In vitro accommodation of immortalized porcine endothelial cells: resistance to complement mediated lysis and down-regulation of VCAM expression induced by low concentrations of polyclonal human IgG antipig antibodies

Immortalized bone-marrow derived pig endothelial cells

Primary cultures of porcine endothelial cells (EC) can only be maintained for a limited number of passages. To facilitate studies of xenogeneic human anti-pig immune responses in vitro, pig microvascular bone-marrow (BM) and macrovascular aortic EC were obtained from our herd of partially inbred miniature swine, homozygous for the major histocompatibility locus, and immortalized with a modified SV40 large T vector. The resulting BM-derived (2A2) and aortic (PEDSV.15) immortalized EC lines showed unlimited growth and EC phenotype as indicated by expression of von Willebrand Factor (vWF) and low density lipoprotein (LDL) receptors as well as by formation of typical cobblestone monolayers. Ultrastructural studies revealed morphological similarities in primary and immortalized EC. Flow cytometry analysis demonstrated constitutive SLA class I expression by all lines whereas SLA class II was only expressed after stimulation with porcine IFNgamma. Furthermore, pig CD34 mRNA was detected by Northern blot analysis in primary and immortalized aortic EC but not in 2A2. Both EC lines expressed a number of myeloid markers, adhesion molecules and xenoantigens, the latter being determined by binding of human natural antibodies. Gene transfer into the porcine EC lines was successfully performed by electroporation or calcium-phosphate transfection, as well as by adenoviral infection. Finally, the functional similarity between primary and immortalized EC was demonstrated in adhesion and cytotoxicity assays. Together, these results suggest that 2A2 and PEDSV. 15 represent valuable tools to study both human cellular and humoral immune responses in vitro against pig EC derived from microvascular and large vessels.

Adherence of human monocytes and NK cells to human TNF-alpha-stimulated porcine endothelial cells

Discordant xenograft models undergoing delayed rejection response are characterized by xenograft infiltration with host monocytes and NK cells, associated with the release of large quantities of pro-inflammatory cytokines, such as TNF-alpha. In the present study, human monocytes (PBMo)/NK cells (PBNK) isolated from peripheral blood and cultured porcine aortic endothelial cells (PAEC) treated with recombinant human TNF-alpha (rhTNF-alpha) were used to investigate their adhesive interactions and mAbs against porcine E-selectin, human CD11a and CD49d were used to test their relative contributions to such intercellular adhesions. The PBMo exhibited significantly greater adherence to resting (unstimulated) PAEC than PBNK. The rhTNF-alpha upregulated E-selectin and vascular cell adhesion molecule-1 (VCAM-1) expression on PAEC and augmented the adhesiveness of PAEC for PBMo and PBNK in a time- and dose-dependent manner. In mAb blocking assays, anti-E-selectin, anti-CD11a and anti-CD49d mAbs did not inhibit PBMo adherence to rhTNF-alpha-stimulated PAEC when used singly, but resulted in a maximal inhibitory effect when used in combination. Regarding PBNK, anti-E-selectin mAb had no marked influence on PBNK adherence. The combined use of anti-CD11a and anti-CD49d mAbs produced additive reduction in the PBNK binding to rhTNF-alpha-stimulated PAEC, even to far below baseline (unstimulated) levels. Therefore, it is concluded that human TNF-alpha promotes the adhesiveness of PAEC for human monocytes and NK cells and that the mechanism underlying the increased adherence differs for PBMo and PBNK.

IgG2 anti-Galalpha1-3Gal does not induce porcine aortic endothelial cell accommodation in vitro

BACKGROUND

Xenografts that have been protected from hyperacute rejection (HAR) are termed accommodated if they are not then rejected despite the presence of xenoantibody. It has been proposed that IgG may confer resistance to complement dependent cytotoxicity (CDC), a conventional in vitro marker of accommodation. We hypothesized that noncytotoxic IgG2 anti-Galalpha1-3Gal was responsible for this effect.

