Fas ligand expression in islets of Langerhans does not confer immune privilege and instead targets them for rapid destruction

Kang, Sang Mo; Schneider, Darren B.; Lin, Zhonghua; Hanahan, Douglas; Dichek, David A.; Stock, Peter G.; Baekkeskov, Steinunn

doi:10.1038/nm0797-738

Cited by 436 publications

(267 citation statements)

References 40 publications

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“…26 In contrast with these experimental findings, the presence of FasL on the surface of allogenic pancreatic islets failed to protect these islets from allogenic rejection and this reaction was found to involve the formation of a granulocytic infiltrate. 22 Introduction of human or mouse FasL cDNA into murine tumor cells did not affect tumor growth in vitro but caused rejection of the tumor by infiltrating neutrophils with subsequent induction of tumorspecific protective immunity. 21 More recent data indicate that adenovirus-mediated gene transfer of mouse FasL induced tumor regression in animal models implanted with Fas-positive and -negative tumor cells.…”

Section: Discussionmentioning

confidence: 97%

“…First, Seino et al 21 showed that introduction of FasL cDNA into murine tumor cells did not affect growth in vitro but caused rejection in vivo. Further, Kang et al 22 reported that transplantation of islets of Langerhans infected with an adenoviral vector containing FasL into allogenic diabetic hosts underwent accelerated rejection. Transgenic expression of CD95 ligand on islet ␤ cells induced a granulocytic infiltration but did not confer immune privilege upon islet allografts.…”

Section: Correspondence: C Qian or J Prietomentioning

confidence: 99%

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Antitumor effect of allogenic fibroblasts engineered to express Fas ligand (FasL)

et al. 1998

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Section: Discussionmentioning

confidence: 97%

Section: Correspondence: C Qian or J Prietomentioning

confidence: 99%

Antitumor effect of allogenic fibroblasts engineered to express Fas ligand (FasL)

et al. 1998

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“…While allogeneic pancreatic islands transplanted together with syngeneic CD95L expressing myoblasts were tolerated, 7 allogeneic CD95L expressing pancreatic b cells were rejected due to increased neutrophil infiltration. 8 Lack of immunogenicity of tumors and resistance towards T cell attacks were also correlated with the expression of CD95L on tumor tissues. Such tumors were shown to kill CD95-positive cells in vitro.…”

mentioning

confidence: 95%

Membrane-bound CD95 ligand expressed on human antigen-presenting cells prevents alloantigen-specific T cell response without impairment of viral and third-party T cell immunity

et al. 2006

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Genetically modified antigen-presenting cells (APC) represent an attractive strategy for in vitro immunomodulation. In the human system, APC expressing HLA-A1 and a membrane-bound form of CD95L (m-CD95L) were used for selective depletion of HLA-A1-specific T cells. In short-term assays, m-CD95L-expressing APC-induced apoptosis in activated T cells and the constitutive presence of m-CD95L and HLA-A1 expressing APC in long-term T cell cultures prevented the expansion of CD4 þ and CD8 þ HLA-A1-specifc T cells and the development of HLA-A1-specific cytotoxicity. However, immunity towards third party, viral and bacterial antigens was maintained and T cells spared from depletion could be induced to develop cytotoxicity towards unrelated antigens. Interestingly, inhibition of HLA-A1-specific T cell response absolutely requires the coexpression of m-CD95L and HLA-A1 antigen on the same APC. Thus, m-CD95L expressing APC might be used in clinical settings to obtain tolerance induction in allogeneic transplantation systems or autoimmune diseases. Apoptosis mediated by the CD95 system plays a pivotal regulatory role in the maintenance of immune homeostasis. Deficiency in CD95 or CD95L expression in T cells mediates lymphoproliferative disorders due to the lack of apoptosis induction. 1 Paradoxically, several molecules of the CD95 signaling pathway are also required for T cell activation and proliferation. 2 In addition to T cells, live and death of antigenpresenting cells, which initiate T cell responses has to be tightly controlled to avoid the establishment of autoimmunity. 3 Activation-induced cell death (AICD) represents an apoptosis mechanism mediated via the interaction of CD95 with its ligand CD95L, to mediate T cell death and initiate the termination of an immune response to maintain tolerance to self antigens and to prevent autoimmunity. 4 Owing to the constitutive expression of CD95L in immune privileged organs such as testis or eye, 5,6 CD95L was considered as an immunoprotective agent able to counterattack activated T cells in vivo. However, the role of CD95L in transplantation tolerance is still controversial. While allogeneic pancreatic islands transplanted together with syngeneic CD95L expressing myoblasts were tolerated, 7 allogeneic CD95L expressing pancreatic b cells were rejected due to increased neutrophil infiltration. 8 Lack of immunogenicity of tumors and resistance towards T cell attacks were also correlated with the expression of CD95L on tumor tissues. Such tumors were shown to kill CD95-positive cells in vitro. 9 However, transfection of CD95L into murine tumor cells did not enhance tumor growth, but instead induced accelerated tumor rejection by neutrophils in vivo. [10][11][12] Systemic immunomodulation by CD95L was successfully achieved by antigen-presenting cells modified to express CD95L. 13 In mice antigen-specific elimination of activated T cells by engagement of CD95L on APC and CD95 on the activated T cells has been demonstrated in several models. 14,15 This approach benefits from the hig...

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“…111 Presumably, the combination of all these mechanisms predispose the islets to environmental damage both during culture and at the transplantation site, where inflammation is likely to occur shortly after implant even before alloimmune response starts. Potential approaches to avoid this situation can include the perfusion of the organs with solutions containing chemical inhibitors of apopto- Immunoregulatory genes Indoleamine 2,3-dioxygenase 222 CTLA-4Ig 203 Fas ligand 209 (although in a number of reports Fas ligand was not protective: 248 ) Adenoviral E3 genes 210 Autoantigen transfer GAD 270 Others Adenovirus E3 proteins 271 Orally administered putative autoantigens (insulin, GAD) 272À274 CD152 275 Therapeutics for type I diabetes mellitus R Bottino et al sis (ZVAD-fmk) as well as antiapoptotic genes like bcl-2, bcl-xL, and enzymes that break down, or prevent, the formation of free-radicals such as catalase, thioredoxin, heme-oxigenase-1 and superoxide dismutase. [112][113][114][115][116][117] Some of these antiapoptotic proteins fused to protein-transduction domains can successfully prevent apoptosis and significantly improve islet yield and survival following isolation.…”

Section: Insulin Replacement Strategiesmentioning

confidence: 99%

Gene- and cell-based therapeutics for type I diabetes mellitus

et al. 2003

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Fas ligand expression in islets of Langerhans does not confer immune privilege and instead targets them for rapid destruction

Cited by 436 publications

References 40 publications

Antitumor effect of allogenic fibroblasts engineered to express Fas ligand (FasL)

Antitumor effect of allogenic fibroblasts engineered to express Fas ligand (FasL)

Membrane-bound CD95 ligand expressed on human antigen-presenting cells prevents alloantigen-specific T cell response without impairment of viral and third-party T cell immunity

Gene- and cell-based therapeutics for type I diabetes mellitus

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