Publications (4)4.02 Total impact
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Article: Immunosuppressive effect of long-term drainage of thoracic duct on immunological memory in adult thymectomized rats.
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ABSTRACT: Profound reduction of the recirculating lymphocyte pool using thoracic duct drainage (TDD), a method developed by Gowans et al, has been shown to be of limited immunosuppressive value when applied in experimental as well as in clinical settings across major histocompatibility antigen complex (MHC) differences. This limitation is due to the observation that animals, in particular mice, are normally not able to have the drainage last longer than 8 to 10 days. However, using a simple modification of TDD, we have established a long-term TDD method, ie, more than 20 days. Combining this long-term TDD with adult thymectomy, we have examined the life span of naive and memory T cells specific for the minor histocompatibility antigen H-Y in female lewis rats. Furthermore, we demonstrated that memory T cells specific for the H-Y antigen do not appear to be recirculating lymphocytes.Transplantation Proceedings 06/2005; 37(4):1947-8. · 1.00 Impact Factor -
Article: Comparison of the vector systems for gene transduction into rat dendritic cells and peritoneal exudate cells.
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ABSTRACT: Specialized antigen-presenting cells (APC), known as dendritic cells (DC), play a pivotal role in initiating primary immune responses. It has been reported that several vector systems, including adenoviral vectors, retroviral vectors, Hemagglutinating Virus of Japan (HVJ)-related vectors, and electroporation, are able to transduce genes into mouse and human DC. This has not been achieved for rat DC. To our knowledge, there is no direct evidence to support the view that the currently used vector systems are able to transduce genes into mature DC. Because most, if not all, gene transfer studies investigating DC or DC-related cell populations are carried out using heterogeneous groups of cells, it is therefore very important to determine to what extent gene transduction occurs in rat DC, and also selected mature DC (CD161a+ fully mature DC). In this study, we provide evidence that none of 4 vector systems are able to transfer genes into fully mature rat DC, which are derived from bone marrow cells (BMC), driven by Flt3/Flk2 ligand and interleukin (IL)-6, and purified by CD161a. Nevertheless, the most efficient gene transduction was observed in the developing DC progenitor cells during the long-term culture of rat BMC, and its gene expression was successfully achieved after 2 weeks of culture only with a human immunodeficiency virus (HIV)-based lentiviral vector system. The most critical time point for lentiviral gene transduction was around the 7th day from the beginning of culture with lentiviral vectors. Rat peritoneal exudate cells (PEC) and another cell line (K562) were easily transducted by adenoviral vectors and lentiviral vectors.Transplantation Proceedings 06/2005; 37(4):1953-6. · 1.00 Impact Factor -
Article: Phenotype and functional identity of GM-CSF-independent dendritic cells generated by long-term propagation of DC progenitor cells in bone marrow cells and skin Langerhans cells.
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ABSTRACT: Evidence is provided that dendritic cells (DC) generated by either long-term bone marrow cell (BMC) culture with Flt3L and interleukin-6 (IL-6), or after short-term BMC culture with granulocyte macrophage-colony-stimulating factor (GM-CSF) and interleukin-4 (IL-4), contain heterogeneous cell populations of admixed DC and Mphi, regardless of the cytokine source. By employing GM-CSF-independent culture systems with the aid of Flt3/Flk-2 ligand and IL-6 and phenotypic characterization of BMC-derived DC and skin Langerhans cells (LC), revealed similar phenotypes. Furthermore, CD103 (OX62), which is widely used for rat DC separation, was found to be insufficient to enrich DC, due to downregulation of the marker. In this regard, the most efficient selection of rat DC, was obtained by CD161a (NKR-P1A), a member of the C-type lectin family. Despite the phenotypic similarity with BMC-derived DC, the nucleus of LC showed a distinct morphology. A large population of DC generated by Flt3L/IL-6 from GM-CSF receptor-deficient mice by do not express NK1.1 (NKR-P1B and NKR-P1C). The profiles for BMC-derived DC were the same as for skin Langerhans cells.Transplantation Proceedings 37(1):17-9. · 1.00 Impact Factor -
Article: Studies on the most efficient vector systems for gene transduction into dendritic cells.
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ABSTRACT: Specialized antigen-presenting cells (APC), known as dendritic cells (DC), play a pivotal role in initiating primary immune responses. Several vector systems, including adenoviral vectors, retroviral vectors, hemagglutinating virus of Japan-related vectors, and the electroporation, have been shown to transduce genes into mouse and human but not rat DC. However, there is no direct evidence to support the view that the currently used vector systems are able to transduce genes into mature DC. Inasmuch as most, if not all, gene transfer studies investigating DC or DC-related cell populations are performed employing heterogeneous-groups of cells, it is therefore important to determine the extent to which gene transduction occurs in bona fide DC. In this study, we provide evidence that none of these vector systems are able to transfer genes into mature rat DC, which are derived from bone marrow cells (BMC), driven by Flt3/Flk2 ligand and IL-6, and purified with CD161a. Nevertheless, the most efficient gene transduction was observed with developing DC progenitor cells during long-term culture of rat BMC. Successful gene transfer was achieved after 2-week culture with an HIV-based lentiviral vector system.Transplantation Proceedings 37(1):12-4. · 1.00 Impact Factor
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Institutions
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2005
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National Center for Child Health and Development
Tokyo, Tokyo-to, Japan
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