METHODS AND RESULTS

We purified IgG anti-Galalpha1-3Gal from pooled human normal immunoglobulin and three sera, by elution from protein G and Galalpha1-3Gal-R immunoadsorbents. The eluates were IgM free and > or =95% IgG2. They bound to Galalpha1-3Gal, porcine aortic endothelial cells (PAEC) and lymphocytes. It was not possible to block IgM binding to PAEC or lymphocytes using IgG anti-Galalpha1-3Gal (200 microg/ml). The eluates were noncytotoxic in micro-CDC assays. To investigate accommodation, PAEC were cultured with subsaturating doses of the four IgG eluates for up to 144 hr. Resistance of nontrypsinized PAEC to CDC by human serum was measured in a cell viability assay. PAEC were not rendered resistant to CDC in any of the experiments. To investigate the possibility that accommodation might be induced by non-Galalpha1-3Gal IgG, the experiments were repeated using HNIg, again with no protection demonstrated.

CONCLUSIONS

Using primary PAEC monolayers, we were unable to induce resistance to CDC with human normal immunoglobulin and its IgG2 anti-Gabeta1-3Gal subset. This contradicts previous experiments using trypsinized, immortalized cells. Although resistance to CDC is not an ideal marker of accommodation, the detrimental effects of IgG make it unlikely that it will become a useful clinical means of inducing accommodation.

Role and regulation of pig CD59 and membrane cofactor protein/CD46 expressed on pig aortic endothelial cells

BACKGROUND

Hyperacute rejection in xenotransplantation is caused by activation of complement (C) on endothelium. We have previously shown that purified C-regulators of the pig (CD59 and membrane cofactor protein [MCP]) are efficient regulators of human C (HuC). The aim of this study was to clarify the role of endogenously expressed C-regulatory molecules on pig endothelium in the protection against hyperacute rejection.

METHODS

Porcine aortic endothelial cells (PAEC) were harvested and cultured for various passages. PAEC were examined for the expression of endogenous pig CD59 and MCP by flow cytometry. PAEC were assessed for their susceptibility to lysis by HuC. The effect of phorbol 12-myristate 13-acetate and various cytokines on the expression of MCP and CD59 and C-susceptibility was assessed.

RESULTS

Primary PAEC showed an initial high level of expression of pig CD59, however, upon culturing, CD59 levels decreased dramatically to about 20% after five passages. In contrast, levels of MCP doubled upon culturing of PAEC to confluency and remained stable during at least five passages. Primary cells and cells in the early passages were more resistant to HuC than cells that were cultured for longer. Blocking the function of CD59 but not of MCP using monoclonal antibody increased the susceptibility to HuC. Purified human CD59 incorporated to a level of expression similar to that of pig CD59 reversed the increased C-susceptibility, suggesting that pig and human CD59 are similarly protective against HuC. Increase of C-resistance and of expression of pig MCP, but not of CD59, was achieved upon incubation with phorbol 12-myristate 13-acetate. Tumor necrosis factor-alpha, interleukin-1beta, interleukin-4, or interferon-gamma had no effect on C-regulator expression or C-susceptibility.

CONCLUSIONS

These data demonstrate the importance of using primary PAEC or cells in the first passages of culturing in in vitro models of xenotransplantation and show that pig MCP and, in particular, pig CD59 play an important role in protection of PAEC from HuC.

Cloning of porcine intercellular adhesion molecule-1 and characterization of its induction on endothelial cells by cytokines

BACKGROUND

The transplantation of pig organs into humans requires a detailed knowledge of similarities and differences between the two species in the molecular physiology of host defense mechanisms. We therefore set out to identify porcine intercellular adhesion molecule (ICAM)-1 and to characterize its expression by endothelial cells.

METHODS

Porcine ICAM-1 cDNA was isolated from an endothelial cell cDNA library. An anti-pig ICAM-1 monoclonal antibody was generated and used to investigate the regulation by cytokines of ICAM-1 expression by porcine aortic endothelial cells (PAEC), using flow cytometry.

