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3. The lysosomal transfer of LDL/cholesterol from macrophages into vascular smooth muscle cells induces their phenotypic alteration.

Author

Weinert S, Poitz DM, Auffermann-Gretzinger S, Eger L, Herold J, Medunjanin S, Schmeisser A, Strasser RH, and Braun-Dullaeus RC

Subjects
Animals, Aorta, Abdominal cytology, Aorta, Abdominal metabolism, Cell Communication physiology, Cells, Cultured, Cholesterol, LDL metabolism, Coculture Techniques, Humans, Hydroxymethylglutaryl CoA Reductases metabolism, Lysosomal-Associated Membrane Protein 1 metabolism, Macrophages cytology, Microscopy, Fluorescence, Muscle, Smooth, Vascular cytology, Rats, Rats, Wistar, Cholesterol metabolism, Lipoproteins, LDL metabolism, Lysosomes metabolism, Macrophages metabolism, Muscle, Smooth, Vascular metabolism, Phenotype
Abstract

Aims: Macrophages (MPs) and vascular smooth muscle cells (VSMCs) closely interact within the growing atherosclerotic plaque. An in vitro co-culture model was established to study how MPs modulate VSMC behaviour., Methods and Results: MPs were exposed to fluorescence-labelled-acetylated LDL (FL-acLDL) prior to co-culture with VSMCs. Fluorescence microscopy visualized first transport of FL-acLDL within 6 h after co-culture implementation. When MPs had been fed with FL-acLDL in complex with fluorescence-labelled cholesterol (FL-Chol), these complexes were also transferred during co-culture and resulted in cholesterol positive lipid droplet formation in VSMCs. When infected with a virus coding for a fusion protein of Rab5a and fluorescent protein reporter (FP) to mark early endosomes, no co-localization between Rab5a-FP and the transported FL-acLDL within VSMCs was detected implying a mechanism independent of phagocytosis. Next, expression of lysosome-associated membrane glycoprotein 1 (LAMP1)-FP, marking all lysosomes in VSMCs, revealed that the FL-acLDL was located in non-acidic lysosomes. MPs infected with virus encoding for LAMP1-FP prior to co-culture demonstrated that intact fluorescence-marked lysosomes were transported into the VSMC, instead. Xenogenic cell composition (rat VSMC, human MP) and subsequent quantitative RT-PCR with rat-specific primers rendered induction of genes typical for MPs and down-regulation of the cholesterol sensitive HMG-CoA reductase., Conclusion: Our results demonstrate that acLDL/cholesterol-loaded lysosomes are transported from MPs into VSMCs in vitro. Lysosomal transfer results in a phenotypic alteration of the VSMC towards a foam cell-like cell. This way VSMCs may lose their plaque stabilizing properties and rather contribute to plaque destabilization and rupture.

Published
2013
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4. Rapid establishment of dendritic cell chimerism in allogeneic hematopoietic cell transplant recipients.

Author

Auffermann-Gretzinger S, Lossos IS, Vayntrub TA, Leong W, Grumet FC, Blume KG, Stockerl-Goldstein KE, Levy R, and Shizuru JA

Subjects
Adult, Aged, Blood Cells cytology, Blood Cells immunology, Dendritic Cells immunology, Female, Graft Survival physiology, Hematologic Neoplasms therapy, Hematopoiesis, Humans, Immune System cytology, Immune System growth & development, Kinetics, Lymphocyte Culture Test, Mixed, Male, Middle Aged, Transplantation Conditioning, Transplantation, Homologous, Dendritic Cells cytology, Hematopoietic Stem Cell Transplantation, Transplantation Chimera immunology
Abstract

