The neonatal FcR (FcRn) binds to the Fc domain of IgG at acidic pH in the endosome and protects IgG from degradation, thereby contributing to the long serum half-life of IgG. To date, more than 20 mAb products and 5 Fc-fusion protein products have received marketing authorization approval in the United States, the European Union, or Japan. Many of these therapeutic proteins have the Fc domain of human IgG1; however, the serum half-lives differ in each protein. To elucidate the role of FcRn in the pharmacokinetics of Fc domain-containing therapeutic proteins, we evaluated the affinity of the clinically used human, humanized, chimeric, or mouse mAbs and Fc-fusion proteins to recombinant human FcRn by surface plasmon resonance analysis. The affinities of these therapeutic proteins to FcRn were found to be closely correlated with the serum half-lives reported from clinical studies, suggesting the important role of FcRn in regulating their serum half-lives. The relatively short serum half-life of Fc-fusion proteins was thought to arise from the low affinity to FcRn. The existence of some mAbs having high affinity to FcRn and a short serum half-life, however, suggested the involvement of other critical factor(s) in determining the serum half-life of such Abs. We further investigated the reason for the relatively low affinity of Fc-fusion proteins to FcRn and suggested the possibility that the receptor domain of Fc-fusion protein influences the structural environment of the FcRn binding region but not of the FcγRI binding region of the Fc domain.
Objective To determine the efficacy of a 23-valent pneumococcal polysaccharide vaccine in people at high risk of pneumococcal pneumonia.Design Prospective, randomised, placebo controlled double blind study.Setting Nursing homes in Japan.Participants 1006 nursing home residents.Interventions Participants were randomly allocated to either 23-valent pneumococcal polysaccharide vaccine (n=502) or placebo (n=504).Main outcome measures The primary end points were the incidence of all cause pneumonia and pneumococcal pneumonia. Secondary end points were deaths from pneumococcal pneumonia, all cause pneumonia, and other causes.Results Pneumonia occurred in 63 (12.5%) participants in the vaccine group and 104 (20.6%) in the placebo group. Pneumococcal pneumonia was diagnosed in 14 (2.8%) participants in the vaccine group and 37 (7.3%) in the placebo group (P<0.001). All cause pneumonia and pneumococcal pneumonia were significantly more frequent in the placebo group than in the vaccine group: incidence per 1000 person years 55 v 91 (P<0.0006) and 12 v 32 (P<0.001), respectively. Death from pneumococcal pneumonia was significantly higher in the placebo group than in the vaccine group (35.1% (13/37) v 0% (0/14), P<0.01). The death rate from all cause pneumonia (vaccine group 20.6% (13/63) v placebo group 25.0% (26/104), P=0.5) and from other causes (vaccine group 17.7% (89/502) v placebo group (80/504) 15.9%, P=0.4) did not differ between the two study groups.Conclusion The 23-valent pneumococcal polysaccharide vaccine prevented pneumococcal pneumonia and reduced mortality from pneumococcal pneumonia in nursing home residents.Trial registration Japan Medical Association Center for Clinical Trials JMA-IIA00024.
