Tissue-specific and tissue-restricted histocompatibility antigens

Phylogeny, Structure, Functions, and Role of AIRE in the Formation of T-Cell Subsets

It is well known that the most important feature of adaptive immunity is the specificity that provides highly precise recognition of the self, altered-self, and non-self. Due to the high specificity of antigen recognition, the adaptive immune system participates in the maintenance of genetic homeostasis, supports multicellularity, and protects an organism from different pathogens at a qualitatively different level than innate immunity. This seemingly simple property is based on millions of years of evolution that led to the formation of diversification mechanisms of antigen-recognizing receptors and later to the emergence of a system of presentation of the self and non-self antigens. The latter could have a crucial significance because the presentation of nearly complete diversity of auto-antigens in the thymus allows for the "calibration" of the forming repertoires of T-cells for the recognition of self, altered-self, and non-self antigens that are presented on the periphery. The central role in this process belongs to promiscuous gene expression by the thymic epithelial cells that express nearly the whole spectrum of proteins encoded in the genome, meanwhile maintaining their cellular identity. This complex mechanism requires strict control that is executed by several transcription factors. One of the most important of them is AIRE. This noncanonical transcription factor not only regulates the processes of differentiation and expression of peripheral tissue-specific antigens in the thymic medullar epithelial cells but also controls intercellular interactions in the thymus. Besides, it participates in an increase in the diversity and transfer of presented antigens and thus influences the formation of repertoires of maturing thymocytes. Due to these complex effects, AIRE is also called a transcriptional regulator. In this review, we briefly described the history of AIRE discovery, its structure, functions, and role in the formation of antigen-recognizing receptor repertoires, along with other transcription factors. We focused on the phylogenetic prerequisites for the development of modern adaptive immunity and emphasized the importance of the antigen presentation system.

The abdominal wall transplant as a sentinel skin graft

PURPOSE OF REVIEW

Abdominal wall transplantation is a technique used to achieve abdominal closure after intestinal and multivisceral transplantation. This review focuses on whether there are additional benefits for the skin component as an immune-monitoring tool.

RECENT FINDINGS

The largest series of abdominal wall transplants has recently been published. Alongside the physiological advantage gained in abdominal closure, the authors describe the immunological insight that the skin component can provide and how this contributes to the management of patients. The skin appears to develop a rash with early rejection, which facilitates early systemic treatment before significant visceral rejection occurs. It can also help in cases in which there is diagnostic doubt regarding the cause of bowel dysfunction such as in instances of intestinal infection. Despite the additional immunological burden of donor tissue, there appears to be no requirement for increased immunosuppressive therapy.

SUMMARY

The technical and immunological feasibility of abdominal wall transplantation has now been demonstrated by several centres. Skin transplanted as part of the abdominal wall or as a separate vascularized sentinel skin flap may aid in the diagnosis of rejection. This has the potential to improve graft survival and reduce immunosuppressive morbidity.

Vascularized composite allograft-specific characteristics of immune responses

Vascularized composite allograft (VCA) transplantation, or reconstructive transplantation, has revolutionized the treatment of complex tissue and functional defects. Despite arriving during an age in which the immunology of solid organ transplant rejection has been investigated in much detail, these transplants have offered new perspectives from which to explore the immunobiology of transplantation. VCAs have a number of unique molecular, cellular, and architectural features which alter the character and intensity of the rejection response. While much is yet to be clarified, an understanding of these distinct mechanisms affords new possibilities for the control of immune responses in an effort to improve outcomes after VCA transplantation.

TGF-{beta}-dependent CD103 expression by CD8(+) T cells promotes selective destruction of the host intestinal epithelium during graft-versus-host disease

Destruction of the host intestinal epithelium by donor effector T cell populations is a hallmark of graft-versus-host disease (GVHD), but the underlying mechanisms remain obscure. We demonstrate that CD8⁺ T cells expressing CD103, an integrin conferring specificity for the epithelial ligand E-cadherin, play a critical role in this process. A TCR transgenic GVHD model was used to demonstrate that CD103 is selectively expressed by host-specific CD8⁺ T cell effector populations (CD8 effectors) that accumulate in the host intestinal epithelium during GVHD. Although host-specific CD8 effectors infiltrated a wide range of host compartments, only those infiltrating the intestinal epithelium expressed CD103. Host-specific CD8 effectors expressing a TGF-β dominant negative type II receptor were defective in CD103 expression on entry into the intestinal epithelium, which indicates local TGF-β activity as a critical regulating factor. Host-specific CD8 effectors deficient in CD103 expression successfully migrated into the host intestinal epithelium but were retained at this site much less efficiently than wild-type host-specific CD8 effectors. The relevance of these events to GVHD pathogenesis is supported by the finding that CD103-deficient CD8⁺ T cells were strikingly defective in transferring intestinal GVHD pathology and mortality. Collectively, these data document a pivotal role for TGF-β–dependent CD103 expression in dictating the gut tropism, and hence the destructive potential, of CD8⁺ T cells during GVHD pathogenesis.

