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ABSTRACT: In this study, we explored the immunomodulatory effects of viral interleukin (IL) IL-10 after ex vivo and in vivo gene transfer in experimental corneal transplantation. Wistar-Furth rats were used as donors and major histocompatibility complex class I/II-disparate Lewis rats served as recipients. For ex vivo gene therapy donor corneas were either transfected with liposome/vIL-10 plasmid DNA mixtures or transduced with a vIL-10 expressing adenovirus vector (AdvIL-10). For in vivo studies, recipients were treated with AdvIL-10 intraperitoneally 1 day before transplantation. Graft survival was analysed using the Kaplan-Meier survival method. To monitor the efficacy of the therapy messenger RNA (mRNA) cytokine expression profiles in grafts and draining lymph nodes were analysed by quantitative real-time reverse transcription-polymerase chain reaction. Moreover, anti-adenovirus immunity was also investigated. Neither ex vivo liposome-mediated vIL-10 gene transfer nor ex vivo AdvIL-10 gene transfer led to prolonged corneal allograft survival. In contrast, corneal allograft survival was significantly prolonged in animals receiving systemic AdvIL-10 gene transfer. Moreover, only systemic vIL-10 gene therapy modulated the cytokine mRNA expression profile in draining lymph nodes. Interestingly, systemic AdvIL-10 gene transfer could not inhibit the generation of anti-adenovirus antibodies. Our data indicate systemic expression of the vIL-10 gene is required to modulate the cytokine expression profile in the draining lymph nodes, which might be a pre-requisite for the success of cytokine gene therapy.
Gene Therapy 04/2007; 14(6):484-90. · 3.71 Impact Factor
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British Journal of Ophthalmology 07/2005; 89(6):648-9. · 2.90 Impact Factor
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ABSTRACT: Introduction of gene therapy into molecular medicine has been gaining increasing interest. Although treatment of various diseases e.g. monogenetic defects or cancer by using gene transfer technologies has been extensively probed, the clinical success has been limited. However, recent experimental data suggest that gene therapy may represent an attractive and powerful approach in preventing ischemia/reperfusion injury as well as organ rejection in transplant recipients. Easy and selective access to the donor organ facilitates the reduction of potentially harmful systemic side effects of gene therapy vectors. By introducing anti-apoptotic or cytoprotective genes, these studies focused on the protection of the transplant from the apoptotic cell death. In addition, down-regulation of adhesion molecules and/or blockade of gene expression in the graft itself also ameliorated ischemia/reperfusion injury. This review summarizes the current progress on gene therapy application in combating ischemia-reperfusion injury in organ transplantation. Although the use of viral vectors is emphasized, non-viral gene transfer techniques are also discussed. Future development of novel, low-immunogenic vectors should further contribute to the minimization of ischemia/reperfusion injury, and thus to the overall success of organ transplantation.
Current Gene Therapy 03/2005; 5(1):101-9. · 3.39 Impact Factor
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DMW - Deutsche Medizinische Wochenschrift 09/2003; 128(33):1711-4. · 0.53 Impact Factor
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Transplantation Proceedings 09/2002; 34(5):1465-6. · 1.00 Impact Factor
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Transplantation Proceedings 06/2001; 33(3):2092-3. · 1.00 Impact Factor
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ABSTRACT: Homing behavior and function of autoimmune CD4+ T cells in vivo was analyzed before and during EAE, using MBP-specific T cells retrovirally engineered to express the gene of green fluorescent protein. The cells migrate from parathymic lymph nodes to blood and to the spleen. Preceding disease onset, large numbers of effector cells invade the CNS, with only negligible numbers left in the periphery. In early EAE, most (>90%) infiltrating CD4+ cells were effector cells. Migratory effector cells downregulate activation markers (CD25, OX-40) but upregulate several chemokine receptors and adsorb MHC class II on their membranes. Within the CNS, the effector cells are reactivated, with upregulated proinflammatory cytokines and downmodulated T cell receptor-associated structures, presumably reflecting autoantigen recognition in situ.
Immunity 05/2001; 14(5):547-60. · 21.64 Impact Factor
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ABSTRACT: Gene therapy has gained increasing attention and a number of ongoing clinical trials have been initiated. This article provides current perspectives and limitations on gene therapy in ophthalmology. Since a number of comprehensive studies on gene therapy for retinal diseases already exist, we focus attention to the treatment of anterior segment disorders of the eye.
