Human Peripheral Blood Lymphocyte-Reconstituted, Severe Combined Immunodeficient Mice as a Model for Porcine Islet Xenograft Rejection in Humans

Abstract: Previously we established human peripheral blood lymphocyte-reconstituted severe combined immunodeficiency (SCID) (hu-PBL-SCID) mice as a model for human islet allograft rejection. The function of xenografted hu-PBL was confirmed to reject human allois-lets in hu-PBL-SCID mice. In this study, we modified this model as a porcine islet xenograft to study porcine islet rejection in humans. Chimeric mice were used as the recipients of porcine islets to reveal the mechanisms of xenograft rejection in humans. SCID mice were reconstituted with 30 times 10⁶ of hu-PBL initially, and 10 times 10⁶ of antihuman CD3-primed PBL was injected intraperitoneally 2 days later as a booster. An additional booster injection provided greater possibility (86.7%, n = 15) of chimera establishment as well as a higher human immunoglobulin concentration in SCID mice than the single injection group. In an in vitro assay, sera from hu-PBL-SCID mice were found to recognize porcine islets by FACS staining. In an in vivo study, immunofluorescent analysis of a frozen section showed that human immunoglobulins adhered to the xenografted porcine islet under the kidney capsule of hu-PBL-SCID mice. Although no mouse immunoglobulins were detected on sections, mouse complement (C3) was shown to adhere to the xenografted porcine islet. Thus, hu-PBL-SCID mice provide a useful model for investigating the real-life situation of porcine islet xenograft rejection in humans.     

CD4+ T cells, without CD8+ or B lymphocytes, can reject xenogeneic skin grafts

Abstract: Previous experiments have shown that rejection of xenogeneic skin grafts by mice is particularly dependent on CD4⁺ T cells. There are two possible explantations for this finding: either 1) "help" provided by CD4⁺ T cells is essential for CD8⁺ T cell-, B cell-, or NK cell-mediated effector mechanisms of rejection, or 2) CD4⁺ cells are themselves responsible for rejection, perhaps by some nonspecific effector mechanism. To examine these two hypotheses, we transplanted pig skin onto SCID mice and then reconstituted the mice with selected subpopulations of lymphocytes. Mice that did not received CD4⁺ T cells were unable to reject their xenografts, whereas those receiving CD4⁺ cells could do so in the absence of CD8⁺ cells or B cells and even when additionally depleted of NK cells by treatment with anti-Asialo GM1 antibody. Additional experiments were performed both in vivo and vitro to confirm the absence in test mice of CD4⁺ or CD8⁺ and B lymphocytes, respectively. These results suggest that CD4⁺ T cells are not only necessary for rejection of xenogeneic skin grafts by mice, but that they can do so without CD8⁺ cells or B cells, and probably without NK cells. Since CD4⁺ cells in mice have been shown to recognize xenogeneic antigens indirectly, this suggests that a nonspecific effector mechanism may be involved in the rejection of xenografts. In these experiments allogeneic skin grafts behave quite differently as they could not be rejected by this mechanism.     

Acute cell-mediated rejection in orthotopic pig-to-mouse corneal xenotransplantation

Abstract: Background:  To investigate the role of T cells and natural killer (NK) cells in mediating corneal xenograft rejection in a pig-to-mouse model.
Methods:  Pig corneas were orthotopically transplanted into BALB/c, C57BL/6, nude, severe combined immunodeficiency (SCID), and NOD/SCID/γc^null (NOG) mice. Graft survival was clinically assessed by slit-lamp biomicroscopy and median survival times (MST) were calculated. The rejected grafts were histologically evaluated using antibodies against CD4, CD8, NK1.1, and F4/80.
Results:  The pig corneal xenografts were acutely rejected by BALB/c and C57BL/6 mice (MST 9.0 days), while nude, SCID and NOG mice rejected pig corneas in a more delayed fashion (MST 16.0, 16.4, and 16.9 days, respectively). The majority of infiltrating cells found in rejected grafts in C57BL/6 mice were macrophages and CD4⁺ T cells, while CD8⁺ T cells and NK cells were rarely found. The grafts in nude mice had markedly decreased inflammatory infiltration with small numbers of macrophages and CD4⁺ T cells. Infiltration was even more modest in grafts in SCID and NOG mice.
Conclusions:  T cells play an important role in acute rejection of pig corneal xenografts in mice, although acute rejection is not solely the result of T-cell-mediated immunity. NK cells are less likely to be involved in the rejection process.     