RESULTS

We found that porcine ICAM-1 was similar in primary structure to human ICAM-1, with five Ig-like domains. COS-7 cells transfected with porcine ICAM-1 supported beta2 but not alpha4 integrin-dependent adhesion of human T lymphoblasts. There was a low-level surface expression of ICAM-1 on unstimulated PAEC and increased expression after stimulation with tumor necrosis factor (TNF)-alpha. However expression of ICAM-1 seemed to be significantly lower than that of vascular cell adhesion molecule-1, both on unstimulated and TNF-alpha-activated PAEC. Recombinant porcine interferon-gamma weakly stimulated ICAM-1 expression when incubated alone with PAEC but had an inhibitory effect on the increase in ICAM-1 due to TNF-alpha, both at 8 and 24 hr.

CONCLUSIONS

Our observations confirm the existence of ICAM-1 in the pig and provide novel insights into how porcine and human endothelial cells differ in terms of adhesion molecule expression and cytokine responsiveness. Such differences are potentially important in interpreting models of inflammation in the pig and also in understanding the process of rejection of porcine xenografts.

Resistance against the membrane attack complex of complement induced in porcine endothelial cells with a Gal alpha(1-3)Gal binding lectin: up-regulation of CD59 expression

Endothelial cells (EC) play central roles in vascular physiology and pathophysiology. EC activation results in proinflammatory activities with production of cytokines and expression of adhesion molecules. However, we have shown before in a model of xenotransplantation that prolonged stimulation of porcine EC with human anti-porcine IgM natural Abs can activate the cells to become resistant against cytotoxicity by the membrane attack complex of complement (MAC). Now we report the major characteristics of induction and maintenance of resistance elicited in porcine EC with Bandeiraea simplicifolia lectin that binds terminal gal alpha(1-3)gal. Lectin-treated cells underwent little or no cytotoxicity and PGI2 release when exposed to MAC. Induction of resistance required incubation of the EC with lectin for 4 h but was not fully manifested until 16 h later. Most of the initially bound lectin remained on the cell surface for >60 h. EC-bound lectin did not inhibit binding of IgM natural Abs or activation and binding of C components, including C9, but a C-induced permeability channel of reduced size was present. Induction of resistance required protein synthesis, developed slowly, and was associated with up-regulation of expression of mRNA for the MAC inhibitor CD59 and membrane-associated CD59 protein. Resistance lasted at least 3 days, and the cells regained normal morphology and were metabolically active. This induced resistance may have a physiologic counterpart that might be amenable to pharmacologic manipulation in vascular endothelium pathophysiology.

Xenogeneic serum promotes leukocyte-endothelium interaction under flow through two temporally distinct pathways: role of complement and nuclear factor-kappaB

