Anna Ridderstad scite author profile

Fetal porcine islet-like cell clusters (ICC) were transplanted under the renal capsule of normoglycemic normal or athymic (nu/nu) C57BL/6 mice. Control animals were implanted with allogeneic minced kidney tissue from C57BL/Ks mice. The animals were killed 6 or 14 days after transplantation and the grafts were processed for flow cytometric analyses or immunohistochemistry. Xenograft destruction was evident in normal mice on day 6 after transplantation. The majority of infiltrating cells were macrophage-like cells expressing the F4/80 antigen. Lymphocytes expressing the CD3 antigen were in minority and mainly located in the peripheral parts of the ICC xenograft. The frequency and distribution of CD4+ cells were found to resemble those of the CD3+ cells. A large number of infiltrating cells, including several macrophage-like cells, expressed the Thy 1.2 antigen. Flow cytometry of infiltrating cells in the ICC xenograft revealed that approximately half of the cells expressing the F4/80 antigen also expressed Thy 1.2 and/or CD4. No cells were found expressing both the F4/80 and CD8 antigens. Both the F4/80 single-positive and the F4/80, CD4 double-positive cells were found to be larger and more granular than the CD4 single-positive cells. No co-expression of CD4 or Thy 1.2 with the F4/80 antigen was detected on cells infiltrating allogeneic tissue grafts. Moreover, a relative large number of cells (approximately 15%) in the xenograft expressed the NK 1.1 antigen as determined by flow cytometry. The role of natural killer (NK) cells in islet xenograft rejection was further evaluated in mice depleted of NK cells, using intraperitoneal injections of the monoclonal antibody NK 1.1. The simultaneous inoculation and subsequent growth of the NK cell-sensitive beta 2-microglobulin-deficient mutant, C4.4-25-, lymphoma cell line EL-4 served as an in vivo control of NK cell depletion. However, all NK cell-depleted mice rejected the ICC xenograft. In contrast, athymic mice permanently accepted the porcine ICC xenograft but, readily rejected the NK cell-sensitive lymphoma cell line. Taken together, ICC xenograft rejection in mice seems to be T cell dependent, as evidenced in the nude mice model, while the main effector cell appears to be a macrophage with a unique phenotype.

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Cytokines in Rheumatoid Arthritis

Ridderstad

Abedi‐Valugerdi

Möller

1991

Annals of Medicine

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Joints with rheumatoid arthritis are a site for chronic inflammation involving T cells, B cells, macrophages and dendritic cells. When these cells interact cytokines are likely to be produced. The presence of different cytokines in the synovial fluid of patients with rheumatoid arthritis has been studied and the macrophage derived cytokines such as IL-1, IL-6, TNF-alpha, TGF-beta and PDGF have usually been detected in large quantities, whereas T cell produced cytokines (IL-2, IL-4, IFN-gamma) are absent or present in small quantities. IL-1, IL-6 and TNF-alpha have several functions which suggest that they participate in the chronic disease process of rheumatoid arthritis, such as increasing production of eicosanoid, collagenase and prostaglandin E2. Many synovial B cells are activated and produce large amounts of immunoglobulins. We searched for a B cell stimulatory activity in rheumatoid synovial fluid and found a B cell differentiation and helper activity. Cytokines in the joints of patients with rheumatoid arthritis seem central for the propagation of the disease process. Specific intervention in cytokine production or in its effects might help to relieve symptoms in rheumatoid patients.

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XENOGRAFT REJECTION OF PORCINE ISLET-LIKE CELL CLUSTERS IN IMMUNOGLOBULIN- OR Fc-RECEPTOR ??-DEFICIENT MICE1

et al. 1996

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The aim of the present study was to evaluate the role of xenoreactive antibodies in islet-like cell cluster (ICC) xenograft rejection. For this purpose, normal mice, mice with a targeted disruption of the Fc-receptor (FcR) gamma-chain, or the membrane exon of the immunoglobulin mu-chain gene, were transplanted with fetal porcine ICC under the kidney capsule. Mice lacking the FcR gamma have no functional FcR for IgG or IgE. Mice with disruption of the immunoglobulin mu-chain cannot produce antibodies, because B cell development is arrested at the stage of preB cells. All animals, irrespective of recipient group, readily rejected the ICC xenograft. Analyses of the pattern of cellular infiltration revealed only minor dissimilarities between the different experimental groups. Xenograft destruction was evident on day 6 after transplantation, and a large number of mononuclear cells were found to be evenly distributed throughout the ICC graft. The majority of the infiltrating cells were large, macrophage-like cells expressing the macrophage-specific phenotype marker F4/80. CD3-positive T lymphocytes were found to be mainly accumulated in the peripheral parts of the ICC xenograft. This study has demonstrated that xenoreactive antibodies are not crucial to ICC xenograft rejection in the pig-to-mouse model.

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Anna Ridderstad

Xenograft Rejection of Porcine Islet-Like Cell Clusters in Normal and Natural Killer Cell-Depleted Mice1

Cytokines in Rheumatoid Arthritis

XENOGRAFT REJECTION OF PORCINE ISLET-LIKE CELL CLUSTERS IN IMMUNOGLOBULIN- OR Fc-RECEPTOR ??-DEFICIENT MICE1

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