Minimal effects on immune parameters following chronic anti-TGF-beta monoclonal antibody administration to normal mice |
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Authors: | Ruzek Melanie C Hawes Michael Pratt Bruce McPherson John Ledbetter Steve Richards Susan M Garman Richard D |
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Affiliation: | Cell and Protein Therapeutics R&D, Genzyme Corporation, Framingham, Massachusetts 01701-9322, USA. melanie.ruzek@genzyme.com |
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Abstract: | Mice genetically deficient in TGF-beta1 or TGF-beta signaling capacity in T or B cells demonstrate profound immune dysregulation, as evidenced by increased lymph node size, expression of markers of memory/activation on T cells, inflammation in a variety of tissues and development of autoantibodies. However, this constant and complete lack of TGF-beta1 or TGF-betaR signaling may not reflect effects of TGF-beta neutralization using antibodies in mature animals. Thus, the present studies were designed to determine if administration of an anti-TGF-beta monoclonal antibody (neutralizes TGF-beta1, 2 and 3) to mature, normal mice results in evidence of immune dysregulation or immune-mediated pathology. An initial study examined daily administration of 0.25, 0.75 and 2.5 mg/kg of anti-TGF-beta to mice for three weeks, achieving blood levels of as high as 9 mg/ml. Comprehensive hematological and histopathological evaluation showed no evidence of pathology. A second study was designed to extend the antibody treatment period and further examine the functional status of the immune system. Mice were injected with 1 mg/mouse (approximately 50 mg/kg) of anti-TGF-beta (1D11) three times per week achieving circulating blood levels of 1-2 mg/ml. Many parameters of immune status were assessed, including natural killer (NK) cell activity, lymphocyte proliferative responses, phagocytic activity, phenotypic assessment of leukocyte subsets, and serum measurements of proinflammatory cytokines, autoantibodies and immunoglobulin isotypes. In addition, histopathological assessment of heart, lungs, liver, kidney, salivary glands, skin, spleen and lymph nodes was also performed. Very few of the multiple immune parameters examined showed detectable changes in anti-TGF-beta-treated mice. Changes that were observed were primarily restricted to the spleen and included increased spleen cell recoveries, increased percentages of macrophages, decreased percentages of NK cells, decreased phagocytic activity, decreased proliferative responses to mitogens and slight increases in T and B cells displaying an activated phenotype. Many of these same parameters examined in the lymph nodes were not altered by the anti-TGF-beta treatment. The thymus was decreased in size, but altered only slightly in one population of developing T cells. Most of the changes observed were modest and returned to control levels after discontinuation of treatments. The only serological finding was an increase in IgA levels in anti-TGF-beta-treated mice, but not in any other isotype. Finally, there was no evidence of increased inflammation in any of the peripheral tissues examined in the anti-TGF-beta-treated mice. In conclusion, although there were changes in some of the immunological parameters examined in these studies, they were few and typically reversed following discontinuation of treatment. The modest nature of the changes observed in these studies is particularly evident when compared to published data of those same parameters examined in mice genetically deficient in TGF-beta1 or mice having TGF-beta unresponsive T or B cells. Thus, there does not appear to be any significant immune dysregulation detectable after long-term antibody-mediated neutralization of TGF-beta in normal mice. |
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