injection of 600 and 1200 microg of a mixture of immunogenic WAG-derived peptides 1, 2, and 5 combined with 0.5 ml of ALS on day -7 led to permanent WF graft survival in ACI, only IT injection of 300 microg of peptide 2 combined with ALS led to permanent graft survival (>150 days) in four of five animals. To define the underlying mechanisms of tolerance, we examined in vitro the mixed lymphocyte reaction (MLR), cell-mediated lymphocytotoxicity, and cytokine profile of unresponsive recipients. Although the results showed nonspecific T-cell suppression in the MLR at 25 days after transplantation, which correlated with the persistence of ALS immunosuppression, long-term unresponsive animals showed normal MLR to donor and third-party antigens. In contrast, the donor-specific reactive cytotoxic T lymphocytes remained suppressed in short-term and long-term unresponsive rats. CONCLUSION: Of interest is our finding that IT injection of a short segment of WAG-derived MHC class I peptide induces active acquired tolerance similar to results obtained with the use of pure WF-derived peptide u-5 in the WF-to-ACI rat combination. It is noteworthy that we could not confirm the T helper (Th)1/Th2 paradigm in this model by initial cytokine analysis. Whether induction of tolerance by IT injection of allo-MHC peptides will have clinical usefulness must await results of similar studies in large animals. However, of major interest is the finding that a short segment of RT1.AU represents the tolerogenic

Monitoring of rat islet allografts with dithizone after induction of donor specific transplant tolerance by intrathymic administration of soluble alloantigens.

Transplantation of whole pancreas or pancreatic islets remains a promising approach to treatment of diabetes mellitus. Since there is no efficient method presently known for in vivo detection of pancreatic islet rejection, we have utilized dithizone [DTZ] to monitor the survival of transplanted islet allografts following the induction of tolerance by a new strategy of deliberate introduction of donor antigens into the adult thymus. In this study, we examined the morphology of islet allografts in vivo and in vitro following pretreatment with intrathymic (IT) inoculation of 2 mg soluble Ag obtained from 3M KCl extracts of resting T-cells with or without ALS immunosuppression in the WF-to-Lewis combination. Fresh isolated rat islets stained pink 3-5 minutes following exposure to medium containing 0.12 mM DTZ solution in DMSO. Intravenous (i.v.) injection of DTZ solution into unmodified recipients of islet allografts that had rejected their grafts showed massive degranulation of islets which did not stain pink with DTZ. This was confirmed by microscopic finding of fibrosis and lymphocytic infiltration. In contrast, i.v. injection of DTZ solution into long-term recipients of islet allografts at 50, 100, and 150 days after transplantation showed viable islet cells which stained crimson red with DTZ and the findings were confirmed with microscopic sections. This study demonstrates that DTZ is an effective means of in vivo and in vitro identification of transplanted pancreatic islets and suggests that this strategy may have potential clinical application in the diagnosis of the pancreatic islet rejection.

Dependence of acquired systemic tolerance to rat islet allografts induced by intrathymic soluble alloantigens on host responsiveness, MHC differences, and transient immunosuppression in the high responder recipient.

Recent studies suggest that the adult immune system can be manipulated by intrathymic (IT) inoculation of donor Ag to accept cardiac and islet allografts in the low responder rat combination of Lewis-to-WF. We have now extended this study to examine the effect of IT inoculation of soluble protein Ag obtained from 3M KCl extracts of resting T cells combined with transient ALS immunosuppression on islet allograft survival in the high responder combination of WF-to-Lewis. We first confirmed the earlier observation that IT injection of 2 mg soluble Ag on day -7 led to permanent islet graft survival (>200 days) in the Lewis-to-WF rat combination without the use of recipient immunosuppression and found this to be true in the Lewis-to-ACI rat combination. In the high responder combination of WF-to-Lewis, unmodified Lewis rats pretreated with IT inoculation of 2 mg soluble Ag acutely rejected WF and BN islet allografts. IT inoculation of donor Ag combined with 1 ml ALS transient immunosuppression on day -7 led to a modest graft prolongation [24.8+/-10.1 days as compared with 15.2+/-3.6 days in ALS only treated controls]. Intrathymic injection of soluble Ag on day -7 combined with 1 ml ALS on days -7 and 0 relative to allografting resulted in 100% permanent islet graft survival (>200 days) compared with an MST of 20.6+/-2.3 days in ALS only-treated controls. Similar treatment led to acute rejection of 3rd party (BN) grafts, thus demonstrating donor-specificity. In addition, extrathymic inoculation of donor Ag in similarly immunosuppressed animals did not result in islet graft prolongation, once again confirming the importance of the thymus in tolerance induction. To examine them for donor-specific tolerance, long-term unresponsive (>120 days) Lewis recipients of renal subcapsular islets underwent nephrectomy of the islet bearing kidneys and were challenged with intraportal donor- or third party-type islets after becoming diabetic. All the nonimmunosuppressed recipients of donor-type (WF) islets became permanently normoglycemic (>100 days) while the third-party (BN) grafts were promptly rejected, with an MST of 10.6 days. These findings confirm that acquired thymic tolerance induced by IT inoculation of soluble protein Ag in the low to moderate responder rat combinations is reproducible in the high responder combination provided that adequate peritransplant immunosuppression is used. This study suggests that acquired thymic tolerance in the rat model is dependent on host responsiveness to alloantigens, MHC differences between the donor-recipient pair, and the use of transient immunosuppression in the high responder recipient. This model may have potential clinical application in the development of strategies for specific transplantation tolerance.

