Transplantation of metanephroi to sites within the abdominal cavity.

A novel approach to circumventing the shortage in transplantable donor organs is the use of embryonic primordia that develop inside the host. Previously published work has shown that transplantation of rat fetal kidney primordia (metanephroi) onto the omentum of adult rat hosts results in growth and development of the metanephroi into functioning kidney units capable of providing a measurable renal function. However, for anatomical and physiological reasons the omentum may not provide the ideal site for transplantation and may limit the maximum renal function that the transplants can achieve. We postulate that it may be possible to increase the renal function of the transplants by transplantation to sites with increased blood flow. To test this we transplanted rat embryonic day 15 metanephroi into the retroperitoneal fat adjacent to major blood vessels in the peritoneum of unilaterally nephrectomized rats; 21 days later the transplants were examined and suitable transplants connected to the host urinary system. Approximately 130 days later the glomerular filtration rate of the connected transplants was analyzed. Our results show that transplantation of metanephroi to the regions highlighted in this study results in an increased presence of urinary cysts, suggesting increased early renal function in the transplants compared to metanephroi transplanted onto the omentum, but most importantly we show that we can increase the renal function of the transplants to a level comparable with other renal therapies such as dialysis. This work suggests life-sustaining renal function could be achieved through transplantation of renal primordia.

Preservation of embryonic kidneys for transplantation.

BACKGROUND: Long-term storage of embryonic kidneys is crucial for the organization of transplantation and organ banking. In this study, we investigated the effects of controlled-rate freezing and ice-free vitrification on metanephroi (MN) viability. METHODS: Metanephroi isolated from 15-day (E15) timed pregnant Lewis rats were either: (i) frozen, using a DMSO/FCS/RPMI solution and a controlled freezing rate of -0.3 degrees C/min, from -10 degrees to -40 degrees C; or (ii) cryopreserved in an ice-free state by rapid cooling to -100 degrees C in cryoprotectant (VS55), followed by vitrification to -120 degrees C. After cryopreservation, the metanephroi were stored at -135 degrees C for 48 hours. After storage the MN were rewarmed, resuspended in culture media, and their viability was assessed using the AlamarBlue assay and histology (light microscopy, TEM, and cryosubstitution). RESULTS: There was statistically no difference in embryonic kidney metabolic activity of either of the cryopreserved MN groups relative to the control untreated group. However, cryosubstitution demonstrated the presence of significant ice formation during controlled-rate freezing, yet in contrast the amount of ice was significantly reduced by vitrification. This was confirmed by TEM, where vacuolation of the cytoplasm of controlled-rate frozen metanephroi was observed, whereas vitrified metanephroi had little cytoplasmic disruption. However, vitrified metanephroi showed mitochondrial and nuclear injury at the cellular level. CONCLUSIONS: There is a need for long-term storage of organs to make MN transplantation a reality. This study demonstrates that standard freezing methods are unsuitable for this purpose. Vitrification yielded more promising results, but further development is required.

Inhibition of CD40-mediated endothelial cell activation with antisense oligonucleotides.

BACKGROUND: CD40-CD154 interactions play a pivotal role in the amplification of immune responses and, as such, represent an attractive target for immune intervention in a number of disease indications. We have previously shown that binding of human CD154 expressed on the Jurkat D1.1 cell line to porcine CD40 on pig aortic endothelial cells (PAECs) can lead to up-regulation of vascular cell adhesion molecule (VCAM)-1 and MHC class II. This activation can be completely inhibited by the addition of a monoclonal antibody (mAb) to human CD154. In this study, we explore an alternative approach to blocking this pathway with antisense oligonucleotides (ASOs). METHODS: Ten ASOs were generated on the basis of the porcine CD40 cDNA sequence. The ASOs that were found to reduce CD40 expression on PAECs were analyzed for their ability to reduce CD40-mediated PAEC activation. RESULTS: Four ASOs were found to significantly lower surface expression of porcine CD40 on PAECs 48 hr after transfection. Eight of the ASOs were seen to lead to mRNA cleavage products by ribonuclease protection assay. Of the four ASOs tested in the PAEC activation assay, one (ASO-9) showed a dramatic inhibition of PAEC activation (IC50 approximately 1 nM) results comparable to the use of a blocking mAb. Furthermore, we compared the effect of CD40 ASO on tumor necrosis factor alpha receptor signaling, in which we observed no effect, which confirmed ASO specificity. CONCLUSIONS: These results indicate that a CD40-dependent activation pathway can be inhibited with an ASO with high potency and specificity. ASO could be an attractive alternative therapy to the use of mAbs.

