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201. Rapamycin protects allografts from rejection while simultaneously attacking tumors in immunosuppressed mice.

Author

Koehl GE, Andrassy J, Guba M, Richter S, Kroemer A, Scherer MN, Steinbauer M, Graeb C, Schlitt HJ, Jauch KW, and Geissler EK

Subjects
Adenocarcinoma complications, Animals, Colonic Neoplasms complications, Cyclosporine pharmacology, Drug Therapy, Combination, Graft Rejection complications, Graft Rejection immunology, Immunosuppressive Agents pharmacology, Male, Melanoma complications, Melanoma drug therapy, Mice, Mice, Inbred BALB C, Mice, Inbred C3H, Mice, Inbred C57BL, Mice, SCID, Skin Neoplasms complications, Skin Neoplasms drug therapy, Transplantation, Homologous, Adenocarcinoma drug therapy, Antibiotics, Antineoplastic pharmacology, Colonic Neoplasms drug therapy, Graft Rejection drug therapy, Heart Transplantation, Sirolimus pharmacology
Abstract

Cancer is an increasingly recognized problem associated with immunosuppression. Recent reports, however, suggest that the immunosuppressive agent rapamycin has anti-cancer properties that could address this problem. Thus far, rapamycin's effects on immunity and cancer have been studied separately. Here we tested the effects of rapamycin, versus cyclosporine A (CsA), on established tumors in mice simultaneously bearing a heart allograft. In one tumor-transplant model, BALB/c mice received subcutaneous syngenic CT26 colon adenocarcinoma cells 7 days before C3H ear-heart transplantation. Rapamycin or CsA treatment was initiated with transplantation. In a second model system, a B16 melanoma was established in C57BL/6 mice that received a primary vascularized C3H heart allograft. In vitro angiogenic effects of rapamycin and CsA were tested in an aortic ring assay. Results show that CT26 tumors grew for 2 weeks before tumor complications occurred. However, rapamycin protected allografts, inhibited tumor growth, and permitted animal survival. In contrast, CsA-treated mice succumbed to advancing tumors, albeit with a functioning allograft. Rapamycin's antitumor effect also functioned in severe combined immunodeficient BALB/c mice. Similar effects of the drugs occurred with B16 melanomas and primary vascularized C3H allografts in C57BL/6 mice. Furthermore, in this model, rapamycin inhibited the tumor growth-enhancing effects of CsA. Moreover, in vitro experiments showed that CsA promotes angiogenesis by a transforming growth factor-beta-related mechanism, and that this effect is abrogated by rapamycin. This study demonstrates that rapamycin simultaneously protects allografts from rejection and attacks tumors in a complex transplant-tumor situation. Notably, CsA protects allografts from rejection, but cancer progression is promoted in transplant recipients.

Published
2004
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202. Rapamycin-induced endothelial cell death and tumor vessel thrombosis potentiate cytotoxic therapy against pancreatic cancer.

Author

Bruns CJ, Koehl GE, Guba M, Yezhelyev M, Steinbauer M, Seeliger H, Schwend A, Hoehn A, Jauch KW, and Geissler EK

Subjects
Animals, Blood Flow Velocity drug effects, Cell Death, Cell Division drug effects, Deoxycytidine therapeutic use, Endothelium, Vascular drug effects, Humans, Male, Mice, Mice, Nude, Transplantation, Heterologous, Gemcitabine, Angiogenesis Inhibitors therapeutic use, Deoxycytidine analogs & derivatives, Endothelium, Vascular pathology, Neovascularization, Pathologic drug therapy, Pancreatic Neoplasms blood supply, Pancreatic Neoplasms pathology, Sirolimus therapeutic use
Abstract