Acquired systemic tolerance to rat cardiac allografts induced by intrathymic inoculation of synthetic polymorphic MHC class I allopeptides.

This study extends the finding that intrathymic (IT) injection of 3M KC1 extracts of T cells induces transplant tolerance to the use of well defined polymorphic MHC class I allopeptides derived from the hypervariable domain of RT1.Au (WF MHC class I). While three of the six synthetic RT1.Au peptides were immunogenic, three others were nonimmunogenic when tested in ACI responders. In our initial studies, we examined the effects of IT injection of a mixture of equal concentrations of the three nonimmunogenic RT1.Au peptides on WF cardiac allograft survival in ACI recipients. The results showed that a single IT injection of 100 and 300 microg class I MHC allopeptides on day -7 relative to cardiac transplant did not significantly prolong graft survival in naive ACI recipients (MST of 9.8, and 12.3 days vs. 10.5 days in controls). In contrast, 600 microg allopeptides injected IT resulted in modest prolongation of graft to an MST of 19.5 days. However, IT injection of 600 microg allopeptides combined with 0.5 ml ALS on day -7 led to permanent acceptance (>200 days) of cardiac allografts in 7/9 ACI recipients compared with survival of 24.2 days in ALS alone treated controls. In contrast, similar treatment led to acute rejection of third party (Lewis) cardiac allografts. Intravenous injection of 600 microg allopeptides combined with ALS did not result in prolonged graft survival (26.8 days). The long-term unresponsive ACI recipients (>100 days) challenged with second-set cardiac grafts accepted permanently donor-type (WF) grafts while rejecting the third party (Lewis) grafts, a finding that confirms acquired systemic tolerance. These findings confirm the role of IT injection of synthetic polymorphic allopeptides in the induction of acquired thymic tolerance and provide the rationale for testing this strategy in large animals and eventually in man.

Donor-specific unresponsiveness to murine cardiac allografts induced by intrathymic-soluble alloantigens is dependent on alternate pathway of antigen presentation.

This study extends the finding that intrathymic (IT) inoculation of uv-B irradiated donor spleen cells (SC) or soluble alloantigens (Ag) induces peripheral tolerance to organ allografts in the rat to the murine cardiac allograft model. In our initial experiment, we showed that IT inoculation of uv-B irradiated SC combined with transient immunosuppression of the recipient with either sublethal TBI or ALS on Day -7 led to donor-specific, long-term cardiac allograft survival (> 300 days) in the completely mismatched A/J-to-C57BL/6 mice combination. To test our hypothesis that peripheral tolerance induced by IT injection of donor Ag is dependent on presentation of the foreign MHC molecule by thymic APC to T cell precursors, we examined the effect of IT injection of donor APC-free-soluble Ag inoculum obtained from 3 MKCl extracts of purified MHC class I resting T cells on cardiac allograft survival in the A/J-to-C3H mice combination. The results showed that IT injection of the optimal dose of 500 micrograms soluble Ag combined with 0.5 ml ALS on Day -7 led to donor-specific permanent graft survival (> 200 days). This finding could not be reproduced by intravenous administration of soluble Ag, thus confirming the privileged position of the thymus in tolerance induction. To further define the role of host APC in allorecognition, we studied the presentation of soluble Ag by responder APC in MLR. The results showed that primed T cells obtained from A/J skin graft-sensitized C3H T cells specifically developed alloreactivity to A/J-soluble Ag in MLR.(ABSTRACT TRUNCATED AT 250 WORDS)

Induction of peripheral tolerance by intrathymic inoculation of soluble alloantigens: evidence for the role of host antigen-presenting cells and suppressor cell mechanism.