We undertook a reference search (DIMDI, PubMed) of articles published between (1989-2000) using the key words cornea, conjunctiva, eye, gene therapy, and keratoplasty. The search was restricted to publications in English, French and German. In addition, we incorporated some results of our recent experiments on cytokine gene transfer to the cornea.
Attention to gene therapy in ophthalmology is currently focused on retina and choroidea (40 articles) however, an increasing number of publications includes the cornea (12 articles). The majority of these contributions deals with improvements in the design of gene therapy vectors in particular for targeted application.
Gene therapy to the cornea may offer interesting new venues. Currently, insufficient gene transfer technologies and safety concerns prevent the broad application in humans. However, a broad spectrum of applications can be supposed.
Klinische Monatsblätter für Augenheilkunde 04/2001; 218(3):140-7. · 0.51 Impact Factor
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ABSTRACT: The extravasation and sequestration of Ag-reactive T lymphocytes into vascularized organ allografts depend on a cascade of complex interactions among circulating lymphocytes, endothelial cells, and extracellular matrix proteins. Ag-activated donor-specific CD4 T cells are major initiators and effectors in the allograft rejection response. Interfering with the intragraft homing of activated CD4 T cells may represent a novel therapeutic approach in transplant recipients. We have developed a FACS-based short-term homing assay that allows tracing in vitro-generated Ag-reactive CD4 T cells after adoptive transfer in test rat recipients. Allospecific cell lines were preincubated with anti-alpha(4)beta(1) or anti-alpha(L)beta(2) mAb, because of enhanced expression of both integrin receptors after alloactivation. The pretreated Lewis(BN) lymphocytes were carboxyfluorescein diacetate succinimidyl ester labeled and adoptively transferred into Lewis rat recipients of Brown Norway kidney allografts. The injection of equal numbers of PKH-26-labeled untreated cells allowed quantitative comparison of both populations in the same animal. Ex vivo treatment with anti-alpha(4)beta(1) mAb diminished intragraft infiltration of adoptively transferred T cells by 85% in a donor-specific fashion. In contrast, treatment with anti-alpha(L)beta(2) mAb did not affect intragraft cell sequestration. Hence, blocking alpha(4)beta(1) integrin interactions represents a novel strategy in preventing local intragraft recruitment of Ag-reactive CD4 T cells in transplant recipients.
The Journal of Immunology 02/2001; 166(1):596-601. · 5.79 Impact Factor
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ABSTRACT: E1-deleted adenoviral vectors are frequently used for in vivo gene therapy. However, gene expression after adenovirus-(ad) mediated gene transfer is known to be transient due to the generation of an immune response against virus-infected cells. In this study, we asked whether an anti-CD4 mAb (RIB 5/2) treatment may improve the gene transfer into rat cardiac grafts.
We injected recombinant ad-constructs encoding for Escherichia coli beta-gal into syngeneic rat heart transplants via the proximal aorta. One-half of the recipients of genetically modified grafts received the anti-CD4 mAb RIB 5/2, whereas the other half received no monoclonal antibody treatment. Genetically unmodified isografts without any treatment of the recipients were used as additional controls. At different time points hearts were harvested and analyzed for reporter gene expression, intragraft cellular infiltration, and cytokine gene expression (quantitative "real time" reverse transcriptase polymerase chain reaction). Serum samples were analyzed for anti-ad-Ig using enzyme-linked-immunosorbent-assay.
In control animals the beta-gal reporter gene expression slowly increased until day 7 and then declined. The immunohistological and reverse transcriptase polymerase chain reaction intragraft analyses revealed a strong inflammatory response (cellular infiltration, cytokine expression) in ad-transfected grafts that may explain the delayed expression and fast down-regulation of the transgene. Treatment with RIB 5/2 mAb resulted in a faster and prolonged reporter gene expression, reduced graft infiltration, reduced anti-ad-Ig titers and less interferon-gamma up-regulation.
Our results indicate that modulation of the anti-ad immune response using a nondepleting anti-CD4 mAb may increase the efficiency of ad-vectors for gene therapy in the transplant setting.