Purpose: Despite current chemotherapies, pancreatic cancer remains an uncontrollable, rapidly progressive disease. Here, we tested an approach combining a recently described antiangiogenic drug, rapamycin, with standard gemcitabine cytotoxic therapy on human pancreatic tumor growth., Experimental Design: Tumor growth was assessed in rapamycin and gemcitabine-treated nude mice orthotopically injected with metastatic L3.6pl human pancreatic cancer cells. H&E staining was performed on tumors, along with Ki67 staining for cell proliferation and immunohistochemical terminal deoxynucleotidyl transferase-mediated nick end labeling and CD31 analysis. Rapamycin-treated tumor vessels were also directly examined in dorsal skin-fold chambers for blood flow after thrombosis induction. Cell death in human umbilical vein endothelial cells was assessed by flow cytometry after annexin-V staining., Results: Rapamycin therapy alone inhibited tumor growth and metastasis more than gemcitabine, with remarkable long-term tumor control when the drugs were combined. Mechanistically, H&E analysis revealed tumor vessel endothelium damage and thrombosis with rapamycin treatment. Indeed, dorsal skin-fold chamber analysis of rapamycin-treated tumors showed an increased susceptibility of tumor-specific vessels to thrombosis. Furthermore, terminal deoxynucleotidyl transferase-mediated nick end labeling/CD31 double staining of orthotopic tumors demonstrated apoptotic endothelial cells with rapamycin treatment, which also occurred with human umbilical vein endothelial cells in vitro. In contrast, gemcitabine was not antiangiogenic and, despite its known cytotoxicity, did not reduce proliferation in orthotopic tumors; nevertheless, rapamycin did reduce tumor proliferation., Conclusions: Our data suggest a novel mechanism whereby rapamycin targets pancreatic tumor endothelium for destruction and thrombosis. We propose that rapamycin-based vascular targeting not only reduces tumor vascularization, it decreases the number of proliferating tumor cells to be destroyed by gemcitabine, thus introducing a new, clinically feasible strategy against pancreatic cancer.

Published
2004
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203. Blockage of 2-deoxy-D-ribose-induced angiogenesis with rapamycin counteracts a thymidine phosphorylase-based escape mechanism available for colon cancer under 5-fluorouracil therapy.

Author

Seeliger H, Guba M, Koehl GE, Doenecke A, Steinbauer M, Bruns CJ, Wagner C, Frank E, Jauch KW, and Geissler EK

Subjects
Adenocarcinoma blood supply, Animals, Antimetabolites, Antineoplastic therapeutic use, Aorta, Thoracic physiology, Colonic Neoplasms blood supply, Disease Models, Animal, Immunosuppressive Agents, Liver Neoplasms prevention & control, Liver Neoplasms secondary, Male, Mice, Mice, Inbred BALB C, Mice, SCID, Muscle, Smooth, Vascular physiology, Rats, Rats, Inbred ACI, Adenocarcinoma drug therapy, Colonic Neoplasms drug therapy, Deoxyribose pharmacology, Fluorouracil therapeutic use, Neovascularization, Pathologic prevention & control, Sirolimus pharmacology, Thymidine Phosphorylase metabolism
Abstract

Purpose: Colorectal neoplasms remain a leading cause of cancer-related deaths. A recognized weakness of conventional 5-fluorouracil (5-FU) therapy relates to expression of the intracellular enzyme, thymidine phosphorylase (TP). Although TP promotes 5-FU cytotoxicity, TP-derived 2-deoxy-D-ribose (dRib) counterproductively stimulates tumor angiogenesis. Here, the newly discovered antiangiogenic drug rapamycin was combined with 5-FU to counteract the potential escape mechanism of dRib-induced angiogenesis., Experimental Design: Orthotopic tumor growth was assessed in rapamycin and 5-FU-treated BALB/c mice with TP-expressing CT-26 colon adenocarcinoma cells. To examine liver metastasis, green-fluorescent protein-transfected CT-26 cells were visualized by fluorescence microscopy after intraportal injection. Cell counting and Ki67 staining were used to determine in vitro and in vivo cell expansion, respectively. In vitro angiogenic effects of dRib were assessed with endothelial cell migration and aortic ring assays. Western blotting detected dRib effects on p70/S6 kinase activation., Results: Rapamycin treatment of mice bearing orthotopic tumors inhibited tumor growth more than did 5-FU, and mice treated with both drugs typically developed no tumors. In the liver metastasis assay, combination therapy blocked metastatic expansion of solitary tumor cells. Interestingly, complex drug activities were suggested by tumor-cell proliferation being more sensitive to 5-FU than to rapamycin in vitro, but more sensitive to rapamycin in vivo. With regard to angiogenesis, dRib-induced endothelial cell migration and aortic ring formation were completely abrogated by rapamycin, correlating with blockage of dRib-induced p70/S6 kinase activation in endothelial cells., Conclusions: Inhibition of dRib-induced angiogenesis with rapamycin counteracts a potential TP-based escape mechanism for colorectal cancer under 5-FU therapy, introducing a novel, clinically feasible, combination treatment option for this common neoplasm.

