Human NK cell and ADCC reactivity against xenogeneic porcine target cells including fetal porcine islet cells

In vitro studies of human NK cell‐mediated cytotoxicity and ADCC against porcine target cells were performed. Stimulation of human PBMC responder cells with either allogeneic or xenogeneic porcine cells led to a marked increase in NK cell reactivity. Maximum reactivity was reached following 3–6 days...

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Published in:Xenotransplantation (Københaven) 1998-05, Vol.5 (2), p.132-145
Main Authors: Kumagai-Braesch, Makiko, Satake, Masahiro, Qian, Yunjian, Holgersson, Jan, Möller, Erna
Format: Article
Language:English
Subjects:
ADCC
Animals
Antibodies, Heterophile - blood
Antibody-Dependent Cell Cytotoxicity
Cell Differentiation
Cyclosporine - pharmacology
cyclosporine A
Disaccharides - immunology
Epitopes
fetal porcine islet cells
Fetal Tissue Transplantation - adverse effects
Fetal Tissue Transplantation - immunology
Graft Rejection - etiology
Graft Rejection - immunology
human NK cells
Humans
Immunity, Innate
Immunosuppressive Agents - pharmacology
in vitro activation
In Vitro Techniques
Interleukin-2 - pharmacology
Islets of Langerhans Transplantation - adverse effects
Islets of Langerhans Transplantation - immunology
Killer Cells, Natural - cytology
Killer Cells, Natural - drug effects
Killer Cells, Natural - immunology
limiting dilution
Medicin och hälsovetenskap
Species Specificity
Swine - immunology
Transplantation, Heterologous - adverse effects
Transplantation, Heterologous - immunology
Transplantation, Homologous
xenogeneic porcine cells
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cited_by cdi_FETCH-LOGICAL-c5882-5a3ee97c0acf6033384a1b63caa9e6b2aaa21d7aacb19faa28b70f63270ca5133
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container_issue 2
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container_title Xenotransplantation (Københaven)
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creator Kumagai-Braesch, Makiko
Satake, Masahiro
Qian, Yunjian
Holgersson, Jan
Möller, Erna
description In vitro studies of human NK cell‐mediated cytotoxicity and ADCC against porcine target cells were performed. Stimulation of human PBMC responder cells with either allogeneic or xenogeneic porcine cells led to a marked increase in NK cell reactivity. Maximum reactivity was reached following 3–6 days of in vitro culture. The sensitivity of target cells ranked as follows: K562 > porcine PHA‐induced lymphoblasts > resting porcine PBMC. Limiting dilution analysis showed that allo‐ and xeno‐stimulation in vitro led to differentiation of similar frequencies of effector NK cells. Split culture experiments showed that single NK effector cells were cytotoxic against both K562 and porcine lymphoblasts, demonstrating that individual NK cells lack species specificity. NK effector cell generation stimulated by xenogeneic cells was cyclosporin A (CsA) sensitive and dependent on the presence of autologous responder T lymphocytes, a dependence that was completely reconstituted by the sole addition of human IL‐2. Xenostimulation of enriched CD3+ cells also led to a preferential appearance of CD 16+ or CD56+ lymphoblasts. Natural xenoreactive human anti‐porcine antibodies are mainly of IgM and IgG2 subclasses, but antibodies in xenoimmunised patients reactive against porcine lymphocytes and fetal porcine islet cells were also of IgG1 and IgG3 subclasses. The same subclass distribution was found among antibodies specific for galα1,3 gal epitopes as shown by tests performed with α1,3 galactosyltransferase‐transfected Raji cells (human Burkitt lymphoma cells). Natural antibodies did not mediate ADCC, whereas galα1,3 gal‐specific antibodies in sera from xenoimmunised patients did. Fetal porcine islet cells were sensitive to human NK cell‐mediated cytotoxicity and to ADCC mediated by xenoimmune sera.