Conditions permitting short-term engraftment of human T cells in RAG-1 mutant mice

Abstract: The ability to reconstitute RAG-1 deficient (R^-) mice with human peripheral blood cells was examined using four different host preparative regimens. Our results indicate that while untreated R^- mice could be reconstituted with human cells, pre-conditioning with either 5Gy whole body irradiation (WBI) or anti-asialo GM1 rabbit anti-serum led to an increase in the frequency of CD45⁺ human cells that could be detected in the circulation. Pre-conditioning with both anti-asialo GM1 and WBI led to a further increase in the frequency of circulating human cells in reconstituted R^- mice. Human CD45⁺ cells were detected in the spleen and lymph nodes, but not the thymus of reconstituted mice pre-conditioned with WBI and anti-asialo GM1. Our results suggest that mouse NK cells and a limitation in physical space are limiting factors mediating resistance I to human cell engraftment in R^- mice.     

Ex Vivo-Expanded Natural CD4+CD25+ Regulatory T Cells Synergize With Host T-Cell Depletion to Promote Long-Term Survival of Allografts

Foxp3⁺CD4⁺CD25⁺ natural regulatory T (nT_reg) cells have been shown in immunodeficient mice to suppress allograft rejection after adoptive cotransfer. We hypothesized that immunotherapy using ex vivo -expanded nT_reg could suppress allograft rejection in wild-type mice. Donor alloantigen (alloAg) specificity of naive splenic nT_reg was enriched in vitro by culturing with anti-CD3/CD28-coated Dynabeads plus bone marrow-derived dendritic cells (BM-DC) in the presence of interleukin (IL)-2 or IL-2 plus transforming growth factor (TGF)-β. On average, 96.2% fresh CD4⁺CD25⁺ nT_reg were intracellular Foxp3⁺. By d+20 in culture, 6.4% nT_reg were Foxp3⁺ following expansion with IL-2 alone, and 14.4% or 19.7% nT_reg were Foxp3⁺ when expanded with IL-2 plus 0.5 or 2.5 ng/mL TGF-β, respectively. In vitro , alloAg-enriched, TGF-β/IL-2-conditioned nT_reg exerted stronger donor alloAg-specific suppression than cells with IL-2 alone in mixed lymphocyte reaction (MLR) assays. In vivo , alloAg-enriched, TGF-β/IL-2-conditioned nT_reg expressed high-level Foxp3 following infusion, effectively overcame acute rejection and induced long-term survival of donor but not third-party heart allografts in peritransplant host T-cell-depleted mice. Long-term surviving allografts were noted to possess Foxp3⁺ graft-infiltrating cells of exogenous and endogenous origins. In conjunction with transient host T-cell depletion, therapeutic use of ex vivo -expanded nT_reg may be a practical means of preventing acute allograft rejection.     

Role of CD4+ T cells in the rat to mouse cardiac xenotransplantation

Abstract T cell subsets involved in rejection of xenografts were analyzed using a rat to mouse cardiac xenotransplant model. Proliferating response and interleulin-2 (IL-2) production in recipients' spleen cells were almost completely abrogated by elimination of L3T4⁺ T cells, but not by elimination of Lyt2.1⁺ T cells. Cytotoxic T lymphocyte (CTL) activities were mediated by both L3T4⁺ and Lyt2.1⁺ T cells with the help of IL-2-producing L3T4⁺ T cells. Administration of anti-L3T4 monoclonal antibody (mAb) into recipient mice resulted in a significant prolongation of graft survival (mean graft survival was 29.2 days). Moreover, anti-L3T4 mAb treatment plus thymectomy led to indefinite graft survival. Anti-rat endothelial cell (EC) antibody production in the grafted mice was remarkably suppressed by anti-L3T4 mAb treatment. In contrast, Lyt2.1 mAb treatment did not prolong the graft survival and did not suppress anti-EC antibody production. These results indicated the absolute requirement of L3T4⁺ T cells in the rejection of rat to mouse cardiac xenografts.     