Published
2004
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204. GFP-transfected tumor cells are useful in examining early metastasis in vivo, but immune reaction precludes long-term tumor development studies in immunocompetent mice.

Author

Steinbauer M, Guba M, Cernaianu G, Köhl G, Cetto M, Kunz-Schughart LA, Geissler EK, Falk W, and Jauch KW

Subjects
Animals, Body Weight, Bromodeoxyuridine, Cell Division, Cell Survival, Colonic Neoplasms immunology, Genetic Vectors, Green Fluorescent Proteins, Humans, Immunocompetence, Luminescent Proteins immunology, Mice, Mice, Inbred BALB C, Mice, Nude, Mice, SCID, Microscopy, Fluorescence, Transfection, Adenocarcinoma immunology, Adenocarcinoma secondary, B-Lymphocytes immunology, Colonic Neoplasms pathology, Liver Neoplasms immunology, Liver Neoplasms secondary, Luminescent Proteins genetics, T-Lymphocytes immunology
Abstract

To develop effective therapeutic strategies aimed at treating tumor metastasis, critical steps in this process must be better understood. For this purpose we have established a new model to visualize and quantify early metastasis. Murine CT-26 colon adenocarcinoma cells were stably transfected with green fluorescent protein (GFP). Tumor cells were intraportally delivered to the liver of Balb/c mice and subsequently tracked by intravital fluorescence microscopy. Coinjection of fluorescent beads and in vivo propidium iodide staining allowed examination of initial tumor cell arrest, extravasation, viability and proliferation. Results showed that GFP-transfection compared to conventional labeling procedures (Calcein, cytoplasmic microspheres) did not alter early metastatic properties. However, the long-term development of liver metastases expressing GFP was markedly reduced compared to wild type CT-26 tumor cells. An increase in the size and the number of liver metastases in T- and B-cell-deficient SCID mice suggested an immune response to the GFP transfected cells responsible for the reduced metastatic growth in wild-type mice. Based on our findings, this model can be used to examine the early steps of metastasis in vivo. However, in immunocompetent mice, the use of GFP-labeled tumor cells should be limited to tracking cell arrest and extravasation, whereas evaluations of long-term metastatic growth should be performed in immunodeficient mice.

Published
2003
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205. Elevated MIA serum levels are predictors of poor prognosis after surgical resection of metastatic malignant melanoma.

Author

Guba M, Steinbauer M, Ruhland V, Schütz A, Geissler EK, Anthuber M, Vogt T, Bosserhoff A, and Jauch KW

Subjects
Adult, Aged, Enzyme-Linked Immunosorbent Assay, Extracellular Matrix Proteins, Female, Humans, Lymphatic Metastasis, Male, Melanoma mortality, Melanoma surgery, Middle Aged, Neoplasm Metastasis, Prognosis, Time Factors, Melanoma blood, Melanoma diagnosis, Neoplasm Proteins blood
Abstract

The secreted MIA protein is upregulated in melanocytic tumors and expression parallels the progressive malignancy of melanoma cells. Recent reports suggest MIA as a diagnostic tumor marker that may also serve as an indicator of tumor progression. In this study we evaluated the association between pre- and post-treatment serum levels of MIA and survival in 70 patients with advanced melanoma. Elevated (> or = 8.8 ng/ml) pre-treatment levels of MIA predicted a poor prognosis in these patients. Overall median survival in stages III and IV was 13 months in MIA positive patients, compared to 28 months in patients with negative pre-treatment MIA levels. The staging-related analysis showed a median survival of 14 months in MIA positive patients, versus 28 months in MIA negative patients in stage III, and 12, versus 19, months in stage IV melanoma, respectively. In addition, there was a trend towards a poorer survival in patients where MIA serum levels remained high after surgery. Therefore, determination of pre- and post-treatment serum MIA levels could be useful for the management and prognosis of metastatic melanoma patients.