Transplantation 08/2000; 70(1):191-8. · 4.00 Impact Factor
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ABSTRACT: E1-deleted adenoviral vectors are efficient vectors for somatic gene therapy. Recently, we have shown that intratracheal application of an adenoviral reporter construct leads to significant reporter gene expression in rat lungs within 24 h. In contrast, reporter gene expression in syngeneic rat heart transplants after adenovirus-mediated gene transfer was delayed. Since the adenovirus cannot replicate, down-regulation of the hCMV-IE promoter controlled reporter gene expression in initially infected cells by cytokines, which are released as a result of ischemia/reperfusion injury, might be involved. In order to investigate the role of proinflammatory cytokines, eg TNF-alpha in affecting hCMV-IE promoter-driven reporter gene expression, transient blockade of TNF-alpha was achieved by local co-application of an Ad-construct encoding for a soluble TNFRp55-Ig chimeric molecule in a syngeneic rat heart transplantation model. Co-application of the reporter construct together with the TNFRp55-Ig chimeric molecule significantly increased the early reporter gene expression after transplantation. Moreover, infiltration of inflammatory cells (T cells, macrophages, NK cells) and production of TNF-alpha in the transplant was markedly reduced. Our results indicate that: (1) proinflammatory cytokines are involved in down-regulation of reporter gene expression in ischemia/reperfusion injured tissues; and (2) inhibition of TNF-alpha might be a useful tool to increase early gene expression in gene therapy protocols, particularly in transplantation. Gene Therapy (2000) 7, 1238-1243.
Gene Therapy 08/2000; 7(14):1238-43. · 3.71 Impact Factor
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ABSTRACT: T lymphocytes, regardless of their specificity, are considered key targets for genetic modification in the treatment of inherited or acquired human diseases. In this study, we generated Lewis T cell lines specific for Dark Agouti rat alloantigens and tested the potential of allospecific T lymphocytes as carriers of genes encoding therapeutic proteins in transplantation gene therapy. These allospecific T lymphocytes were successfully, stably transduced with enhanced green fluorescent protein (EGFP) by an Mo-MuLV-based retrovirus vector. A novel gene delivery protocol was utilized, resulting in nearly 100% EGFP-expressing T cells. This approach enabled tracking of allospecific transduced T cells in vivo and illustrates their transgene production by fluorometric determination after ex vivo isolation. Quantitation of EGFP transgene expression was used to determine the influence of T cell receptor-specific activation on transgene regulation. A strict positive correlation between activation state and expression level was detected in vitro and in vivo. The activation-induced increase in transgene expression could be blocked by interference with T cell activation signaling pathways by cyclosporin A, anti-CD4 MAb, or CTLA4-Ig. These data provide strong evidence that direct or indirect effects caused by activation-induced transcription factors are crucial in transgene upregulation. Allospecific activation in spleens, lymph nodes, and transplanted grafts can be considered as antigen-specific targeting strategy. This activation might be useful in expressing therapeutic proteins such as TGF-beta or IL-10 specific to these sites. T lymphocyte priming and activation might be prevented or altered by modification of the local microenvironments, thereby exerting a therapeutic influence on acute and chronic graft rejection processes.
Human Gene Therapy 07/2000; 11(9):1303-11. · 4.22 Impact Factor
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ABSTRACT: We have previously shown that the tolerant state in allograft recipients can be maintained and perpetuated by an "infectious" T cell-dependent regulatory mechanism. Hence, 1) treatment of LEW rats with RIB-5/2, a CD4 nondepleting mAb, produces indefinite survival of LBNF1 cardiac allografts; 2) donor-specific tolerance can be then transferred by spleen cells into new cohorts of test allograft recipients; and 3) putative regulatory CD4+ Th2-like cells are instrumental in this tolerance model. We now report on studies aimed at exposing mechanisms underlying the infectious tolerance pathway, with emphasis on the interactions between intragraft adenovirus-IL-4 gene transfer and systemic infusion of regulatory cells from tolerant hosts. Unlike individual treatment regimens, adjunctive therapy with adenovirus-IL-4 and suboptimal doses of regulatory spleen cells was strongly synergistic and extended donor-type test cardiac allograft survival to about 2 mo. RT-PCR-based expression of intragraft mRNA coding for IL-2 and IFN-gamma remained depressed, whereas that of IL-4 and IL-10 reciprocally increased selectively in the combined treatment group, data supported by ELISA studies. In parallel, only adjunctive treatment triggered intragraft induction of molecules with anti-oxidant (HO-1) and anti-apoptotic (Bcl-xL/Bag-1) but not with pro-apoptotic (CPP-32) functions, both in the early and late posttransplant phases. Hence, systemic infusion of regulatory cells potentiates the effects of local adenovirus-IL-4 gene transfer in transplant recipients. Th2-driven up-regulation of protective molecule programs at the graft site, such as of anti-oxidant HO-1 and/or anti-apoptotic Bcl-xL and Bag-1, may contribute, at least in part, to the maintenance of the infectious tolerance pathway in transplant recipients.