Endothelial cell activation and mononuclear cell infiltration are consistent features of discordant xenograft rejection. This study evaluated whether xenogeneic serum--as a source of xenoreactive natural antibodies and complement--induced endothelial activation with consequent leukocyte adhesion and transmigration under flow conditions. Porcine aortic endothelial cells (PAEC) were incubated for 30 min, 1 h 30 min, or 5 h with 10% human serum or 10% porcine serum and then perfused with human leukocytes in a parallel plate flow chamber under flow (1.5 dynes/cm2). Adherent and transmigrated cells were counted by digital image analysis. Results showed that human serum significantly (P < 0.01) increased over time the number of adherent leukocytes compared with porcine serum. Stimulation of PAEC with human serum also promoted a progressive increase in leukocyte transmigration that reached statistical significance (P < 0.01) at 1 h 30 min and at 5 h compared with porcine serum. Studying the role of complement in leukocyte-endothelium interaction in xenogeneic conditions, a marked complement C3 deposition on PAEC exposed to human serum was shown by immunofluorescence, whereas cells incubated with porcine serum were negative. Next, it was documented that human serum decomplemented by heating and C3-deficient human serum failed to promote both leukocyte adhesion and transmigration, results that were comparable to porcine serum. To elucidate the intracellular mediators involved in endothelial cell activation by xenogeneic serum, this study focused on transcriptional factor nuclear factor-kappaB (NF-kappaB), a central regulator for the induction of different genes, including adhesive molecules and chemoattractants. Positive nuclear staining of NF-kappaB (p65 subunit) found by confocal fluorescence microscopy of PAEC exposed to human serum was taken to reflect NF-kappaB activation. NF-kappaB was instead strictly localized in the cell cytoplasm in PAEC incubated with the homologous serum. Heat-inactivated human serum failed to activate NF-kappaB. Electrophoretic mobility shift assay of nuclear extracts from PAEC exposed to human serum revealed an intense NF-kappaB activation that was inhibited by the NF-kappaB inhibitor pyrrolidinedithiocarbamate. The NF-kappaB inhibitors pyrrolidinedithiocarbamate and tosyl-phe-chloromethylketone did not affect the number of adherent and transmigrated leukocytes in PAEC exposed to human serum for 30 min and 1 h 30 min. Both inhibitors instead significantly reduced leukocyte adhesion and transmigration induced by human serum at 5 h. Confocal fluorescence microscopy studies showed that human serum induced an increase in the expression of vascular cell adhesion molecule-1 and intercellular adhesion molecule-1. Functional blocking of these adhesive molecules with the corresponding antibodies significantly inhibited xenogeneic serum-induced leukocyte adhesion. These data suggest that leukocyte adhesion and transmigration are directly dependent on complement deposited on PAEC in the early phase of cell activation (30 min and 1 h 30 min) induced by xenogeneic serum, whereas leukocyte adhesive events observed after 5 h of incubation of endothelial cells with xenogeneic serum are possibly regulated by transcription of NF-kappaB-dependent genes. The finding that xenogeneic serum promotes leukocyte-endothelial interaction depending on NF-kappaB activation might be relevant for designing future therapeutic strategies intended to prolong xenograft survival.

Regulated inhibition of coagulation by porcine endothelial cells expressing P-selectin-tagged hirudin and tissue factor pathway inhibitor fusion proteins

BACKGROUND

Thrombotic vascular occlusion resulting in infarction occurs during hyperacute rejection of allografts transplanted into sensitized patients and remains a major problem in experimental xenotransplantation. A similar process is also found in disorders of diverse etiology including atherosclerosis, vasculitis, and disseminated intravascular coagulation.

METHODS

We have previously constructed two membrane-tethered anticoagulant fusion proteins based on human tissue factor pathway inhibitor and the leech anticoagulant hirudin and demonstrated their functional efficacy in vitro. These constructs have now been modified by the addition of a P-selectin sequence to the cytoplasmic tail to localize them in Weibel-Palade bodies. They have been transfected into Weibel-Palade body-positive endothelial cells isolated from the inferior vena cava of normal pigs.

RESULTS

In resting endothelial cells, fusion protein expression colocalized with P-selectin and was confined to Weibel-Palade bodies. These cells had a procoagulant phenotype in recalcified human plasma. However, after activation with phorbol ester the anticoagulant proteins were rapidly relocated to the cell surface where they specifically inhibited the clotting of human plasma.

CONCLUSIONS

Novel anticoagulant molecules may prove useful therapeutic agents for gene therapy in thrombotic disease and postangioplasty or for transgenic expression in animals whose organs may be used for clinical xenotransplantation. Expression in vascular endothelial cells may be regulated by inclusion of P-selectin cytoplasmic sequence, to restrict cell surface expression to activated endothelium.

Efficacy of adhesive interactions in pig-to-human xenotransplantation

Successful xenotransplantation depends on many factors, one being the interactions of cross-species adhesion molecule-ligand pairs. Depending on the approach used to facilitate xenotransplantation, these interactions can play differing roles. Here, André Simon, Anthony Warrens and Megan Sykes review the existing information on pig-to-human adhesive interactions and its implication for different approaches to pig-to-human xenotransplantation.

Human-porcine receptor-ligand compatibility within the immune system: relevance for xenotransplantation

Immune responses to xenografts are likely to be highly dependent on the efficiency of molecular interactions between the donor and the recipient species. This brief review summarizes what is currently known about the compatibilities across the human-porcine species barrier of the molecular interactions that are important in the immune response.