Published
2002

206. Lymphotoxin-beta receptor immune interaction promotes tumor growth by inducing angiogenesis.

Author

Hehlgans T, Stoelcker B, Stopfer P, Müller P, Cernaianu G, Guba M, Steinbauer M, Nedospasov SA, Pfeffer K, and Männel DN

Subjects
Animals, Cell Division immunology, Cell Division physiology, Female, Fibrosarcoma immunology, Fibrosarcoma pathology, Lymphotoxin beta Receptor, Lymphotoxin-alpha antagonists & inhibitors, Lymphotoxin-alpha immunology, Lymphotoxin-beta, Membrane Proteins antagonists & inhibitors, Membrane Proteins immunology, Mice, Mice, Inbred C57BL, Neovascularization, Pathologic pathology, Receptors, Tumor Necrosis Factor antagonists & inhibitors, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins immunology, Recombinant Fusion Proteins metabolism, Signal Transduction immunology, Transfection, Fibrosarcoma blood supply, Neovascularization, Pathologic immunology, Receptors, Tumor Necrosis Factor immunology
Abstract

Growth of solid fibrosarcoma tumors in mice was inhibited by the release of a solublelymphotoxin-beta receptor inhibitor (LTbetaR-immunoglobulin fusion protein) from the tumor cells. Tumor growth arrest in mice deficient in the ligand LTalpha1beta2 demonstrated the requirement for activation of the LTbetaR on the tumor cells by host cell-derived LTalpha1beta2. Activation of the LTbetaR resulted in enhanced release of macrophage inflammatory protein-2. Blocked angiogenesis was revealed in LTbetaR inhibitor-producing tumor nodules by immunohistochemistry and in vivo microscopy. The growth arrest of LTbetaR inhibitor-producing fibrosarcomas was overcome by forced MIP-2 expression in the tumor cells. Thus, LTbetaR activation on tumor cells by activated host lymphocytes can initiate a novel proangiogenic pathway leading to organized tumor tissue development.

Published
2002

207. Rapamycin inhibits primary and metastatic tumor growth by antiangiogenesis: involvement of vascular endothelial growth factor.

Author

Guba M, von Breitenbuch P, Steinbauer M, Koehl G, Flegel S, Hornung M, Bruns CJ, Zuelke C, Farkas S, Anthuber M, Jauch KW, and Geissler EK

Subjects
Adenocarcinoma blood supply, Animals, Mice, Mice, Inbred BALB C, Vascular Endothelial Growth Factor A, Vascular Endothelial Growth Factors, Adenocarcinoma drug therapy, Angiogenesis Inhibitors therapeutic use, Antibiotics, Antineoplastic therapeutic use, Endothelial Growth Factors physiology, Lymphokines physiology, Neoplasm Metastasis prevention & control, Neovascularization, Pathologic prevention & control, Sirolimus therapeutic use
Abstract

Conventional immunosuppressive drugs have been used effectively to prevent immunologic rejection in organ transplantation. Individuals taking these drugs are at risk, however, for the development and recurrence of cancer. In the present study we show that the new immunosuppressive drug rapamycin (RAPA) may reduce the risk of cancer development while simultaneously providing effective immunosuppression. Experimentally, RAPA inhibited metastatic tumor growth and angiogenesis in in vivo mouse models. In addition, normal immunosuppressive doses of RAPA effectively controlled the growth of established tumors. In contrast, the most widely recognized immunosuppressive drug, cyclosporine, promoted tumor growth. From a mechanistic perspective, RAPA showed antiangiogenic activities linked to a decrease in production of vascular endothelial growth factor (VEGF) and to a markedly inhibited response of vascular endothelial cells to stimulation by VEGF. Thus, the use of RAPA, instead of cyclosporine, may reduce the chance of recurrent or de novo cancer in high-risk transplant patients.