Regeneration of hematopoiesis after allogeneic hematopoietic cell transplantation (HCT) involves conversion of the recipient's immune system to donor type. It is likely that distinct cell lineages in the recipient reconstitute at different rates. Dendritic cells (DCs) are a subset of hematopoietic cells that function as a critical component of antigen-specific immune responses because they modulate T-cell activation, as well as induction of tolerance. Mature DCs are transferred with hematopoietic grafts and subsequently arise de novo. Little information exists about engraftment kinetics and turnover of this cell population in patients after allogeneic HCT. This study examined the kinetics of DC chimerism in patients who underwent matched sibling allogeneic HCT. T-cell, B-cell, and myelocytic and monocytic chimerism were also studied. Peripheral blood cells were analyzed at defined intervals after transplantation from 19 patients with various hematologic malignancies after treatment with myeloablative or nonmyeloablative preparatory regimens. Cell subsets were isolated before analysis of chimerism. Despite the heterogeneity of the patient population and preparatory regimens, all showed rapid and consistent development of DC chimerism. By day +14 after transplantation approximately 80% of DCs were of donor origin with steady increase to more than 95% by day +56. Earlier time points were examined in a subgroup of patients who had undergone nonmyeloablative conditioning and transplantation. These data suggest that a major proportion of blood DCs early after transplantation is donor-derived and that donor chimerism develops rapidly. This information has potential implications for manipulation of immune responses after allogeneic HCT.

Published
2002
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5. Impaired dendritic cell maturation in patients with chronic, but not resolved, hepatitis C virus infection.

Author

Auffermann-Gretzinger S, Keeffe EB, and Levy S

Subjects
Adult, Antigen Presentation, Female, Histocompatibility Antigens Class II analysis, Humans, Leukocytes, Mononuclear immunology, Lipopolysaccharide Receptors analysis, Lymphocyte Culture Test, Mixed, Male, Middle Aged, Tumor Necrosis Factor-alpha pharmacology, Dendritic Cells physiology, Hepatitis C, Chronic immunology
Abstract

Dendritic cells (DCs) are important for the initiation of immune responses to foreign antigens. Their antigen uptake and presentation capacities enable them to prime and activate T cells. Immature DCs capture antigens; however, they must be activated to mature before serving as efficient antigen-presenting cells. The antigen-presenting capacity of DCs can be diminished during viral infection and as a consequence of tumor formation. Chronic infection with hepatitis C virus (HCV) has been shown to affect the allostimulatory function of DCs. In this study, it is demonstrated that monocyte-derived DCs from patients with chronic HCV infection do not respond to maturation stimuli. Instead, they maintain their immature phenotype, reflected by the pattern of cell surface markers and by their continued capacity to uptake antigen. Moreover, their allostimulatory abilities are impaired compared with those of mature DCs derived from healthy donors. To investigate a possible correlation between viral clearance and this DC maturation defect, patients with resolved HCV infection after a course of antiviral therapy were studied. Results demonstrate that DCs from patients who cleared HCV behaved like DCs from healthy donors: in response to maturation stimuli, they decrease antigen uptake, up-regulate expression of appropriate surface markers, and are potent stimulators of allogeneic T cells. (Blood. 2001;97:3171-3176)

Published
2001
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6. Detection of CD4 T-cell responses to a tumor vaccine by cytokine flow cytometry.

Author

Maecker HT, Auffermann-Gretzinger S, Nomura LE, Liso A, Czerwinski DK, and Levy R

Subjects
Adult, Aged, Antigens, CD biosynthesis, Antigens, CD metabolism, Antigens, Differentiation, T-Lymphocyte biosynthesis, CD28 Antigens metabolism, Cell Division, Dendritic Cells metabolism, Female, Flow Cytometry, Humans, Immunoglobulins metabolism, Integrin alpha4, Interferon-gamma metabolism, Lectins, C-Type, Male, Middle Aged, Tumor Necrosis Factor-alpha metabolism, CD4-Positive T-Lymphocytes metabolism, Cancer Vaccines, Cytokines metabolism, Multiple Myeloma blood, Multiple Myeloma immunology
Abstract