Regulation of CD103 expression by CD8+ T cells responding to renal allografts

CD103 is an integrin with specificity for the epithelial cell-specific ligand, E-cadherin. Recent studies indicate that CD103 expression endows peripheral CD8 cells with a unique capacity to access the epithelial compartments of organ allografts. In the present study we used a nonvascularized mouse renal allograft model to 1) define the mechanisms regulating CD103 expression by graft-infiltrating CD8 effector populations, and 2) identify the cellular compartments in which this occurs. We report that CD8 cells responding to donor alloantigens in host lymphoid compartments do not initially express CD103, but dramatically up-regulate CD103 expression to high levels subsequent to migration to the graft site. CD103+CD8+ cells that infiltrated renal allografts exhibited a classic effector phenotype and were selectively localized to the graft site. CD8 cells expressing low levels of CD103 were also present in lymphoid compartments, but three-color analyses revealed that these are almost exclusively of naive phenotype. Adoptive transfer studies using TCR-transgenic CD8 cells demonstrated that donor-specific CD8 cells rapidly and uniformly up-regulate CD103 expression following entry into the graft site. Donor-specific CD8 cells expressing a dominant negative TGF-beta receptor were highly deficient in CD103 expression following migration to the graft, thereby implicating TGF-beta activity as a dominant controlling factor. The relevance of these data to conventional (vascularized) renal transplantation is confirmed. These data support a model in which TGF-beta activity present locally at the graft site plays a critical role in regulating CD103 expression, and hence the epitheliotropism, of CD8 effector populations that infiltrate renal allografts.

Acceptance of third-party cardiac but not skin allografts induced by neonatal exposure to semi-allogeneic lymphohematopoietic cells

Neonatal tolerance is exclusively donor-specific when assessed by skin allograft survival and in vitro alloreactivity assays. In contrast, we reported previously that acceptance of primarily vascularized cardiac allografts was not donor-specific in C3H/He (C3H, H-2(k)) mice treated as neonates with BALB/c-derived (BALB, H-2(d)) lymphohematopoietic cells, but included third-party C57BL/10 (B10, H-2(b)) allografts. The present study examined whether this unusual pattern is limited to heart grafts in this strain combination, and defined the relative importance of the donor cell H-2(d) haplotype for third-party cardiac allograft acceptance. C3H neonates were injected with (C3HxBALB)F1 bone marrow and spleen cells. Tolerance was assessed at age 8-10 weeks by transplantation of heart or skin allografts from several donor strains, and by in vitro assays of proliferation and cytotoxicity. Additionally, cells from H-2(d) and H-2(b)-expressing strains on BALB or non-BALB minor histocompatibility (miH) antigen backgrounds were tested as tolerizing inocula. Prolonged survival of cardiac grafts from all donor strains was observed in neonatally treated mice, whereas skin grafting and in vitro assays demonstrated donor-specific hyporesponsiveness. Both H-2(d) haplotype and non-H-2 miH background of graft donor and tolerizing cell donor were important to third-party cardiac allograft acceptance. These results suggest that the functional alteration in alloreactivity induced by neonatal alloantigen exposure depends partly on method of assessment.

Circulating antibodies to human and bovine cornea in human keratoplasty

PURPOSE

To compare anti-human cornea and anti-bovine cornea serum reactivity in corneal transplantation and pathology.

METHODS

We investigated the presence of IgG and IgM antibodies to bovine corneal extract (BCE) and human corneal extract (HCE) by ELISA in 48 healthy adults and in 30 corneal allograft recipients before and after grafting. Baseline levels of antibodies in healthy controls served to establish a positivity threshold. Anti-HLA antibodies were investigated in all patients.

RESULTS

Preoperatively, five and one patient were positive respectively for IgG and IgM anti-BCE; one and ten patients were positive for IgG and IgM anti-HCE. The presence or absence of antibodies was not modified after grafting, and was not associated with rejection. Anti-HCE of the IgM class were more frequent in patients with keratoconus. Two patients had anti-HLA antibodies.

CONCLUSIONS

Antibodies to non-HLA corneal antigens are detectable in corneal allograft recipients. Reactions against bovine and human substrates differ in frequency and class. This reactivity is not modified after grafting or rejection, but is increased in corneal disorders, including keratoconus.

