Development of follicular dendritic cells in lymph nodes of B-cell-depleted mice (original) (raw)
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References
- Cerny A, Hügin AW, Sutter S, Heusser CH, Bos N, Izui S, Hengartner H, Zinkernagel RM (1985) Suppression of B cell development and antibody responses in mice with polyclonal rabbit and monoclonal rat anti-IgM antibodies. I. Characterization of the suppressed state. Expl Cell Biol 53:301–313
Google Scholar - Cerny A, Heusser CH, Sutter S, Huegin AW, Bazin H, Hengartner H, Zinkernagel RM (1986) Generation of agammaglobulinaemic mice by prenatal and postnatal exposure to polyclonal or monoclonal anti-IgM antibodies. Scand J Immunol 24:437–445
Google Scholar - Chen LL, Adams JC, Steinmann RM (1978a) Anatomy of germinal centers in mouse spleen with special reference to follicular dendritic cells. J Cell Biol 79:148–164
Google Scholar - Chen LL, Frank AM, Adams JC, Steinmann RM (1978b) Distribution of horseradish peroxidase (HRP)-Anti-HRP Immune complexes in mouse spleen with special reference to follicular dendritic cells. J Cell Biol 79:184–199
Google Scholar - Dijkstra CD, Tilburg NJ van, Döpp EA (1982) Ontogenetic aspects of immune complex trapping in the spleen and popliteal lymph node of the rat. Cell Tissue Res 223:545–552
Google Scholar - Eikelenboom P (1978) Dendritic cells in the rat spleen follicles. A combined immuno-and enzyme histochemical study. Cell Tissue Res 190:79–87
Google Scholar - Enriquez-Rincon F, Andrew E, Parkhouse RME, Klaus GGB (1984) Suppression of follicular trapping of antigen-antibody complexes in mice treated with anti-IgM or anti-IgD antibodies from birth. Immunology 53:713–719
Google Scholar - Groscurth P (1980a) Non-lymphatic cells in the lymph node cortex of the mouse. I. Morphology and distribution of the interdigitating cells and the dendritic reticular cells in the mesenteric lymph node of the adult ICR mouse. Pathol Res Pract 169:212–234
Google Scholar - Groscurth P (1980b) Non-lymphatic cells in the lymph node cortex of the mouse. II. Postnatal development of the interdigitating cells and the dendritic reticular cells. Pathol Res Pract 169:255–268
Google Scholar - Groscurth P (1980c) Non-lymphatic cells in the lymph node cortex of the mouse. III. Interdigitating cells and dendritic reticular cells in the mesenteric lymph node of the homozygous “nude” (nu/nu) mouse. Pathol Res Pract 169:235–254
Google Scholar - Heinen E, Kinet-Denoël C, Simar LJ (1985) 5-Nucleotidase activity in isolated follicular dendritic cells. Immunol Lett 9:75–80
Google Scholar - Heusermann U, Zurborn K-H, Schroeder L, Stutte HJ (1980) The origin of the dendritic reticulum cell. An experimental enzyme histochemical and electron microscopic study on the rabbit spleen. Cell Tissue Res 209:279–294
Google Scholar - Heusermann U, Schroeder L, Zurborn KH, Stutte HJ (1982) Structure and function of stroma cells in lymphoid tissues. In: Goos M, Christophers E (eds) Lymphproliferative Diseases of the Skin. Springer, Berlin Heidelberg New York, pp 25–33
Google Scholar - Humphrey JH (1976) The still unresolved germinal center mystery. Adv Exp Med Biol 66:711–723
Google Scholar - Humphrey JH, Grennan D, Sundaram V (1984) The origin of follicular dendritic cells in the mouse and the mechanism of trapping of immune complexes on them. Eur J Immunol 14:859–864
Google Scholar - Klaus GGB, Humphrey JH, Kunkl A, Dongworth DW (1980) The follicular dendritic cell: its role in antigen presentation in the generation of immunological memory. Immunol Rev 53:3–28
Google Scholar - Mandel TE, Phipps RP, Abbot A, Tew JG (1980) The follicular dendritic cell: long term antigen retention during immunity. Immunol Rev 53:29–60
Google Scholar - Müller-Hermelink HK, Kaiserling E (1980) Different reticulum cells of the lymph node: microecological concept of lymphoid tissue organization. In: Tweel JG van den (ed) Malignant Lymphoproliferative Diseases. Leiden University Press, The Hague Boston London, pp 57–70
Google Scholar - Nossal GJV, Ada GL, Austin CM, Pye J (1965) Antigens in immunity: VIII. Localization of 125 I-labelled antigens in the secondary response. Immunology 9:349–363
Google Scholar - Nossal GJV, Abbot A, Mitchell J (1968a) Antigens in immunity: XIV. Electron microscopic radioautographic studies of antigen capture in the lymph node medulla. J Exp Med 127:263–276
Google Scholar - Nossal GJV, Abbot A, Mitchell J, Lummus Z (1968b) Antigens in immunity: XV. Ultrastructural features of antigen capture in primary and secondary lymphoid follicles. J Exp Med 127:277–289
Google Scholar - Sakuma H, Ksajima T, Imai Y, Kojima M (1981a) An electron microscopic study on the reticuloendothelial cells in the lymph node. Acta Pathol Jpn 31:449–472
Google Scholar - Sakuma H, Asano S, Kojima M (1981b) An ultrastructural study of the primary follicle in the lymph node. Acta Pathol Jpn 31:473–493
Google Scholar - Swartzendruber DC (1967) Observations on the ultrastructure of lymphatic tissue germinal centers. In: Cottier H, Odartchneko R, Schindler R, Congdon CC (eds) Germinal centers in immune response. Springer, Berlin Heidelberg New York, pp 71–76
Google Scholar - Szakal AK, Holmes KL, Tew JG (1983) Transport of immune complexes from the subcapsular sinus to lymph node follicles on the surface of nonphagocytic cells, including cells with dendritic morphology. J Immunol 131:1714–1727
Google Scholar - Szakal AK, Gieringer RL, Kosco MH, Tew JG (1985) Isolated follicular dendritic cells: cytochemical antigen localisation, Nomarsky, SEM, and TEM morphology. J Immunol 134:1349–1359
Google Scholar - Tew JG, Mandel T, Burgess A, Hicks JD (1979) The antigen binding dendritic cell of the lymph follicles: evidence indicating its role in the maintenance and regulation of serum antibody levels. Adv Exp Med 114:407–410
Google Scholar - White RG (1963) The immunologically competent cell. In: Wolstenholme GW, Knight J (eds) Ciba Foundation Study Group No 16. Churchill, London, pp 6–23
Google Scholar - Williams GM (1966) Ontogeny of the immune response. II Correlations between the development of the afferent and efferent limbs. J Exp Med 124:57–66
Google Scholar - Williams GM, Nossal GJV (1966) Ontogeny of the immune response. I The development of the follicular antigen-trapping mechanism. J Exp Med 124:47–56
Google Scholar