Intrathymic (IT) inoculation of soluble alloantigens (Ag) obtained from 3 M KCl extracts of resting T-cells induces donor-specific tolerance to cardiac allografts and islet allografts. This study examined the cellular basis of induction of transplantation tolerance by IT injection of soluble Ag. Our results show that while IT inoculation of 2 mg soluble donor Ag on Day -7 relative to Lewis islet transplantation induced specific unresponsiveness to islet allografts (> 200 days) in naive diabetic recipients, IT inoculation of 2 mg soluble Ag on the same day as islet transplantation did not prolong islet allograft survival in the same Lewis-to-WF rat combination. To define the role of donor APCs in intrathymic tolerance, we showed that IT injection of an admixture of 1 x 10(4) donor DC and 2 mg soluble Ag caused acute islet graft rejection. In contrast, addition of 1 x 10(4) recipient-type DC to the IT inoculum did not prevent long-term graft survival. This finding suggests that while the presence of donor APCs in the inoculum does not appear necessary for IT-alloantigen to induce peripheral tolerance, presentation of the soluble Ag in the thymus is dependent on host APCs. This conclusion is supported by our in vitro MLR experiments which showed that in vivo WF-Ag-primed Lewis T-cells proliferated specifically to WF-soluble Ag and that the response was enhanced 14-fold by the addition of responder-type DC. Addition of anti-Lewis MHC class II mAb specifically blocked the alloresponse, thus suggesting that in vivo Ag-primed T-cells are capable of recognizing and proliferating in response to allopeptides presented by responder APCs. We also showed that adoptive transfer of syngeneic naive T-cells into unresponsive recipients failed to break tolerance to long-term surviving islet allografts. This finding suggests that tolerance in this model is not due to a lack of T help. On the other hand, the adoptive transfer of spleen cells, but not sera, from the unresponsive WF recipients bearing long-term (> 120 days) functioning Lewis islets resulted in prolonged survival of donor-type but not third-party islet allografts in secondary syngeneic hosts. Our data suggest that the tolerogenic effect of IT inoculation of soluble Ag is dependent on the indirect pathway of Ag presentation and clonal deletion of alloreactive T-cells in the thymus, while suppressor/regulatory mechanism may be involved in the maintenance of peripheral tolerance.

UV-B modulation of haplo-identical bone marrow cells in the prevention of GVHD and induction of specific transplantation tolerance to intestinal allografts.

Ultraviolet B (UV-B) irradiation of BM cells (BMC) prior to transplantation into lethally gamma irradiated allogeneic rats prevents graft-versus-host disease (GVHD), induces stable allogeneic chimerism and specific tolerance to donor-type allografts. This study evaluated the role of UV-B modulation of bone marrow transplant (BMT) in the prevention of GVHD in the parent (P)-to-F1 hybrid rat combination of Lewis-to-Lewis x Brown Norway F1 (LBNF1) and of subsequent tolerance to small bowel transplantation (SBT). Lethally gamma irradiated (10.5 Gy) LBNF1 recipients of unmodified Lewis BMT (admixture of 10(8) BMC and 5 x 10(6) spleen cells) developed lethal GVHD and died within 55 days. Similarly, groups of lethally irradiated LBNF1 recipients of Lewis BMT treated with 100-300 J/m2 UV-B developed GVHD and died within 47 days. All F1 hybrid recipients of Lewis BMT treated with 700 or 900 J/m2 of UV-B permanently accepted their BM grafts, gained weight, showed no clinical evidence of GVHD and survived for > 300 days. These stable chimeras expressed 94-98% donor T-cells in their lymph nodes and became tolerant to BM donor-type (Lewis) SBT when grafted 180 days after BMT. In contrast, similarly prepared F1 recipients rejected BN SBT, thus demonstrating donor specificity. The chimeric rats were specifically unresponsive to donor (Lewis) Ag in MLR while they maintained normal alloreactivity to BN stimulators. These results suggest that UV-B irradiation of BMT offers a promising approach to overcoming the limitations of T-cell depletion of BMT and may offer a useful approach for recipient conditioning for induction of transplantation tolerance.