Hyperacute rejections of two consecutive renal allografts and early loss of the third transplant caused by non-HLA antibodies specific for endothelial cells

The immunological rejection of HLA-identical kidney transplants indicates that non-HLA antigens may also be targets for transplant rejection. Interest in the possible role of endothelial specific antigens has grown steadily over the years. Most of the studies published, regarding the association of such antibodies with rejection, have demonstrated the reactivity of endothelial antibodies also with monocytes and keratinocytes, but not with lymphocytes. Such antibodies escape detection in conventional crossmatch tests. In this paper, we present a case report of a 10-year-old girl, whose two consecutive kidney allografts, (one living and one cadaveric donor) were hyperacutely rejected in spite of the fact that she had neither been alloimmunized, nor had any HLA-specific antibodies. Endothelial cell specific antibodies were detected in vivo and in vitro after transplantation only 11 days apart, which were considered to be responsible for rejection. The third cadaveric kidney was lost within 1 week post-transplant. Immunopathological investigation of the three rejected grafts revealed deposition of IgM in the endothelium of arteries and in some glomeruli. No deposition of IgG antibodies was found. Antibodies from this patient did not react with lymphocytes, monocytes or keratinocytes. Patient serum had IgM antibodies that were specifically reactive with cultured endothelial cells, demonstrated by binding in vitro and by complement-dependent cytotoxicity of IL-beta stimulated endothelial cells. No HLA antibodies were found following the first two transplantations, but were demonstrated 1 week after the third transplantation, at the time of an acute irreversible rejection. Western blots of proteins solubilized from endothelial cell membranes, indicated that the antibodies reacted with a 97-110 kD protein. Endothelial cell antigen preparations were made from several different umbilical cord veins. Some primary cell cultures, but not all, reacted with the patient's serum. Therefore, we suggest that the target determinant might be polymorphic. These findings imply that the non-HLA endothelial cell specific molecules may function as target(s) for hyperacute antibody-mediated destruction of kidney allografts.

Rat pancreatic islet and skin xenograft survival in CD4 and CD8 knockout mice

The relative contributions of the CD4+ and CD8+ T cell subpopulations in xenotransplant rejection were studied using CD4 and CD8 knockout (KO) mice. Wistar Furth (WF, RT1a) rat pancreatic islet or skin xenografts were transplanted into either CD4 or CD8 KO recipients and compared to wild-type controls. Long-term survival of WF islet xenografts was observed in the CD4 KO mice (MST, >66+/-8 days) whereas CD8 KO mice rejected their islet xenografts within 8 days, similar to controls (MST, 7+/-0.2 days). In contrast, WF skin xenografts were rejected in both CD4 and CD8 KO recipients within 8 days. CD4 KO recipients which maintained xenoislets >90 days posttransplant rejected WF skin grafts within 9 days, without rejecting their original islet xenografts. These results suggest that CD4+ cells are essential for mediating islet xenograft rejection. These data also suggest that the absence of either CD4+ or CD8+ T cells is not sufficient to prevent rejection of skin xenografts.

Cytolytic T lymphocytes from human renal allograft biopsies are tissue specific

The cytolytic activity of T lymphocytes infiltrating renal allografts from recipients undergoing episodes of acute cellular rejection was studied. These T-cell populations, composed of both CD4+ and CD8+ cells, demonstrated significant cytolytic activity against both donor-derived KCLs and B-LCLs. In five of 21 biopsy-derived lines greater cytolytic activity was measured against donor KCLs compared to donor B-LCLs, suggesting the presence of kidney antigen-specific, MHC-restricted clones. Clones developed by stimulation with donor B-LCLs lysed both donor B-LCLs and KCLs while clones developed on donor KCLs as stimulator cells showed tissue specificity. Three of 26 clones recognized tissue-specific antigens in the context of donor MHC class I antigens lysing donor KCLs but not B-LCLs. These data demonstrate that a subpopulation of T cells recognizing kidney-specific antigens are present in biopsies of renal allograft recipients undergoing acute cellular rejection. This subpopulation of tissue-specific cytotoxic T lymphocytes may prove to contribute significantly to the pathology of allograft rejection.

Induction of donor-specific transplantation tolerance to skin and cardiac allografts using mixed chimerism in (A + B-->A) in rats

Mixed allogeneic chimerism (A + B-->A) was induced in rats by reconstitution of lethally irradiated LEW recipients with a mixture of T-cell depleted (TCD) syngeneic and TCD allogeneic ACI bone marrow. Thirty-seven percent of animals repopulated as stable mixed lymphopoietic chimeras, while the remainder had no detectable allogeneic chimerism. When evaluated for evidence of donor-specific transplantation tolerance, only those recipients with detectable allogeneic lymphoid chimerism exhibited acceptance of donor-specific skin and cardiac allografts. Despite transplantation over a major histocompatibility complex (MHC)- and minor-disparate barrier, animals accepted donor-specific ACI skin and primarily vascularized cardiac allografts permanently, while rejecting third party Brown Norway (BN) grafts. The tolerance induced was also donor-specific in vitro as evidenced by specific hyporeactivity to the allogeneic donor lymphoid elements, yet normal reactivity to MHC-disparate third party rat lymphoid cells. This model for mixed chimerism in the rat will be advantageous to investigate specific transplantation tolerance to primarily vascularized solid organ grafts that can be performed with relative ease in the rat, but not in the mouse, and may provide a method to study the potential existence of organ- or tissue-specific alloantigens in primarily vascularized solid organ allografts.