Rat-SCID chimeras: Functional characteristics of the immune system of SCID mice after transplantation of rat fetal hematopoietic cells

Abstract: It has been demonstrated that allogeneic and xenogeneic lymphocytes can survive and expand in severe combined immunodeficiency (SCID) mice, but the T-cell function of the chimeras has not always been tested. The aim of this study was to develop a rat-SCID xenogeneic chimera and to examine the T cell response against RT1-incompatible rat cells. Fetal liver cells (FLC) from Lewis (LEW) rats were injected i.v. into irradiated C.B-17-scid (SCID) mice at a dose of 4×10⁷ cells/mouse. After 4 weeks, FACS analysis of peripheral blood lymphocytes (PBL) with monoclonal antibodies specific for rat lymphocyte subpopulations showed full reconstitution. The mice carried 6.2(±1.6)×10⁶ PBL/ml and 92.5 (±39.5)×10⁶ cells in the spleen. PBL, spleen, and lymph nodes showed distribution of CD4, CD8, and RT1 rat cellular markers similar to that observed in normal rats. Spleen cells from rat-SCID chimeras demonstrated normal proliferative T cell responses to Concanavalin A. Chimeras were primed i.p. with 10⁷ Brown Norway (BN) and ACI rat spleen cells, and the responder spleen cells of these primed chimeras showed specific proliferative responses in mixed lymphocyte culture (MLC) against BN and ACI stimulator lymphoid cells, respectively. Specific proliferative responses of rat-SCID chimeras were higher against ACI than BN stimulators. These MLCs also expanded cytolytic T lymphocytes that lysed ⁵¹Cr labeled BN and ACI targets at levels up to 50–90%, respectively. In conclusion, rat FLC injected into SCID mice differentiate and repopulate the immune system as well as function in generating alloantigen-specific cytolytic and helper T cells.     

Effect of Inflammation on Costimulation Blockade-Resistant Allograft Rejection

Previously, we reported that allogeneic skin grafts were rapidly rejected by CD28 and CD40 ligand double deficient mice mediated by CD8⁺ T cells. These results indicated that some elements in addition to CD28- and CD40-mediated costimulation provide stimulatory signals for the activation of donor-specific CD8⁺ T cells. In this report, we investigated the role of inflammation associated with transplantation on costimulation-independent priming of CD8⁺ T cell during graft rejection. B6 RAG1 KO mice were transplanted with BALB/c-skin and adoptively transferred with syngeneic CD8⁺ T cells the same day or 50 days after transplantation. When blockade of CD28- and CD40-mediated costimulation failed to prevent acute rejection of freshly transplanted skin grafts, it efficiently delayed rejection of well-healed skin grafts. These results showed that factors associated with transplantation have essential roles in inducing costimulation blockade-resistant allograft rejection. Costimulation blockade failed to prevent acute graft-infiltration of NK cells and increasing expression of intragraft IL-12 and IL-15. These factors may trigger the graft-infiltration and priming of CD8⁺ T cells to induce costimulation blockade-resistant allograft rejection.     

Adoptive transfer: The role of perforin in mouse cytotoxic T lymphocyte rejection of human tumor xenografts in vivo

ABSTRACT: The popliteal lymph node cells of immunocompetent mice generated a strong in vitro cytotoxic response to footpad injection of several human tumor cell lines and the resulting mouse effector cells predominantly used a perforin-mediated cytotoxic mechanism. A relatively minor FasL-dependent cytotoxic response to CEM-CCRF and Jurkat leukemias, but not colon carcinoma COLO 205 cells, was also detected in immunized perforin-deficient mice. In vitro depletion of CD3⁺ CD8⁺ T cells, but not CD4⁺ T or NK1.1⁺ cells, completely inhibited lysis of human tumor cells, suggesting that CD3⁺ CD8⁺ T cells were effectors of perforin-mediated xenospecific cytotoxicity. Xenospecific cytotoxic T cells from wild-type mice were extremely efficient at rejecting tumor when adoptively transferred into scid mice bearing established COLO 205, CEM-CCRF, or Jurkat tumor xenografts. By contrast, cytotoxic T lymphocytes of perforin-deficient mice had no effect on the growth of established tumor xenografts. These data indicate that perforin, and hence direct cytotoxicity, plays a key role in the ability of adoptively transferred CD8⁺ cytotoxic T lymphocytes to eradicate established xenografts.     