Human CD154 induces activation of porcine endothelial cells and up-regulation of MHC class II expression.

BACKGROUND: CD40 is expressed on a number of antigen-presenting cells and also on vascular endothelium. It has been shown that engagement of CD40 on vascular endothelium by CD154 on platelets and CD154-bearing cell lines leads to the induction of adhesion molecule expression. Having cloned porcine CD40, and shown that it is capable of binding human CD154, we investigate whether human CD154 can activate porcine endothelial cells (EC) through CD40 ligation. METHODS: Human Jurkat clone D1.1 (CD154+), or clone E6.1 (CD154-), were co-cultured with EC from pig aorta and human aorta and umbilical vein for various times in the presence or absence of blocking antibody to CD154. RESULTS: Human and pig EC were shown to express CD40 by flow cytometry by using soluble human CD154 (CD154Ckappa). Co-culture of pig EC with CD154-expressing Jurkat D1.1 cells led to the induction of E-selectin by 6 hr (peak 24 hr) and vascular cell adhesion molecule-1 (VCAM-1) by 6 hr (peak 48 hr). Similar results were also observed with human EC. Porcine EC were induced to up-regulate major histocompatibility complex class II at 24 hr by co-culture with Jurkat D1.1 cells through a CD40-dependent mechanism. In contrast, no up-regulation was observed on human EC. CONCLUSIONS: A number of cells can express CD154, including T cells, natural killer cells, and platelets, and these could signal graft EC through the CD40 pathway. These results demonstrate a possible role for the CD40 pathway in the activation of vascular endothelium in the rejection of porcine xenografts.

Up-regulation of beta-chemokines and down-modulation of CCR5 co-receptors inhibit simian immunodeficiency virus transmission in non-human primates.

A non-cognate mechanism of protection against human immunodeficiency virus-1 (HIV-1) infection involves up-regulation of beta-chemokines, which bind and may down-modulate the CCR5 co-receptors, thereby preventing transmission of M-tropic HIV-1. The objective of this investigation was to evaluate this mechanism in vivo in non-human primates. Rhesus macaques were immunized by a modified targeted lymph nodes (TLN) route with recombinant simian immunodeficiency virus (SIV) glycoprotein 120 (gp120) and p27 in alum, and adsorbed recombinant granulocyte-macrophage colony-stimulating factor (GM-CSF) with either interleukin (IL)-2 or IL-4. Immunization induced significant increases in the concentrations of CD8 cell-derived suppressor factor (CD8-SF), regulated on activation normal T cells expressed and secreted (RANTES), macrophage inflammatory protein (MIP)-1alpha and MIP-1beta, and down-modulation of the proportion of cells expressing CCR5 (r = 0.737, P<0.05). The macaques were then challenged with SIVmac 220 by the rectal mucosal route. The plasma SIVmac RNA showed a significant inverse correlation with the CD8-SF or the concentration of the three beta-chemokines (r = 0.831 and 0.824, P<0.01), but a positive correlation between the proportion of CCR5+ cells and SIVmac RNA (r = 0.613, P = 0.05). These results demonstrate for the first time in vivo that immunization up-regulates beta-chemokines, which may down-modulate CCR5 co-receptors, and both functions are significantly correlated with the viral load. Hence, the non-cognate beta-chemokine-CCR5 mechanism should be considered as complementary to specific immunity in vaccination against HIV.

High sequence homology between human and pig CD40 with conserved binding to human CD154.