IgY antiporcine endothelial cell antibodies effectively block human antiporcine xenoantibody binding

Avian IgY antibodies are structurally different from mammalian IgGs and do not fix mammalian complement components or bind human Fc receptors. As these antibody-mediated interactions are believed to play significant roles in both hyperacute rejection (HAR) and acute vascular xenograft rejection (AVXR), IgY antibodies to xenoantigen target epitopes may inhibit these rejection processes. In this report, we show that chicken IgY antibodies to alpha-Gal antigen epitopes and to other porcine aortic endothelial cell (PAEC) antigens block human xenoreactive natural antibody binding to both porcine and rat cardiac tissues and porcine kidney tissues. Chicken IgY antibodies blocked complement-mediated lysis of PAECs by human serum, and inhibited antibody-dependent cell-mediated lysis of PAECs by heat-inactivated human serum plus peripheral blood leukocytes. Binding of IgY to porcine endothelial cells did not affect cell morphology nor expression of E-selectin. These results suggest that avian IgYs could be of potential use in inhibiting pig-to-human xenograft rejection.

Inhibition of tissue factor-dependent and -independent coagulation by cell surface expression of novel anticoagulant fusion proteins

BACKGROUND

Thrombotic vascular occlusion occurs in disorders of diverse etiology, including atherosclerosis, vasculitis, and disseminated intravascular coagulation. The same process results in hyperacute rejection of renal allografts transplanted into sensitized patients and remains a major problem in experimental xenotransplantation.

METHODS

We have previously described the design and expression of several genetic constructs encoding novel fusion proteins with anticoagulant properties. They are based on two naturally occurring soluble anticoagulant proteins, human tissue factor pathway inhibitor (hTFPI) and the leech protein hirudin, which act early and late in the clotting cascade, respectively. We report the expression of human hTFPI-CD4 on the surface of immortalized porcine endothelial cells (IPEC), and show that it functions across the species divide as evidenced by the binding of membrane-expressed porcine tissue factor (pTF)-human factor VIIa complexes.

RESULTS

Using a human plasma recalcification clotting assay, we distinguished between pTF-dependent and pTF-independent fibrin generation, and we have demonstrated that expression of hTFPI-CD4 on IPEC effectively prevented pTF-dependent clotting. Moreover, we show that when hTFPI-CD4 was co-expressed with the hirudin construct, the procoagulant properties of in vitro cultured, activated IPEC were almost completely abolished.

CONCLUSIONS

These results suggest that these novel anticoagulant molecules may prove useful therapeutic agents for gene therapy or for transgenic expression in animals whose organs may be used for cliniCal xenotransplantation.

A reliable, rapid and inexpensive two-color fluorescence assay to monitor serum cytotoxicity in xenotransplantation

Removal and/or neutralization of preformed anti-pig antibodies in non-human primate blood have been shown to prevent the hyperacute rejection of transplanted pig organs. The purpose of this study was to establish a suitable in vitro method that would allow for screening and comparison of various agents and methods potentially useful in the prevention of hyperacute rejection. The pig kidney cell line (PK15), pig aortic endothelial cell line (AG08472), and a primary culture of endothelial cells explanted from a pig aorta were incubated with either human or baboon sera. Complement-dependent cytotoxic activity of human and baboon sera was determined on all three types of pig cells using a two-color fluorescence assay and compared with the conventional 51Chromium (51Cr)-release assay. The assay was also performed on PK15 cells as a 2-chambered slide assay and compared with a microcytotoxicity assay performed in Terasaki trays. Using the microcytotoxicity assay, a 1-step assay utilizing endogenous complement was compared with a 2-step assay where rabbit complement was added. Of the three types of cells studied, PK15 cells were the most sensitive to cytotoxic injury, followed by AG cells and the primary endothelial culture. Good correlation between the 51Cr-release and the two-color fluorescence method was documented. There was good agreement between the results obtained using the 2-chambered slide method and the microcytotoxicity assay, as there was between the 1- and the 2-step assays. The 1- and 2-step assays provided information on the level and efficacy of endogenous complement. We conclude that the two-color fluorescence assay is suitable for the rapid and inexpensive screening of therapeutic interventions that might be useful in the prevention of hyperacute xenograft rejection, and that PK15 cells are suitable for use in this assay.