Effects of ultraviolet B irradiation on fetal pig islet-like cell clusters

Abstract: Ultraviolet B (UV-B) irradiation of donor islets has previously been shown to result in the prolongation of their survival when transplanted into rodents. This study examined the in vitro and in vivo effects of UV-B irradiation on fetal pig islet-like cell clusters (ICCs), which like adult islets are being transplanted to reverse diabetes. Under control conditions, fetal pig ICCs were able to stimulate both human and pig peripheral blood mononuclear cells (PBMC) in mixed islet lymphocyte culture (MILC). Exposure of the ICCs to UV-B irradiation significantly reduced their ability to stimulate PBMC of both species in MILC when 600 J/m² but not lower doses (300 and 400 J/m²) of irradiation were applied. In contrast, all doses of UV-B irradiation were effective in inhibiting the ability of pig and human PBMC to stimulate human PBMC in a mixed lymphocytes culture (MLC). This demonstrates that UV-B irradiation is effective in reducing xeno immunogenicity of pig antigens. A toxic effect of all doses of UV-B irradiation on ICCs was demonstrated in vitro with a reduction in ³H-thymidine incorporation of 57, 71, 64, and 80% at 150, 300, 450, and 600 J/m², respectively. Toxicity of UV-B irradiation was also demonstrated when treated ICCs were transplanted beneath the renal capsule of SCID mice. The insulin content of the ICCs, 6 weeks after transplantation, was significantly reduced in the 600 J/m² group ( P <0.05). ICCs treated with UV-B irradiation (300 J/m²) in vitro and then transplanted beneath the renal capsule of BALB/c mice were rejected within 2 weeks as were untreated ICCs. Injection of cyclosporine (12.5 mg/kg/day) into these mice did not alter the results. It is concluded that UV-B irradiation is toxic to fetal pig ICCs and, in low dose, unable to prevent their rejection when transplanted into mice.     

Type I Interferons Are Not Critical for Skin Allograft Rejection or the Generation of Donor-Specific CD8+ Memory T Cells

Type I interferons (IFN-I) link innate to adaptive immunity in microbial infection, autoimmune disease and tumor immunity. It is not known whether IFN-I have an equally central role in alloimmunity. Here we tested this possibility by studying skin allograft survival and donor-specific CD8⁺ T-cell responses in mice that lack the IFN-I receptor (IFN-IR^−/−). We found that IFN-IR^−/− mice reject fully allogeneic wild-type skin grafts at the same rate as wild-type recipients. Similarly, allograft rejection was not delayed if IFN-IR^−/− male skin was transplanted to syngeneic IFN-IR^−/− female mice. Quantitation of the male (H-Y)-specific CD8⁺ T-cell response in these mice revealed normal generation of donor-specific CD8⁺ effector T cells but fourfold reduction in CD8⁺ memory T cells. Memory CD8⁺ T cells generated in the absence of IFN-IR had normal phenotype and recall function, assessed by ex vivo cytokine production and the ability of IFN-IR^−/− mice to mount second set rejection. Finally, these memory T cells were maintained at a constant number despite their inability to respond to IFN-1. Our findings indicate that IFN-I cytokines are not critical for acute allograft rejection or for the expansion and differentiation of donor-specific CD8⁺ T cells into long-lived, functional memory T cells.     

Alloreactive (CD4-Independent) CD8+ T Cells Jeopardize Long-Term Survival of Intrahepatic Islet Allografts

Despite success of early islet allograft engraftment and survival in humans, late islet allograft loss has emerged as an important clinical problem. CD8⁺ T cells that are independent of CD4⁺ T cell help can damage allograft tissues and are resistant to conventional immunosuppressive therapies. Previous work demonstrates that islet allografts do not primarily initiate rejection by the (CD4-independent) CD8-dependent pathway. This study was performed to determine if activation of alloreactive CD4-independent, CD8⁺ T cells, by exogenous stimuli, can precipitate late loss of islet allografts. Recipients were induced to accept intrahepatic islet allografts (islet 'acceptors') by short-term immunotherapy with donor-specific transfusion (DST) and anti-CD154 mAb. Following the establishment of stable long-term islet allograft function for 60–90 days, recipients were challenged with donor-matched hepatocellular allografts, which are known to activate (CD4-independent) CD8⁺ T cells. Allogeneic islets engrafted long-term were vulnerable to damage when challenged locally with donor-matched hepatocytes. Islet allograft loss was due to allo specific immune damage, which was CD8- but not CD4-dependent. Selection of specific immunotherapy to suppress both CD4- and CD8-dependent immune pathways at the time of transplant protects islet allografts from both early and late immune damage.     