doi_str_mv 10.1111/j.1399-3089.1998.tb00019.x
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Stimulation of human PBMC responder cells with either allogeneic or xenogeneic porcine cells led to a marked increase in NK cell reactivity. Maximum reactivity was reached following 3–6 days of in vitro culture. The sensitivity of target cells ranked as follows: K562 &gt; porcine PHA‐induced lymphoblasts &gt; resting porcine PBMC. Limiting dilution analysis showed that allo‐ and xeno‐stimulation in vitro led to differentiation of similar frequencies of effector NK cells. Split culture experiments showed that single NK effector cells were cytotoxic against both K562 and porcine lymphoblasts, demonstrating that individual NK cells lack species specificity. NK effector cell generation stimulated by xenogeneic cells was cyclosporin A (CsA) sensitive and dependent on the presence of autologous responder T lymphocytes, a dependence that was completely reconstituted by the sole addition of human IL‐2. Xenostimulation of enriched CD3+ cells also led to a preferential appearance of CD 16+ or CD56+ lymphoblasts. Natural xenoreactive human anti‐porcine antibodies are mainly of IgM and IgG2 subclasses, but antibodies in xenoimmunised patients reactive against porcine lymphocytes and fetal porcine islet cells were also of IgG1 and IgG3 subclasses. The same subclass distribution was found among antibodies specific for galα1,3 gal epitopes as shown by tests performed with α1,3 galactosyltransferase‐transfected Raji cells (human Burkitt lymphoma cells). Natural antibodies did not mediate ADCC, whereas galα1,3 gal‐specific antibodies in sera from xenoimmunised patients did. 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Stimulation of human PBMC responder cells with either allogeneic or xenogeneic porcine cells led to a marked increase in NK cell reactivity. Maximum reactivity was reached following 3–6 days of in vitro culture. The sensitivity of target cells ranked as follows: K562 &gt; porcine PHA‐induced lymphoblasts &gt; resting porcine PBMC. Limiting dilution analysis showed that allo‐ and xeno‐stimulation in vitro led to differentiation of similar frequencies of effector NK cells. Split culture experiments showed that single NK effector cells were cytotoxic against both K562 and porcine lymphoblasts, demonstrating that individual NK cells lack species specificity. NK effector cell generation stimulated by xenogeneic cells was cyclosporin A (CsA) sensitive and dependent on the presence of autologous responder T lymphocytes, a dependence that was completely reconstituted by the sole addition of human IL‐2. Xenostimulation of enriched CD3+ cells also led to a preferential appearance of CD 16+ or CD56+ lymphoblasts. Natural xenoreactive human anti‐porcine antibodies are mainly of IgM and IgG2 subclasses, but antibodies in xenoimmunised patients reactive against porcine lymphocytes and fetal porcine islet cells were also of IgG1 and IgG3 subclasses. The same subclass distribution was found among antibodies specific for galα1,3 gal epitopes as shown by tests performed with α1,3 galactosyltransferase‐transfected Raji cells (human Burkitt lymphoma cells). Natural antibodies did not mediate ADCC, whereas galα1,3 gal‐specific antibodies in sera from xenoimmunised patients did. 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Stimulation of human PBMC responder cells with either allogeneic or xenogeneic porcine cells led to a marked increase in NK cell reactivity. Maximum reactivity was reached following 3–6 days of in vitro culture. The sensitivity of target cells ranked as follows: K562 &gt; porcine PHA‐induced lymphoblasts &gt; resting porcine PBMC. Limiting dilution analysis showed that allo‐ and xeno‐stimulation in vitro led to differentiation of similar frequencies of effector NK cells. Split culture experiments showed that single NK effector cells were cytotoxic against both K562 and porcine lymphoblasts, demonstrating that individual NK cells lack species specificity. NK effector cell generation stimulated by xenogeneic cells was cyclosporin A (CsA) sensitive and dependent on the presence of autologous responder T lymphocytes, a dependence that was completely reconstituted by the sole addition of human IL‐2. Xenostimulation of enriched CD3+ cells also led to a preferential appearance of CD 16+ or CD56+ lymphoblasts. Natural xenoreactive human anti‐porcine antibodies are mainly of IgM and IgG2 subclasses, but antibodies in xenoimmunised patients reactive against porcine lymphocytes and fetal porcine islet cells were also of IgG1 and IgG3 subclasses. The same subclass distribution was found among antibodies specific for galα1,3 gal epitopes as shown by tests performed with α1,3 galactosyltransferase‐transfected Raji cells (human Burkitt lymphoma cells). Natural antibodies did not mediate ADCC, whereas galα1,3 gal‐specific antibodies in sera from xenoimmunised patients did. Fetal porcine islet cells were sensitive to human NK cell‐mediated cytotoxicity and to ADCC mediated by xenoimmune sera.</abstract><cop>Oxford, UK</cop><pub>Blackwell Publishing Ltd</pub><pmid>9584827</pmid><doi>10.1111/j.1399-3089.1998.tb00019.x</doi><tpages>14</tpages></addata></record>
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ispartof Xenotransplantation (Københaven), 1998-05, Vol.5 (2), p.132-145
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1399-3089
language eng
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source Wiley
subjects ADCC
Animals
Antibodies, Heterophile - blood
Antibody-Dependent Cell Cytotoxicity
Cell Differentiation
Cyclosporine - pharmacology
cyclosporine A
Disaccharides - immunology
Epitopes
fetal porcine islet cells
Fetal Tissue Transplantation - adverse effects
Fetal Tissue Transplantation - immunology
Graft Rejection - etiology
Graft Rejection - immunology
human NK cells
Humans
Immunity, Innate
Immunosuppressive Agents - pharmacology
in vitro activation
In Vitro Techniques
Interleukin-2 - pharmacology
Islets of Langerhans Transplantation - adverse effects
Islets of Langerhans Transplantation - immunology
Killer Cells, Natural - cytology
Killer Cells, Natural - drug effects
Killer Cells, Natural - immunology
limiting dilution
Medicin och hälsovetenskap
Species Specificity
Swine - immunology
Transplantation, Heterologous - adverse effects
Transplantation, Heterologous - immunology
Transplantation, Homologous
xenogeneic porcine cells
title Human NK cell and ADCC reactivity against xenogeneic porcine target cells including fetal porcine islet cells
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