The Journal of Immunology 07/2000; 164(11):5739-45. · 5.79 Impact Factor
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ABSTRACT: Genetic manipulation of the donor cornea ex vivo prior to transplantation may allow modulation of the allogeneic immune response following penetrating keratopasty. In this study we investigated the effect of adenovirus-mediated gene transfer of the Th2 cytokine interleukin-4 (IL-4) to rat corneas in an experimental keratoplasty model.
Ex vivo manipulation of Wistar-Furth rat corneas was performed using E1/E3-deleted adenoviral vectors transferring the gene for rat IL-4 (AdrIL-4) under control of the CMV promoter. Following transfection with AdrIL-4 (2 x 10(8) pfu) in DMEM/2% FCS for 3 h, donor corneas were transplanted in MHC class I/II-incompatible Lewis rats. Fifty-two Lewis rats were randomly assigned to receive either nontransfected grafts (n=32), AdrIL-4-transfected grafts (n=8), or syngeneic grafts (n=12).
The rejection rate of AdrIL-4-transfected grafts (85.7%) could not be reduced as compared to controls (62.9%). In addition, the mean survival time of AdrIL-4-transfected grafts (12.6+/-4.5 days) did not differ (P>0.05) from that for untreated transplants (14.1+/-3.8 days).
Our results indicate that overexpression of IL-4 is not sufficient to reduce the rejection rate of corneal allografts in an experimental keratoplasty model. Further investigations are necessary to identify the reasons for failure and establish more efficient modulatory approaches.
Albrecht von Graæes Archiv für Ophthalmologie 06/2000; 238(6):531-6. · 2.17 Impact Factor
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Transplantation Proceedings 04/2000; 32(2):245-6. · 1.00 Impact Factor
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F Amersi,
R Buelow,
H Kato,
B Ke,
A J Coito,
X D Shen,
D Zhao,
J Zaky,
J Melinek,
C R Lassman,
J K Kolls,
J Alam, T Ritter,
H D Volk,
D G Farmer,
R M Ghobrial,
R W Busuttil,
J W Kupiec-Weglinski
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ABSTRACT: We examined the effects of upregulation of heme oxygenase-1 (HO-1) in steatotic rat liver models of ex vivo cold ischemia/reperfusion (I/R) injury. In the model of ischemia/isolated perfusion, treatment of genetically obese Zucker rats with the HO-1 inducer cobalt protoporphyrin (CoPP) or with adenoviral HO-1 (Ad-HO-1) significantly improved portal venous blood flow, increased bile production, and decreased hepatocyte injury. Unlike in untreated rats or those pretreated with the HO-1 inhibitor zinc protoporphyrin (ZnPP), upregulation of HO-1 by Western blots correlated with amelioration of histologic features of I/R injury. Adjunctive infusion of ZnPP abrogated the beneficial effects of Ad-HO-1 gene transfer, documenting the direct involvement of HO-1 in protection against I/R injury. Following cold ischemia/isotransplantation, HO-1 overexpression extended animal survival from 40% in untreated controls to about 80% after CoPP or Ad-HO-1 therapy. This effect correlated with preserved hepatic architecture, improved liver function, and depressed infiltration by T cells and macrophages. Hence, CoPP- or gene therapy-induced HO-1 prevented I/R injury in steatotic rat livers. These findings provide the rationale for refined new treatments that should increase the supply of usable donor livers and ultimately improve the overall success of liver transplantation.
Journal of Clinical Investigation 01/2000; 104(11):1631-9. · 15.39 Impact Factor
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Experimental Eye Research 12/1999; 69(5):563-8. · 3.26 Impact Factor
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ABSTRACT: Recently we have demonstrated that the nondepleting anti-CD4 monoclonal antibody (mAb) RIB5/2 induces long-term acceptance of kidney and heart allografts in all rat strain combinations tested. Cytokine gene expression studies by reverse transcriptase-polymerase chain reaction revealed a reversed intragraft interleukin (IL)-4/interferon-gamma ratio. Whether IL-4 mediated immune deviation contributes to transplantation tolerance is not clear so far.