Effects of Donor Age and Cell Senescence on Kidney Allograft Survival

The biological processes responsible for somatic cell senescence contribute to organ aging and progression of chronic diseases, and this may contribute to kidney transplant outcomes. We examined the effect of pre-existing donor aging on the performance of kidney transplants, comparing mouse kidney isografts and allografts from old versus young donors. Before transplantation, old kidneys were histologically normal, but displayed an increased expression of senescence marker p16 ^INK4a . Old allografts at day 7 showed a more rapid emergence of epithelial changes and a further increase in the expression of p16 ^INK4a . Similar but much milder changes occurred in old isografts. These changes were absent in young allografts at day 7, but emerged by day 21. The expression of p16 ^INK4a remained low in young kidney allografts at day 7, but increased with severe rejection at day 21. Isografts from young donors showed no epithelial changes and no increase in p16 ^INK4a . The measurements of the alloimmune response—infiltrate, cytology, expression of perforin, granzyme B, IFN-γ and MHC—were not increased in old allografts. Thus, old donor kidneys display abnormal parenchymal susceptibility to transplant stresses and enhanced induction of senescence marker p16 ^INK4a , but were not more immunogenic. These data are compatible with a key role of somatic cell senescence mechanisms in kidney transplant outcomes by contributing to donor aging, being accelerated by transplant stresses, and imposing limits on the capacity of the tissue to proliferate.     

Acute Humoral Rejection of Renal Allografts in CCR5–/– Recipients

Increasing detection of acute humoral rejection (AHR) of renal allografts has generated the need for appropriate animal models to investigate underlying mechanisms. Murine recipients lacking the chemokine receptor CCR5 reject cardiac allografts with marked C3d deposition in the parenchymal capillaries and high serum donor-reactive antibody titers, features consistent with AHR. The rejection of MHC-mismatched renal allografts from A/J (H-2^a) donors by B6.CCR5^–/– (H-2^b) recipients was investigated . A/J renal allografts survived longer than 100 days in wild-type C57BL/6 recipients with normal blood creatinine levels (28 ± 7 μmol/L). All CCR5^–/– recipients rejected renal allografts within 21 days posttransplant (mean 13.3 ± 4 days) with elevated creatinine (90 ± 31 μmol/L). The rejected allografts had neutrophil and macrophage margination and diffuse C3d deposition in peritubular capillaries, interstitial hemorrhage and edema, and glomerular fibrin deposition. Circulating donor-reactive antibody titers were 40-fold higher in B6.CCR5^–/– versus wild-type recipients. Depletion of recipient CD8 T cells did not circumvent rejection of the renal allografts by CCR5-deficient recipients. In contrast, μMT^–/–/CCR5^–/– recipients, incapable of producing antibody, did not reject most renal allografts. Collectively, these results indicate the rapid rejection of renal allografts in CCR5^–/– recipients with many histopathologic features observed during AHR of human renal allografts.     

Aqueous Humor Alloreactive Cell Phenotypes, Cytokines and Chemokines in Corneal Allograft Rejection

As biopsies are not taken at the time of human corneal allograft rejection, most information on the early cellular changes in rejection is from animal models. We examined the phenotype of alloreactive cells present in the human anterior chamber during corneal graft rejection by flow cytometry and quantified aqueous humor levels of cytokines and chemokines using cytometric bead array. Aqueous and peripheral blood samples were taken from patients with graft endothelial rejection (n = 11) and from control patients undergoing cataract surgery (n = 8). CD45⁺CD4⁺, CD45⁺CD8⁺ and CD45⁺CD14⁺ cells were found in aqueous during rejection; no CD45⁺ cells were seen in control samples. Higher proportions of CD45⁺ cells found in aqueous during rejection were CD14⁺, denoting monocyte/macrophage lineage, than were CD4⁺ or CD8⁺. Large elevations were seen in aqueous levels of IL-6, MCP-1 and IP-10 during rejection compared with controls; smaller but still statistically significant increases were seen in MIP-1α and eotaxin. The role of CD14⁺ cells in allorejection is unclear as is the potential of these chemokines and their receptors as therapeutic targets. Aqueous humor samples offer a unique opportunity to analyze components of the allogeneic response in direct contact with donor tissue but without artifacts inherent in examination of tissue.     