Expression of hirudin fusion proteins in mammalian cells: a strategy for prevention of intravascular thrombosis

BACKGROUND

Intravascular thrombosis occurs in disorders of diverse pathogeneses, including allograft and xenograft rejection. In this in vitro study, we describe an approach for tethering the specific thrombin inhibitor hirudin to plasma membranes as part of a genetic strategy for regulating intravascular coagulation.

METHODS AND RESULTS

An HLA class I leader sequence was fused with hirudin linked to domains 3 and 4 of human CD4 and intracytoplasmic sequence from either CD4 or human P-selectin. The constructs were transfected into mouse fibroblasts, Chinese hamster ovary (CHO)-K1 cells, immortalized porcine endothelial cells (IPECs), and a pituitary secretory cell line (D16/16). Thrombin binding to the hirudin fusion proteins expressed on fibroblasts and CHO-K1 cells could be blocked by an anti-hirudin monoclonal antibody and by pretreatment of thrombin with either the synthetic tripeptide thrombin inhibitor PPACK or native hirudin. Hirudin expression significantly modified the procoagulant phenotype of IPECs in human plasma, leading to prolongation of clotting times. Hirudin-CD4-P-selectin fusion proteins accumulated in adrenocorticotropic hormone-containing granules in D16/16 cells, with no cell surface expression except on activation with phorbol ester, when hirudin relocated to the outer membrane.

CONCLUSIONS

Hirudin fusion proteins were expressed on mammalian cells, where they reduced local thrombin levels and inhibited fibrin formation. Regulated expression was achieved on activated cells by use of the cytoplasmic sequence from P-selectin. In vivo, these fusion proteins may prove useful transgenic or gene therapy agents for preventing intravascular thrombosis.

Polymorphism in the human anti-pig natural antibody repertoire: implications for antigen-specific immunoadsorption

BACKGROUND

Anti-Galalpha1-3Gal antibodies cause hyperacute rejection (HAR) in pig-to-primate xenotransplantation. Long-term graft survival has not been achieved despite abrogation of HAR using transgenic pigs. IgG and IgM anti-Galalpha1-3Gal also play a role in the events following abrogation of HAR. Characterizing these antibodies and developing a system for their removal is therefore crucial to future success in xenotransplantation.

METHODS AND RESULTS

We have developed a neoglycoprotein enzyme-linked immunosorbent assay to probe the precise antigenic requirements for the binding of anti-Galalpha1-3Gal and have analyzed 77 normal sera. Sixty-six percent of individuals have IgG that recognizes the Galalpha1-3Gal di-, tri-, and pentasaccharides (D, T, and P, respectively), termed DTP phenotype. The frequency of other phenotypes was - -P, 13%; -TP, 12%; D-P, 8%; and DT-, 1%. The IgG subclasses found were IgG2 (95%), IgG3 (34%), IgG1 (31%), and IgG4 (17%). IgM in 91% of individuals recognized all three antigens. Further antibody heterogeneity was demonstrated when immunoadsorbents derived from Galalpha1-3Galbeta1-4GlcNAcbeta1-3Galbeta1-4Glc (PENTA) were tested. Galalpha1-3Galbeta1-4Glc (TRI 6) or PENTA agarose were effective for IgG removal in all individuals. For IgM removal, two deoxy derivatives were completely successful in 73% of individuals. Combining the Galalpha1-3Gal (DI) and TRI 6 agarose produced an adsorbent that completely removed anti-Galalpha1-3Gal IgG and IgM in all individuals tested.

CONCLUSIONS

Although the polymorphism in the anti-Galalpha1-3Gal repertoire, which we have demonstrated, represents a major obstacle to the development of an effective immunoadsorbent, the combination of DI and TRI 6 agarose appears sufficient for pig-to-human xenotransplantation.