Published
2002
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208. A primary tumor promotes dormancy of solitary tumor cells before inhibiting angiogenesis.

Author

Guba M, Cernaianu G, Koehl G, Geissler EK, Jauch KW, Anthuber M, Falk W, and Steinbauer M

Subjects
Animals, Blood Vessels pathology, Green Fluorescent Proteins, Immunohistochemistry, Ki-67 Antigen analysis, Luminescent Proteins genetics, Luminescent Proteins metabolism, Male, Mice, Mice, Inbred BALB C, Mice, SCID, Neoplasms, Experimental genetics, Neoplasms, Experimental metabolism, Neoplasms, Second Primary genetics, Neoplasms, Second Primary metabolism, Neoplasms, Second Primary pathology, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Time Factors, Tumor Cells, Cultured, Neoplasm Metastasis prevention & control, Neoplasms, Experimental pathology, Neovascularization, Pathologic prevention & control
Abstract

Mechanisms that regulate the transition of micrometastases from clinically undetectable and dormant to progressively growing are critically important but poorly understood in cancer biology. Here we examined the effect of a primary tumor on the growth of solitary tumor cells in the mouse liver, as well as on the development of tumor angiogenesis in a dorsal skin-fold chamber. s.c. placement of a CT-26 (BALB/c-derived mouse colon carcinoma) primary tumor markedly inhibited development of liver metastasis in BALB/c mice after subsequent intraportal injection of tumor cells. Dorsal skin-fold chamber experiments showed that this growth inhibition paralleled a strong antiangiogenic effect by the primary tumor. Furthermore, intravital microscopy of the liver after intraportal injection of green fluorescent protein-expressing tumor cells showed that primary tumors promoted dormancy of single tumor cells for up to 7 days. Immunohistological staining for Ki-67 confirmed that these solitary cells were indeed dormant. In contrast, in the absence of a primary tumor, GFP-expressing tumor cells quickly developed into micrometastases. Thus, primary CT-26 tumor implants nearly abrogated tumor metastasis by inhibition of angiogenesis and by promoting a state of single-cell dormancy. Knowledge of the mechanism underlying this dormancy state could result in the development of new therapeutic tools to fight cancer.

Published
2001

209. Impact of polynitroxylated albumin (PNA) and tempol on ischemia/reperfusion injury: intravital microscopic study in the dorsal skinfold chamber of the Syrian golden hamster.

Author

Steinbauer M, Guba M, Büchner M, Farkas S, Anthuber M, and Jauch KW

Subjects
Albumins administration & dosage, Albumins pharmacology, Animals, Antioxidants pharmacology, Antioxidants therapeutic use, Blood Viscosity, Cell Adhesion, Coloring Agents, Cricetinae, Cyclic N-Oxides pharmacology, Dose-Response Relationship, Drug, Drug Evaluation, Preclinical, Drug Synergism, Fluorescent Dyes analysis, Fluorescent Dyes pharmacokinetics, Free Radical Scavengers pharmacology, Ischemia pathology, Leukocytes pathology, Mesocricetus, Microscopy, Fluorescence, Nitric Oxide Donors pharmacology, Nitrogen Oxides administration & dosage, Nitrogen Oxides pharmacology, Oxidative Stress, Prostheses and Implants, Reperfusion Injury drug therapy, Reperfusion Injury pathology, Skin pathology, Spin Labels, Albumins therapeutic use, Cyclic N-Oxides therapeutic use, Free Radical Scavengers therapeutic use, Ischemia drug therapy, Nitric Oxide Donors therapeutic use, Nitrogen Oxides therapeutic use, Reperfusion Injury prevention & control, Skin blood supply
Abstract