CD8 T Cells Can Reject Major Histocompatibility Complex Class I-Deficient Skin Allografts

Following transplantation, recipient T cells can recognize and respond to donor antigens expressed directly on donor cells, and can respond to donor-derived peptides that have been processed and presented in the context of recipient MHC through the indirect pathway. Indirectly primed CD4⁺ T cells have been well studied in transplantation, but little information is available regarding whether indirectly primed CD8⁺ T cells participate in rejection. To address this, we placed MHC class I-deficient D^bK^b knockout skin grafts onto allogeneic H-2 ^k SCID recipients followed by adoptive transfer of purified H-2 ^k CD8⁺ T cells. The MHC class I-deficient grafts were rejected and only CD8⁺ T cells were detectable in the recipient lymphoid organs and in the skin grafts. Immunohistochemical analysis showed that CD8⁺ T cells were found in close proximity to vascular endothelial cells and to recipient infiltrating macrophages, suggesting specific interactions. The data demonstrate that cross-primed polyclonal CD8⁺ T cells can function as active participants in the effector phase of rejection. The findings confirm and extend previous studies using a monoclonal TCR transgenic T cell and shed light on mechanisms of acute and chronic graft injury that are potentially relevant to human transplant recipients.     

Strategies to Induce Marked Prolongation of Secondary Skin Allograft Survival in Alloantigen-Primed Mice

Alloreactive memory T cells mediate accelerated rejection. We investigated the effect of polyclonal anti-T-cell antibody (ALS) and rapamycin (RAPA) on skin allograft survival in naïve or alloantigen-primed mice. ALS prolonged graft survival in both naïve and alloantigen-primed mice. T-cell depletion by ALS was associated with increased CD4⁺CD44^hiOX40⁺ and CD8⁺CD44^hiCD122⁺ memory T cells. Addition of RAPA to ALS extended graft survival in naïve mice, but had no effect on secondary allograft survival in alloantigen-primed mice. In adoptive transfer experiments, RAPA inhibited alloantigen-stimulated proliferation and allograft rejection by naïve T cells. In contrast, alloantigen-primed memory T cells, particularly CD4⁺CD44^hiOX40⁺ and CD8⁺CD44^hiCD122⁺ T cells, were resistant to RAPA in response to alloantigen and mediated accelerated rejection in the presence of RAPA. Resistance to RAPA by alloantigen-primed mice was overcome by the use of high-dose ALS, which achieved marked prolongation of secondary skin allograft survival (>100 days). Inhibition of CD122⁺ T cells and/or OX40/OX40L costimulation blockade, combined with low-dose ALS and RAPA, was also effective. These results demonstrate that tolerance may be achieved in allosensitized individuals by T-cell depletion- and RAPA-based strategies employing high-dose ALS or targeting CD122⁺CD8⁺ T cells and/or the OX40/OX40L costimulatory pathway.     

Role of anti-donor antibody in the rejection of pig proislet xenografts in mice

Abstract: CBA/H mice produced serum anti-pig IgG₁, IgG_2a, and IgG_2b following xenotransplantation of pig proislets beneath the kidney capsule; anti-pig IgM was present as pre-existing antibody in the serum of normal CBA/H mice and was also produced in response to pig proislet xenografts. Serum anti-pig IgG₃was not detected post-xenotransplantation. Rejection of pig proislet xenografts and the production of anti-pig IgG₁, IgG_2a, and IgG_2b isotypes were CD4 T cell-dependent. The capacity for adoptively transferred hyperimmune CBA/H mouse anti-pig PBL serum to induce the rejection of intact pig proislet xenografts in CD4 T cell-depleted mice was dose dependent and correlated with markedly elevated levels of serum anti-pig IgG₃. Levels of anti-pig IgG₁, IgG_2a, IgG_2b, and IgM comparable to control mice acutely rejecting pig proislet xenografts and achieved following adoptive transfer of hyperimmune serum did not correlate with induced xenograft rejection. These findings suggest that anti-pig Ig isotypes produced during the conventional process of acute proislet xenograft rejection do not play a major role in mediating graft damage. The acute rejection of pig proislet xenografts in the absence of serum anti-pig Ig in μMT-/- hosts confirmed that anti-pig antibody is not essential for proislet xenograft destruction.