BACKGROUND: Understanding the molecular interactions between pig tissues and human immune cells is fundamental to achieving long-term pig to human xenograft survival. CD40 has been shown to be central in the interaction of T cells with many antigen-presenting cells including B cells, and dendritic cells. It has been clearly shown in vitro that human T cells can effectively recognize pig major histocompatibility complex proteins, and that various accessory molecule interactions are compatible between these species, including human CD28 with pig B7 family members (CD80/CD86). The importance of CD40 in transplantation has been established using blocking antibodies to its ligand, CD154, which prolong allograft survival in mouse and primate models. METHODS: Pig CD40 was cloned from a porcine spleen cDNA library and subsequently sequenced. Expression of pig CD40 was detected by flow cytometry using soluble human CD154 (hCD154-Ig). Results. Comparison of the derived amino acid sequence of pig with human shows 74% identity. Significantly, there is conservation between pig and human at 5 residues shown by mutagenesis studies to be essential for binding of human CD40 to CD154. hCD154Ckappa was shown to bind pig B cell lines and a proportion of human and pig lymphocytes and further confirmed by staining of COS cells transfected with pig CD40. Conclusions. Recipient human cells bearing CD154 will, therefore, be able to bind donor pig CD40, and these interactions might modulate effector functions and hence influence xenograft survival. Further investigation is necessary to ascertain the exact nature of these interactions and their implications for xenograft survival.

Allo-immunization elicits CD8+ T cell-derived chemokines, HIV suppressor factors and resistance to HIV infection in women.

We assessed the potential for an allogeneic-based vaccine against HIV infection in women who were allo-immunized with their partners' mononuclear leucocytes to prevent spontaneous recurrent abortion. Within 1 month of allo-immunization, there was significant upregulation in the concentrations of CD8 cell-derived suppressor factor activity, RANTES, and macrophage inflammatory proteins 1alpha and 1beta. Allo-immunization also downregulated the proportion of cells with CCR5 and CXCR4 receptors. We also found a dose-dependent decrease in HIV infectivity of CD4+ cells in vitro after allo-immunization with both primary and T-cell line adapted HIV-1. This study provides a rational basis for an alternative or complementary strategy of allo-immunization against HIV infection.

Ceramide-induced killing of normal and malignant human lymphocytes is by a non-apoptotic mechanism.

Synthetic ceramides induce apoptotic death of Jurkat and HL60 leukaemia cell lines. By contrast we show here that ceramide induces non-apoptotic killing of malignant cells from patients with B-chronic lymphocytic leukaemia (B-CLL) and of normal B lymphocytes. The protein phosphatase inhibitor okadaic acid readily induces apoptosis of B-CLL cells, indicating that this death pathway is fully functional in these cells. The ability of ceramide to activate the apoptotic protease caspase 3 in HL60 cells but not in B-CLL cells, as well as the lack of correlation of ceramide-mediated killing of different B-CLL isolates with expression of the apoptosis-regulating proteins bcl-2 and bax reinforce the conclusion that ceramide killing of B-CLL cells is by a non-apoptotic mechanism. Fludarabine treatment or gamma-irradiation of B-CLL cells resulted in ceramide elevation and in killing by both apoptotic and non-apoptotic mechanisms, suggesting that a ceramide-triggered non-apoptotic mechanism may play a role in the killing of these cells. Therefore, the results here show that ceramide can induce either apoptotic or non-apoptotic death, depending on the cellular context. The inability of synthetic dihydroceramide to kill B-CLL cells or normal B lymphocytes suggests that non-apoptotic killing by ceramide is via interaction with a specific, but unidentified, cellular target.

Generation of CD8 suppressor factor and beta chemokines, induced by xenogeneic immunization, in the prevention of simian immunodeficiency virus infection in macaques.