Cross-species interaction of porcine and human integrins with their respective ligands: implications for xenogeneic tolerance induction

BACKGROUND

Organ transplantation is limited by the number of available donors. One possible solution would be the use of pigs as organ donors. However, current immunosuppressive protocols cannot prevent rejection of these organs. If donor-specific tolerance toward porcine antigens could be induced in recipients, subsequent implantation of porcine organs would be possible without further immunosuppression. Induction of tolerance can be achieved with a bone marrow transplant if donor antigen-presenting cells successfully differentiate in the recipient thymus to induce deletion of donor-reactive host cells. Migration of porcine progenitor cells to the host marrow and thymus and differentiation into tolerance-inducing antigen-presenting cells is likely to require successful interaction of porcine adhesion molecules with human ligands. In this study, we investigated whether very late antigen (VLA)4 and VLA-6 integrins, which play important roles in homing and differentiation of hematopoietic progenitor cells, function across the pig-to-human species barrier.

METHODS

Static cell-to-cell and cell-to-extracellular matrix protein adhesion assays were used to examine the cross-species interaction of porcine adhesion molecules with human ligands.

RESULTS

Our studies show that porcine cells adhere to various human endothelial cell monolayers and extracellular matrix proteins and demonstrate that porcine VLA-4 and VLA-6 appear to be fully cross-reactive to the human ligands vascular cell adhesion molecule-1 and laminin, respectively.

CONCLUSIONS

It is likely that porcine hematopoietic progenitor cells will be able to successfully employ pVLA-4- and pVLA-6-human ligand interactions in a pig-to-human bone marrow transplantation model in order to induce donor-specific tolerance.

Blockade of induced xenoantigen expression prevents rejection after retransplantation of accommodated hamster-to-rat heart xenografts

BACKGROUND

We have shown previously that a 2-week course of leflunomide (LF) together with a maintenance therapy of cyclosporine (CsA) rendered hamster-to-rat heart xenografts (Xg) resistant against anti-hamster IgM xenoantibody (XAb)-mediated rejection, a state compatible with the notion of accommodation. Our aim in this study was to investigate the mechanism underlying this Xg accommodation.

METHODS

"Accommodated" Xgs were retransplanted to CsA-treated naive rats in the presence or absence of additional LF treatment or anti-hamster IgM serum injection. Immunohistopathology and fluorescence-activated cell sorting was performed to detect IgM and complement (C) deposition in Xgs, and endothelial cell (EC) expression of P- and E-selectin, ICAM-1, and VCAM-1 in vivo and in vitro.

RESULTS

Retransplanted accommodated Xgs were rejected in CsA-treated naive rats and elicited IgM XAbs. Passive transfer of IgM XAbs provoked hyperacute rejection of both control and retransplanted Xgs. Addition of a 5-day course of LF prevented the rejection of only accommodated Xgs. Adoptively transferred IgM XAbs were deposited in rejected control and accommodated Xgs, but not in accommodated Xgs accepted by LF-treated rats. LF blocked the EC induction of P- and E-selectins in both control fresh and accommodated Xgs. Hence, after retransplantation accommodated Xgs express mainly induced xenoantigens (XAgs), such as P- and E-selectins, that can entirely be suppressed by LF. In contrast, control hamster Xgs express additional XAgs and remain susceptible to XAb-mediated rejection. These findings are in agreement with in vitro studies showing that LF totally suppressed induced EC antigens (e.g., P-selectin and E-selectin), but not constitutively expressed antigens (e.g., ICAM-1).

CONCLUSION

Accommodated Xgs show a down-regulation of constitutive XAgs, but may be rejected after retransplantation by a mechanism involving EC expression of inducible XAgs. LF is able to block this latter XAg induction.

In vitro accommodation of porcine endothelial cells by low dose human anti-pig antibody: reduced binding of human lymphocytes by accommodated cells associated with increased nitric oxide production

Transplanted xenografts, protected from rejection by depletion of xenoreactive natural antibodies (XNA) and complement, can sometimes survive when complement levels and titres of anti-graft antibodies return to baseline; this phenomenon is called accommodation. We have previously reported that low concentrations of human IgG induce a change in the phenotype of immortalised porcine endothelial cells (IPEC) consistent with the development of accommodation. The cells acquired a resistance to lysis by human complement and showed a reduced expression of VCAM. In this study, we extend these findings by showing that VCAM expression falls on several IPEC clones and on primary porcine endothelial cells. Moreover, we show that these accommodated cells bind fewer human lymphocytes compared to controls, implying that leukocyte traffic through accommodated endothelium may be altered compared to that through normal endothelium. Finally we show that during the induction of accommodation, porcine endothelial cells produce greater amounts of nitric oxide than controls, due to the expression of inducible nitric oxide synthase (iNOS). We speculate that nitric oxide may be an important mediator in accommodation.