Cytokine flow cytometry (CFC) is a simple and powerful method for measuring antigen-specific T-cell responses by detection of intracellular cytokine staining. We applied this method to the detection of CD4 T-cell responses to tumor vaccines. Patients with multiple myeloma were immunized against their autologous tumor immunoglobulin idiotype, using antigen-pulsed dendritic cell vaccination. Blood samples were drawn before and after vaccination, and CFC and proliferation assays were performed. For CFC, whole blood was incubated overnight with antigen in the presence of costimulatory antibodies to CD28 and CD49d. The blood was then treated with EDTA, erythrocytes were lysed, and leukocytes were fixed, permeabilized, and stained for intracellular cytokines [tumor necrosis factor-alpha (TNF-alpha) or IFN-gamma], CD4, and CD69. Cells were analyzed by flow cytometry and cytokine-producing CD69+ cells enumerated as a percentage of CD4 cells. Of nine patients analyzed, three demonstrated detectable CFC responses to tumor immunoglobulin and/or keyhole limpet hemocyanin (KLH) after vaccination. One of these patients responded only to KLH, whereas the other two responded to both tumor immunoglobulin and KLH. Most responses were detected with both TNF-alpha and IFN-gamma, but one patient's KLH response was detected only with TNF-alpha. There was a positive, but not strong, correlation of cytokine responses with proliferative responses to KLH. Although further follow-up and correlation with clinical outcome is needed, CFC may represent a simple yet detailed assessment of T-cell frequencies and subsets responding to cancer vaccines.

Published
2001

7. Idiotype vaccination using dendritic cells after autologous peripheral blood progenitor cell transplantation for multiple myeloma.

Author

Liso A, Stockerl-Goldstein KE, Auffermann-Gretzinger S, Benike CJ, Reichardt V, van Beckhoven A, Rajapaksa R, Engleman EG, Blume KG, and Levy R

Subjects
Adult, Combined Modality Therapy, Dendritic Cells immunology, Female, Humans, Immunoglobulin Idiotypes administration & dosage, Immunoglobulin Idiotypes immunology, Immunotherapy, Male, Middle Aged, Multiple Myeloma immunology, Transplantation, Autologous, Vaccination, Antineoplastic Combined Chemotherapy Protocols administration & dosage, Dendritic Cells transplantation, Hematopoietic Stem Cell Transplantation, Multiple Myeloma therapy
Abstract

The idiotype (Id) determinants on the multiple myeloma immunoglobulin can serve as tumor-specific antigens. An anti-Id immune response may stem the growth of the malignant clone. We report on 26 patients treated at our institution with high-dose chemotherapy and peripheral blood progenitor cell transplantation (PBPCT) and vaccinated with the Id protein. The patients received chemotherapy and PBPCT to establish a minimal residual disease state. After high-dose therapy, the patients received a series of monthly immunizations consisting of 2 intravenous infusions of dendritic cells (DCs) pulsed with either Id protein or Id coupled with keyhole limpet hemocyanin (KLH) as an immunogenic carrier protein, followed by subcutaneous boosts of Id-KLH conjugates. DCs were obtained in all patients from a leukapheresis product 3 to 9 months after PBPCT. Patients were observed for toxicity, immune responses, and tumor status. The DC infusions and the administration of Id-KLH boosts were well tolerated, with patients experiencing only minor and transient side effects. Of the patients, 24 of 26 generated a KLH-specific cellular proliferative immune response. Only 4 patients developed an Id-specific proliferative immune response. Three of these immune responders were in complete remission at the time of vaccination. A total of 17 patients are alive at a median follow-up of 30 months after transplantation. Id vaccination with autologous DCs is feasible for myeloma patients after transplantation. Id-specific cellular responses can be induced in patients who are in complete remission. Further studies are needed to increase the rate of anti-Id immune responses in patients who do not achieve complete remission.

Published
2000
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