Corneal transplantation--immunologically privileged status

Despite the relatively high success rate and the word 'immunologically privileged site', it has been known that a corneal graft can induce an allograft rejection reaction. This is especially true in the rat where orthotopic penetrating corneal grafts in certain strain combinations are rejected even when transplanted in avascular bed. Reliable microsurgical techniques, together with the availability of inbred or congenic strains and a rapidly developing knowledge of its major histocompatibility complex (MHC) and immune system in general, have made the rat a prime species in which to study the immunological events after corneal grafting. This review describes recent progress in understanding the immunological mechanisms behind corneal graft rejection. The topics discussed include the rat MHC (RT1) antigens and their distribution in the cornea; different responder status in fully allogeneic strain combinations, including the importance of multiple non-MHC antigens; and the role of antigen-presenting cells (APCs) in corneal graft rejection.

Minor histocompatibility antigens

Histocompatibility antigens have been studied for over 50 years because they form a major obstacle to clinical transplantation. Human minor histocompatibility antigens remain ill-defined, but minor histocompatibility loci have been mapped on nearly every mouse chromosome. Recent molecular definition of several transplantation antigens suggests that they are by-products of an immune system poised to present viral antigens, and a mutation in any gene may give rise to a new minor histocompatibility antigen.

The mixed epidermal cell lymphocyte-reaction is the most predictive factor of acute graft-versus-host disease in bone marrow graft recipients

Risk factors for acute graft-versus-host disease (GvHD) remain controversial. We performed uni- and multivariate statistical analyses on a series of 37 patients receiving a non-depleted allogeneic bone marrow transplant from an HLA-identical sibling donor for a haematological malignancy, in order to identify risk factors for GvHD. Three factors were associated with development of moderate to severe GvHD: a positive mixed epidermal cell-lymphocyte reaction (MECLR) between donor and recipient, previous pregnancies in female donors and chronic myeloid leukaemia diagnosis. The MECLR was the most important predictive factor, selected in first rank by the stepwise linear discriminant analysis. Combining these three prognostic factors in the jackknifed procedure, we could correctly classify 33/37 patients in two groups: grade O-I versus grade II-IV acute GvHD. These results should apply to donor selection and to predict donor/recipient pairs at high risk of GvHD who might benefit of bone marrow T-cell depletion and those at low risk for whom depletion could be avoided.

Transplantation immunobiology in relation to neural grafting: lessons learned from immunologic privilege in the eye

The principles of transplantation immunobiology are described and discussed in terms of their applicability to neural grafting, a newly emerging field dedicated to the ultimate goal of reconstituting central nervous system deficits with normally functioning tissue replacements. Unique anatomic and physiologic features of the eye, which are responsible for the phenomenon of immunologic privilege, are compared with the brain and considered in terms of their relationship to the principles of transplantation. The existence of immune privilege in the brain and the newly acquired understanding of immunologic privilege in the eye may offer strategies by which neural grafters can achieve significantly greater graft acceptance.

Functional characterization of infiltrating T lymphocytes in human hepatic allografts

We have employed recently developed techniques in T-cell culturing to study the nature and function of infiltrating hepatic allograft T cells. Using the rationale that intragraft T cells are activated during cell mediated damage to the allograft, we were able to show that these cells would propagate and remain functionally active in the presence of the T-cell growth factor, IL-2. In several instances, phenotypic analysis of cells grown in this manner was very similar to that found within the graft. Both proliferative and cytotoxic responses could be detected from the cultured cell lines. The majority of the proliferative responses were donor-directed and immunogenetic analysis could define donor-directed HLA reactivity, to either class I or class II antigens, or both. Monoclonal anti-HLA antibodies inhibition profiles verified the apparent HLA reactivity. In a smaller percentage of cases, only IL-2 responsiveness could be detected, and no HLA reactivity could be determined. Cytotoxicity could be detected against both class I and class II antigens, however, those cells which demonstrated a greater magnitude of donor-directed cytotoxicity appeared to be directed against class I antigens. A significant correlation between donor-directed proliferation of biopsy cultured lymphocytes and cellular rejection was found. This model appears to be useful in delineating functions of the intragraft T-cell population during rejection.