Judith A. Horvath-Arcidiacono

Characterization and expansion of baboon CD4+CD25+ Treg cells for potential use in a non-human primate xenotransplantation model.

Abstract:  Background:  It is well established that CD4+CD25+ regulatory T (Treg) cells can modulate allogeneic immune responses. Xenotransplantation, proposed as a means to address the critical shortage of human organs, may also benefit from similar approaches to avert rejection. Baboons are a preferred preclinical animal model for xenogeneic organ transplantation experiments, and the characterization of baboon Treg cells will be beneficial to future tolerance studies in this animal model.

Effect of Redox Modulation on Xenogeneic Target Cells: The Combination of Nitric Oxide and Thiol Deprivation Protects Porcine Endothelial Cells from Lysis by IL-2-Activated Human NK Cells

Evidence suggests that NK cells contribute to the pathogenesis of delayed rejection of vascularized xenografts, and NK cells have been suggested to participate in hyperacute xenograft rejection. Endothelial cells have been shown to be the primary target of the recipient’s immune responses that mediate both hyperacute and delayed xenograft rejection. Under conditions of oxidative stress induced by thiol deprivation, but not under normal conditions, pretreatment of porcine aortic endothelial cells (PAECs) with the NO donor, S-nitroso-N-acetyl-penicillamine, dramatically inhibited killing of PAEC target cells by IL-2-activated human NK cells. This same combined treatment reduced both surface expression and mRNA levels of E-selectin. Moreover, anti-E-selectin mAb, but not Ab to VCAM-1, protected PAEC from lysis by human IL-2-activated NK cells in a dose-dependent manner. These findings suggest that expression of porcine E-selectin is important for the cytotoxicity of PAEC mediated by activated human NK cells and may be involved in the redox-mediated modulation of that cytotoxicity. It is known that NF-κB activation is required for transcription of E-selectin, and the current data show that the suppression of E-selectin expression by S-nitroso-N-acetyl-penicillamine pretreatment and thiol deprivation was associated with reduced NF-κB DNA-binding activity in PAEC. These data suggest that the regulation of porcine E-selectin may be important for modulating delayed xenograft rejection and that manipulation of cellular redox systems may provide a means to protect xenogeneic endothelial cells from NK cell-mediated cytotoxicity.

Human NK cells can lyse porcine endothelial cells independent of their expression of Galalpha(1,3)-Gal and killing is enhanced by activation of either effector or target cells.

Abstract:  Background:  Xenotransplantation of pig organs may provide an approach to alleviate the severe shortage of human organs. Natural antibodies against Galα(1,3)‐Gal (αGal) epitopes cause hyperacute rejection of pig organs in primates. However, evidence for the role of αGal in the natural killer (NK) cell‐mediated xenoresponse has been contradictory.

Characterization of human killer cell reactivity against porcine target cells: differential modulation by cytokines

Abstract: The cytotoxic cell response to porcine cells by human lymphocytes, and the modulation of cytolytic cellular activity by human cytokines were investigated. Human peripheral blood mononuclear cells (PBMC) and purified lymphocyte subsets were co‐cultured with fresh irradiated porcine stimulator cells and examined for the development of lytic activity and for their proliferative response. Porcine target cells included a new cell line, MS‐PBMC‐J2 (designated J2; SLA‐DR+MHC class I+CD2+CD3–CD8+CD16+CD45+), aortic and microvascular endothelial cells. Initial results showed that natural killer (NK) cells were fivefold more efficient in killing porcine target cells compared with T cells. IL‐12 augmented the killing of porcine target cells by human NK cells beyond that induced by stimulation with cells alone. In contrast, IL‐2 and IL‐15 often induced substantial human NK cell mediated killing of porcine target cells, including endothelial cells in the case of IL‐2 where such targets were examined, even in the absence of stimulator cells. Finally, neither IL‐18 nor IL‐8 had any effect beyond background on NK cell mediated killing of porcine target cells. These findings show that cytokines that would be produced in a xenograft setting clearly modulate the ability of human cytolytic cells to kill porcine targets. In addition, fresh unstimulated human NK cells lysed J2 and porcine aortic endothelial cells, but not porcine microvascular endothelial cells, suggesting the possibility of rapid attack of xenografts by NK cells, and differential susceptibility of endothelial cells from different vascular structures to this attack.

Characterization of baboon NK cells and their xenogeneic activity

Kennett SB, Porter CM, Horvath‐Arcidiacono JA, Bloom ET. Characterization of baboon NK cells and their xenogeneic activity. Xenotransplantation 2010; 17: 288–299.

Human natural killer cell activity against porcine targets: modulation by control of the oxidation-reduction environment and role of adhesion molecule interactions

Xenotransplantation, especially using porcine sources, has been proposed as a means to alleviate the shortage of human organs for transplantation. NK cells appear to be important mediators of the xenogeneic immune responses, including the human anti-pig response. Having previously established the redox regulation of NK cell activity against tumor target cells, we now report that the interaction of human NK cells with porcine target cells is also regulated by redox. Thiol-deprivation strongly diminished the capacity of IL-2-activated human NK cells to kill porcine endothelial cells. This inhibition correlated with reduced proliferation and interferon (IFN)-gamma production by IL-2-activated NK cells. For fresh NK cells, pretreatment with diethyl maleate (DEM), which was used to deplete intracellular thiols, reduced lysis of porcine and human targets. Because many adhesion molecules exhibit interspecies recognition, we further investigated whether changes in expression of adhesion molecules might explain our observations. DEM treatment reduced the expression of CD11b and CD29 on fresh NK cells. Monoclonal antibody blocking studies showed that the combination of mAb to CD11b and CD18 reduced lytic activity against both PAEC as well as K562, although other qualitative differences were observed between the porcine and human target cells. These findings suggest that the oxidative stress-induced downregulation of CD18 may be important in modulating cytotoxic activity of fresh NK cells against PAEC and K562 targets through reduced formation of the CD11b/CD18 heterodimer. Thus, the appropriate manipulation of redox status may provide a means to enhance survival of non-human animal tissues in humans through modulation of adhesion molecule expression/interactions.

Differential effects of interleukin-12 treatment on gene expression by allostimulated T cells from young and aged mice

Alloantigen stimulation was used to examine the effect of interleukin (IL-12) treatment of stimulated cells from young and aged mice on the expression of mRNAs for perforin and granzyme B, two proteins known to be intimately involved in an important lytic pathway used by CTL, and mRNA for interferon (IFN)-gamma, production of which is highly stimulated by IL-12 As reported previously, IL-12 augmented the lytic activity by cells from both young and aged mice, although the relative increase was greater for the latter. The mRNAs encoding perforin and granzyme B were both marginally enhanced at early time points (for cells from young mice) or throughout the stimulation (for cells from aged mice) following allo-stimulation in the presence of IL-12. The levels of augmentation of these mRNAs was consistent with the augmentation of lytic activity. In contrast, mRNA encoding IFN-gamma was markedly enhanced throughout stimulation in cells from animals of both age groups, corresponding to the more substantial increase in interferon protein in response to IL-12.