To learn more about the functional relevance of the relative IL-4 up-regulation, IL-4 was overexpressed in rat heart allografts by using ex vivo adenoviral gene transfer. The efficiency of gene transfer was analyzed by reporter gene assays as well by reverse transcriptase-polymerase chain reaction analysis of IL-4 mRNA expression.
The intragraft overexpression of IL-4 did not prolong the allograft survival compared with controls. Moreover, neutralization of IL-4 by OX81 mAb did not prevent tolerance induction by RIB5/2 treatment.
Anti-CD4 mAb-induced tolerance is associated with an intragraft type1/type2 shift, however, the up-regulation of IL-4 alone is neither sufficient nor essential to induce tolerance to cardiac allografts in a high-responder strain combination.
Transplantation 12/1999; 68(9):1427-31. · 4.00 Impact Factor
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ABSTRACT: CD4-targeted therapy or blocking of CD28-B7 T-cell costimulation may produce indefinite cardiac allograft survival in presensitized rats. This study analyzes the immune events associated with tolerance pathways after the blockade of activation signal 1 (CD4 monoclonal antibody [mAb]) or signal 2 (CTLA4Ig).
Lewis rats sensitized with Brown Norway skin grafts reject LBNF1 cardiac allografts in <36 hr. Animals were treated with RIB-5/2, a nondepleting CD4 mAb, or with CTLA4Ig + LBNF1 spleen cells. RIB-5/2 monotherapy uniformly produced permanent cardiac graft acceptance, whereas CTLA4Ig produced indefinite graft survival in about 50% of sensitized rats. Spleen cells (100 x 10(6)) from CD4 mAb-treated rats conferred donor-specific tolerance after transfer into new sets of recipients. This tolerant state could be then transferred with regulatory cells in an infectious manner into new cohorts of engrafted rats. In contrast, features of infectious tolerance could be detected in CTLA4Ig-treated hosts after infusion of >300 x 10(6) of splenocytes. CD4 mAb therapy abolished the transcription of both T helper (Th)1 and Th2 cytokines compared with rejecting controls. In contrast, CTLA4Ig treatment resulted in a selective sparing of Th2-type cytokines. Surviving grafts in both groups were largely protected from signs of chronic rejection.
CD4 mAb-induced blockage of activation signal 1 or CTLA4Ig-mediated blockage of costimulatory signal 2 may induce a true transplantation tolerance in sensitized rats, as documented by permanent graft acceptance and attenuation of chronic injury. The infectious pathway operates in a cell dose-dependent manner. Th2-type deviation in the graft itself is not required for tolerance maintenance, and it does not necessarily lead to chronic injury.
Transplantation 08/1999; 68(2):288-93. · 4.00 Impact Factor
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ABSTRACT: We have shown that features of infectious tolerance, as originally described in thymectomized mice, may be applied to euthymic rat recipients of heart transplants. We now report on studies aimed at exposing mechanisms underlying the infectious tolerance pathway, with emphasis on the role of thymus and alloantigen. Pretransplant thymectomy diminished the efficacy of CD4-targeted therapy, with donor-specific tolerance induced in approximately 50% of recipients. Thymus was required for generation of regulatory T cells under the cover of CD4 mAb therapy and for the ability of these cells to confer infectious tolerance. However, thymus was not mandatory to maintain an infectious-permissive environment in cohorts of adoptively transferred recipients. Intragraft expression of IL-2, IL-4, and IL-10 genes was diminished in euthymic and thymectomized tolerant hosts. However, grafts in the latter group showed significant IFN-gamma gene expression, suggesting a less efficient down-regulation of Th1-like cells in the absence of regulatory cells. Indeed, exogenous challenge with rIL-2 or freshly alloactivated spleen cells recreated rejection in thymectomized, but not euthymic, hosts, suggesting that a state of cytokine-responsive anergy contributes to the "noninfectious" form of tolerance in thymectomized rats. The infection-tolerant state did not result from "graft adaptation," and regulatory T cells restricted for the original alloantigen were exposed to its continuous stimulation. The effective memory for suppression was dependent upon persistent donor-specific alloantigen stimulation; it disappeared within 3 weeks after its removal. Hence, both central and peripheral immune mechanisms, orchestrated by the tolerizing alloantigen, contribute to the infectious tolerance pathway in CD4 mAb-treated rat transplant recipients.
The Journal of Immunology 07/1998; 160(12):5765-72. · 5.79 Impact Factor