Nitric oxide-releasing drugs have been shown to reduce ischemia/reperfusion (I/R) injury by acting as radical scavengers. However, their therapeutic application is hampered by specific side effects and rapid bioreduction in vivo. The half-life and antioxidant activity of nitroxides may be enhanced by their covalent binding to human serum albumin, resulting in polynitroxyl albumin (PNA). Thus, PNA may represent a novel antioxidative drug. The objectives of this study were to elucidate 1) whether PNA is able to diminish I/R injury; 2) the most effective dose of PNA in vivo; and 3) whether the addition of the nitroxide tempol enhances and/or prolongs the effect of PNA. Experiments were performed using a 4-h tourniquet-induced ischemia model in the hamster dorsal skinfold chamber. In the first part, five groups (n = 6) of animals received an infusion of 1) 1% body weight (b.w.) saline (0.9%); 2) 0.5% b.w. albumin (20%); 3) 0.5% b.w. PNA (20%); 4) 1% b.w. albumin (20%); and 5) 1% b.w. PNA (20%) 15 min prior to reperfusion. In the second part of the study, tempol (17 mg/mL) was added either to albumin or PNA (1:9), and 0.5% b.w. of this solution was infused (Group 6: tempol + albumin 0.5% b.w.; Group 7: tempol + PNA 0.5% b.w.). Intravital fluorescence microscopy allowed for quantification of functional capillary density (FCD), leukocyte adherence, extravasation of fluorescein isothiocyanate-labeled Dextran and non-viable (Propidium-positive) cell count prior to ischemia and 0.5 h, 2 h, and 24 h after reperfusion. PNA and--to a lesser extent albumin--effectively reduced postischemic microvascular perfusion failure, leukocyte adhesion, and tissue injury. PNA was most effective in the dose 1% b.w. Although free oxygen radical scavenging seems to be an underlying mechanism leading to the beneficial effects of PNA on I/R injury, hemodilution and known radical scavenging properties of pure albumin contribute in part to the observed effects. Although the combination of tempol and PNA revealed further short-term effects on microvascular perfusion and leukocyte adhesion, it did not result in a long-term improvement of tissue injury.

Published
2000
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210. Differential effects of short-term ace- and AT1-receptor inhibition on postischemic injury and leukocyte adherence in vivo and in vitro.

Author

Guba M, Steinbauer M, Büchner M, Frölich D, Farkas S, Jauch KW, and Anthuber M

Subjects
Animals, Capillaries drug effects, Cell Adhesion, Cell Death drug effects, Cell Hypoxia, Cell Line drug effects, Cricetinae, Enalapril pharmacology, Endothelium, Vascular cytology, Endothelium, Vascular drug effects, Hemodynamics, Hemorheology, Humans, Interleukin-1 pharmacology, Leukocytes cytology, Losartan pharmacology, Mesocricetus, Neutrophils cytology, Neutrophils drug effects, Receptor, Angiotensin, Type 1, Receptor, Angiotensin, Type 2, Receptors, Angiotensin metabolism, Reperfusion Injury drug therapy, Angiotensin Receptor Antagonists, Angiotensin-Converting Enzyme Inhibitors pharmacology, Leukocytes metabolism, Peptidyl-Dipeptidase A metabolism, Reperfusion Injury metabolism
Abstract