Previous xenogeneic immunization experiments in rhesus macaques with simian immunodeficiency virus (SIV) grown in human CD4(+) T cells consistently elicited protection from challenge with live SIV. However, the mechanism of protection has not been established. We present evidence that xenogeneic immunization induced significant CD8 suppressor factor, RANTES (regulated upon activation, normal T cell expressed and secreted), macrophage inflammatory protein (MIP) 1alpha, and MIP-1beta (P < 0.001 - P < 0.02). The concentrations of these increased significantly in protected as compared with infected macaques (P < 0.001). Xenogeneic stimulation in vitro also up-regulated CD8 suppressor factors (SF; P < 0.001) and the beta chemokines which were neutralized by antibodies to the 3 beta chemokines. Recombinant human RANTES, MIP-1alpha and MIP-1beta which bind to simian CCR5, suppressed SIV replication in a dose-dependent manner, with RANTES being more effective than the other two chemokines. The results suggest that immunization with SIV grown in human CD4(+) T cells induces CD8-suppressor factor, RANTES, MIP-1alpha and MIP-1beta which may block CCR5 receptors and prevent the virus from binding and fusion to CD4(+) cells.

Herbimycin A accelerates the induction of apoptosis following etoposide treatment or gamma-irradiation of bcr/abl-positive leukaemia cells.

Philadelphia chromosome (Ph)-positive leukaemia cells express the chimeric bcr/abl oncoprotein, whose deregulated protein tyrosine kinase (PTK) activity antagonizes the induction of apoptosis by DNA damaging agents. Treatment of Ph-positive K562, TOM 1 and KCL-22 cells with etoposide for 2d induced cytosolic vacuolation, but not nuclear condensation or DNA fragmentation. The bcr/abl kinase-selective inhibitor herbimycin A increased the induction of nuclear apoptosis by etoposide or gamma-radiation. The concentration of herbimycin required to synergize with etoposide was similar to that required to decrease the level of tyrosine phosphorylated proteins or of the protein tyrosine kinase activity of anti-abl immune complexes in K562 cells. The ability of herbimycin A to sensitize K562, TOM 1 or KCL-22 cells to apoptosis induction correlated with its ability to decrease the cellular content of phosphotyrosyl proteins in these Philadelphia-positive lines. Enhancement of nuclear apoptosis by herbimycin was not attributable to downregulation of the bcl-2 or bcl-XL anti-apoptotic proteins. In contrast, herbimycin protected Philadelphia-negative HL60 cells from apoptosis induction by etoposide and did not affect killing of NC37 and CEM cells. The data suggest that the induction of apoptosis is blocked in cells expressing the bcr/abl oncoprotein and that herbimycin A increases induction of programmed cell death following DNA damage. Selective PTK inhibitors may therefore be of value in securing the genetic death of Ph-positive leukaemia cells.

Direct recognition of SLA- and HLA-like class II antigens on porcine endothelium by human T cells results in T cell activation and release of interleukin-2.

To investigate whether human T cells can directly recognize pig xenoantigens, highly purified human CD4+ and CD8+ T cells were incubated with pig aortic endothelial cells (PAEC). The response was measured by [3H]thymidine uptake and release of bioactive interleukin-2. A detailed examination of MHC expression by cultured PAEC and tissue sections of porcine aorta and heart showed porcine endothelial cells (EC) to be constitutively positive for SLA class II and antigens that crossreact with HLA class II molecules. Low level expression of B7 receptors was detected by binding of both human and mouse CTLA-4-Ig to untreated PAEC, which was enhanced significantly by treatment with recombinant porcine interferon-gamma. Human T cells, purified by positive selection and residual DR+ cells removed by lymphocytolysis, were shown to be functionally free of monocytes. Untreated PAEC elicited strong proliferation by human CD4+ T cells: CD8+ T cells also proliferated, but more weakly. This response was inhibited by CTLA-4-Ig. Blocking studies were performed with mAbs that bind to PAEC and not human EC (MSA3, TH16B), an mAb that binds to human and porcine EC (DA6.231), and L243, which binds to human and not porcine EC. The proliferative response of CD4+ T cells to PAEC was inhibited significantly by mAbs against swine and human determinants. In contrast, the response of CD4+ T cells to human EC was inhibited only by mAbs against human determinants. Experiments that directly compared the CD4+ and CD8+ T cell responses to PAEC and the human EC line EAhy.926, both with and without prior treatment with species-specific interferon gamma, demonstrated greater proliferation and 5-10 times more interleukin-2 in response to pig EC than to human EC.