Importance of CD49d-VCAM interactions in human monocyte adhesion to porcine endothelium

By using a primate model of natural antibody depletion, we have previously shown that delayed rejection of porcine cardiac xenografts in unmodified primate recipients resulted from xenograft infiltration with monocyte/macrophage lineage cells. In the present study, we initially showed that human monocytes/macrophages demonstrated significantly greater adherence to unstimulated pig aortic endothelial cells (PAEC) than to human umbilical vein endothelial cells (HUVEC). Human TNF-alpha augmented monocyte adhesion to HUVEC by 5-fold higher levels than to PAEC. This effect could not be explained on the basis of incompatibility between human TNF-alpha and its receptor on PAEC since porcine VCAM expression increased by 75-85% after stimulation with TNF-alpha. TNF-augmented monocyte adherence was abrogated by either treatment of PAEC with an anti-VCAM Mab or monocytes with an anti-CD49d Mab. These results suggest that VCAM-CD49d interactions are important in adhesion of human monocytes to PAEC but may not be as effective as those between human monocytes and allogeneic endothelium, perhaps because of structural differences across species. Other interactions, as yet undefined, must explain the relative increase in adhesiveness of human monocytes for unstimulated PAEC versus HUVEC. In experiments investigating the functional consequences of this enhanced monocyte adherence, PAEC stimulation induced 10-fold higher levels of macrophage-derived IL-1 beta and 3-fold higher levels of T cell proliferation compared with HUVEC. Using an anti-DR Mab to interrupt antigen presentation by autologous macrophages markedly reduced the T cell proliferative response to PAEC. Together, these results indicate that the enhanced adherence of human monocytes to PAEC contributes to xenograft rejection beyond the hyperacute period by leading to tissue infiltration, elaboration of cytokines, and an augmented indirect pathway of T cell xenoantigen recognition.

Accommodation and T-Independent B Cell Tolerance in Rats With Long Term Surviving Hamster Heart Xenografts

It was previously reported that treatment with leflunomide (LF; 10 mg/kg/day) together with cyclosporine (CsA; 10 mg/kg/day) resulted in long term survival of hamster heart xenografts (Xg) in rats and that LF could be withdrawn 2 to 4 wk after transplantation. To study the mechanisms allowing withdrawal of LF, second hamster heart Xgs were transplanted 6 wk after the first xenograft. Only the rats that received LF for 4 wk accepted second Xgs (&gt;30 days; n = 5). Hence, after 4 wk of LF, the rats developed partial B cell tolerance, as they were unable to produce T-independent (CsA-resistant) XAbs. Rejection of second Xgs (2–4 days; n = 5) in the 2-wk LF group resulted in the formation of IgM xenoantibodies (XAbs) localizing together with complement within rejected grafts. However, these XAbs did not affect first Xgs, suggesting that the latter Xgs became resistant to this IgM XAb-mediated rejection, a phenomenon referred to as accommodation. Accommodation was further confirmed as adoptive transfer of IgM XAbs, which resulted in hyperacute Xg rejection in naive rats (&lt;1 h; n = 5), did not cause rejection in long term survivors (&gt;30 days; n = 4). This was associated with a down-regulation of the expression on the graft endothelial cells of adhesion molecules (believed to be important expressers of xenogeneic epitopes), such as P- and E-selectins. Interestingly, these adhesion molecules reappeared after retransplanting the accommodated Xgs to naive recipients. In conclusion, depending on the duration of the LF treatment, long term survival of hamster hearts in CsA-treated rats is based in part on accommodation and in part on T-independent B cell tolerance.