There is recent evidence that angiotensin-converting enzyme (ACE) inhibition reduces postischemic injury and angiotensin II receptor inhibition may have similar effects. We therefore further characterized the role of ACE- vs. AT1-receptor inhibition on cell injury and temporal association of leukocyte endothelial interaction in response to ischemia-reperfusion. A combined in vivo and in vitro study comparing the ACE inhibitor enalapril and the AT1-receptor antagonist losartan was performed. The extent and temporal correlation of cellular damage (propidium-iodide staining), microvascular perfusion failure and leukocyte-endothelial interaction (leukocyte adherence) were investigated by means of intravital microscopy, after the application of hemodynamically ineffective doses of enalapril and losartan (5 mg/kg). A hamster dorsal skinfold model with a 4-h tourniquet ischemia was used. In vitro, the effect of enalapril and losartan on polymorphonuclear cell (PMN) adherence, as well as adhesion molecule expression (ICAM-1, VCAM-1), on hypoxia- or IL-1beta-stimulated endothelial cells (HUVEC) was assessed using a PMN-adhesion assay and flow cytometry, respectively. Ischemia-reperfusion responses revealed a biphasic pattern, comprised of an early phase (30 min) of acute cellular damage and microvascular perfusion failure, followed by a late increase (240 min) in leukocyte adherence in vivo. Enalapril significantly reduced early cellular damage, microvascular perfusion failure, and leukocyte adherence in response to ischemia-reperfusion. Conversely, AT1 receptor inhibition with losartan proved to be ineffective at attenuating postischemic microcirculatory disorders (leukocyte-endothelial interactions, microvascular perfusion failure) and aggravated cellular injury. In vitro, enalapril reduced PMN adherence and ICAM-1 and VCAM-1 expression, while losartan was ineffective in the same respect. Following ischemia-reperfusion injury, ACE- versus AT1-receptor inhibition induce differential effects concerning the extent and temporal association of cell injury and leukocyte-endothelial interaction. The use of enalapril combines the beneficial effects of preventing cell and vascular injury immediately after reperfusion, with a delayed inhibition of the inflammatory response. Since the AT1-receptor inhibitor losartan did not mimic effects obtained with ACE inhibition, it is conceivable that the responses in ischemia-reperfusion are mediated by a non-angiotensin II-AT1 receptor-dependent mechanism.

Published
2000
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211. Effective use of donor MHC class I gene therapy in organ transplantation: prevention of antibody-mediated hyperacute heart allograft rejection in highly sensitized rat recipients.

Author

Geissler EK, Graeb C, Tange S, Guba M, Jauch KW, and Scherer MN

Subjects
Animals, Cell Transplantation, Gene Transfer Techniques, Genes, MHC Class I immunology, Graft Rejection immunology, Immunization, Passive, Injections, Intravenous, Lewis Blood Group Antigens immunology, Liver cytology, Liver immunology, Rats, Transplantation, Homologous, Genes, MHC Class I genetics, Genetic Therapy, Graft Rejection prevention & control, Heart Transplantation immunology, Transplantation Immunology
Abstract

Immunologically sensitized recipients present one of the most critical problems in clinical organ transplantation today, since preformed antibodies rapidly destroy donor tissue expressing specific MHC class I antigens (Ag). Therefore, sensitized patients are either unable to receive a compatible organ, or experience a prolonged waiting period. In this study we examined the effectiveness of donor MHC class I gene therapy in preventing hyperacute rejection (HR) of rat heart allografts in passively sensitized recipients. Our gene therapy strategy to address this problem is based on the phenomenon that liver transplants, which resist antibody-mediated HR, produce soluble MHC class I Ag capable of neutralizing preformed antibodies and suppressing the immune response. To mimic this "liver effect," we used liposomes to transfect cultured recipient (Lewis-RT1.Al) hepatocytes with plasmid DNA encoding the soluble donor MHC class I Ag, RT1.Aa. Control or RT1.Aa-transfected hepatocytes were implanted intrasplenically into Lewis recipients 1 day prior to heterotopic ACI (RT1.Aa) heart transplantation and injection of 6 ml of anti-ACI hyperimmune serum (HIS). Results showed that nearly all recipients receiving ACI-specific HIS and control hepatocytes experienced HR, while none of the recipients receiving HIS and hepatocytes expressing soluble RT1.Aa developed HR. Furthermore, active immunosuppression by soluble RT1.Aa was evidenced by prolongation of allograft survival, compared with controls not receiving HIS. In summary, soluble donor-MHC class I Ag gene therapy can prevent antibody-mediated destruction associated with HR. Future development of a similar strategy in humans may significantly improve the results of clinical organ transplantation in immunologically sensitized recipients.

Published
2000
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212. Guanylin strongly stimulates rat duodenal HCO3- secretion: proposed mechanism and comparison with other secretagogues.

Author

Guba M, Kuhn M, Forssmann WG, Classen M, Gregor M, and Seidler U

Subjects
Animals, Biological Transport, Female, Hydrogen-Ion Concentration, Natriuretic Peptides, Rats, Rats, Wistar, Bicarbonates metabolism, Duodenum metabolism, Enterotoxins metabolism, Gastrointestinal Hormones, Peptides metabolism
Abstract

Background & Aims: Guanylin and heat-stable enterotoxin (STa) stimulate intestinal Cl- secretion via activation of the cystic fibrosis transmembrane regulator (CFTR)-encoded Cl- channel. It was speculated that CFTR activation also regulates electrogenic duodenal HCO3- secretion. Therefore, the effect of guanylin/STa and other secretagogues on rat duodenal HCO3- secretion was studied., Methods: The HCO3- secretory rate of in vitro rat proximal duodenum was determined by pH stat titration and paracellular permeability by 3H-mannitol fluxes, bidirectional 36Cl- fluxes were measured, and the short-circuit current (Isc) was recorded., Results: Luminal guanylin and STa concentration dependently stimulated the HCO3- secretory rate and Isc. Guanylin-stimulated HCO3- secretion was independent of luminal Cl-, inhibited by the Cl- channel blocker 5-nitro-2-(3-phenylpropylamino)-benzoate, and additive to the HCO3- secretory rate stimulated by glucagon and carbachol but not by the tested adenosine 3',5'-cyclic monophosphate (cAMP)-dependent agonists. The ratio of the HCO3- secretory rate/Isc stimulated by the tested guanosine 3',5'-cyclic monophosphate (cGMP)-dependent agonists was markedly higher than the cAMP-dependent agonists. Prostaglandin E2 and 8-bromo-cAMP but not STa/guanylin also transiently increased paracellular permeability., Conclusions: Guanylin and STa stimulate electrogenic HCO3- secretion in rat duodenum, most likely via CFTR Cl- channel activation, but the different relationship for HCO3- to Isc in cGMP-than in cAMP-stimulated anion secretion suggests a different cellular source and/or signaling pathways.

Published
1996
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213. Renoprotektive Effekte der Zelltherapie mit Progenitorzellen beim renalen Ischämie-Reperfusionsschaden: Die Notwendigkeit der Dekompressionstherapie.

Author

Herrler, T., Tischer, A., Meyer, A., Nowak, S., Andrassy, J., Guba, M., Bartenstein, P., Jauch, K.-W., and Hacker, M.

Abstract

Purpose: Cell therapy represents a promising therapeutic approach in kidney transplantation. This study examines the precise potentials and limits of cell therapy in renal ischemia-reperfusion injury. Methods: The effects of endothelial progenitor cell therapy following a 45 min warm ischemia were investigated in a murine model of renal ischemia-reperfusion injury alone and in combination with surgical decompression of the renal compartment. Renal function was measured by 99mTc-MAG3 scintigraphy and laser Doppler perfusion. Structural damage was assessed by histological/ immunohistochemical analysis. Results: Warm ischemia of 45 min was associated with severe tissue damage and led to a significant decrease in tubular excretion rate (46.4 % ± 12.5 %, p < 0.05) and renal perfusion (67.7 % ± 3.9 %, p < 0.001). Cell therapy potently enhanced vascular regeneration with increased perfusion (112.5 % ± 3.1 %, p < 0.001) and excellent tissue vitality, while tubular excretion remained impaired (33.3 % ± 8.8 %, p < 0.001). Most importantly, combination of cell-based and decompression therapy enabled significant recovery of renal function (103.3 % ± 16.0 %, p < 0.05) and perfusion (116.7 % ± 2.5 %; p < 0.001) and preserved the integrity of renal structures. Conclusion: Progenitor cell therapy alone promotes vascular regeneration and preserves organ integrity following renal ischemia-reperfusion injury, but lacks beneficial effects on renal function. Combining cellular and decompressive therapy results in enhanced functional recovery and may improve the outcome of renal allografts. [ABSTRACT FROM AUTHOR]

Published
2010
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