is a matrix-degrading enzyme implicated in many biological processes, including inflammation. It is produced by many cells, including fibroblasts. When cultured in three-dimensional (3D) collagen gels, fibroblasts contract the surrounding matrix, a function that is thought to model the contraction that characterizes both normal wound repair and fibrosis. The current study was designed to evaluate the role of endogenously produced MMP-9 in fibroblast contraction of 3D collagen gels. Fibroblasts from mice lacking expression of MMP-9 and human lung fibroblasts (HFL-1) transfected with MMP-9 smallinterfering RNA (siRNA) were used. Fibroblasts were cast into type I collagen gels and floated in culture medium with or without transforming growth factor (TGF)-1 for 5 days. Gel size was determined daily using an image analysis system. Gels made from MMP-9 siRNA-treated human fibroblasts contracted less than control fibroblasts, as did fibroblasts incubated with a nonspecific MMP inhibitor. Similarly, fibroblasts cultured from MMP-9-deficient mice contracted gels less than did fibroblasts from control mice. Transfection of the MMP-9-deficient murine fibroblasts with a vector expressing murine MMP-9 restored contractile activity to MMP-9-deficient fibroblasts. Inhibition of MMP-9 reduced active TGF-1 and reduced several TGF-1-driven responses, including activity of a Smad3 reporter gene and production of fibronectin. Because TGF-1 also drives fibroblast gel contraction, this suggests the mechanism for MMP-9 regulation of contraction is through the generation of active TGF-1. This study provides direct evidence that endogenously produced MMP-9 has a role in regulation of tissue contraction of 3D collagen gels mediated by fibroblasts. lung; repair; transforming growth factor-
Bone marrow (stem/progenitor) cells have been shown to "differentiate" into cells in multiple tissues, including lung. A low number of hematopoietic stem/progenitor cells also circulate in peripheral blood. The physiologic roles of these cells are still uncertain. This study was designed to test, using parabiotic mice that were joined surgically, whether stem/progenitor cells in blood contributed to the regeneration of lung after injury. Parabiotic mice were generated surgically by joining green fluorescent protein transgenic mice and wild-type littermates. These mice developed a common circulation (approximately 50% green cells in blood) by 2 weeks after surgery. The wild-type mouse was either uninjured or lethally irradiated or received intratracheal elastase or the combination of radiation with intratracheal elastase injection. Radiation or the combination of radiation with elastase significantly increased the proportion of bright green cells in the lungs of the wild-type mice. Morphologically, interstitial monocytes/macrophages, subepithelial fibroblast-like interstitial cells, and additionally type I alveolar epithelial cells immunostained for green fluorescent protein in wild-type mice. Approximately 5 to 20% of lung fibroblasts primary cultured from injured wild-type mice were green fluorescent protein expressing cells, indicating their blood derivation. This study demonstrates that stem/progenitor cells in blood contribute to the repair of lung injury in irradiated mice.
It is well recognized that activation of the coagulation system plays an important role in bleomycin (BLM)-induced lung injury and fibrosis. The protein C (PC) pathway is an important regulator of the coagulation system. In this study, we evaluated the bronchoalveolar lavage fluid (BALF) concentration of activated PC (APC) and the therapeutic effect of the intratracheal administration of APC on BLM-induced lung fibrosis in mice. APC levels in BALF were significantly lower in BLM-treated animals than in the saline-treated group. Fibrotic changes were progressive in mice treated with BLM and intratracheal instillation of vehicle (BLM/Veh) after 14 and 21 d of BLM infusion. Compared with the BLM/Veh group, histologic findings on Days 14 and 21 in mice treated with BLM and intratracheal instillation of APC (BLM/APC) showed less fibrotic lesions in the subpleural and central areas of the lung. The mean Aschcroft's fibrosis score in the BLM/Veh group was significantly (p < 0.05) higher than in the BLM/APC group. The lung hydroxyproline content on Day 21 was significantly higher (p < 0.05) in the BLM/Veh group (1.78 +/- 0.07 micromol/lung weight) than in the BLM/APC (1.30 +/- 0.06 micromol/lung weight) group. The ratio of plasminogen activator activity to thrombin level in BALF was significantly increased in the BLM/APC group compared with the BLM/ Veh group on Day 21. The expression of tumor necrosis factor-alpha and interleukin-1beta was significantly decreased in the lungs of the BLM/APC group compared with the BLM/Veh group on Day 14 after BLM infusion. These results showed that intratracheal APC administration inhibits the development of lung fibrosis in BLM-induced lung injury, giving further support to the important role that the PC pathway plays in the mechanism of lung fibrosis.
The mechanism of airway remodeling in asthmatic patients is poorly understood. Thrombin is a multifunctional protease that, in addition to its critical role in thrombotic processes, has also been described as inducing cellular and molecular events relevant to tissue remodeling. The present investigation was undertaken to evaluate the activity of thrombin in the sputum of asthmatic patients and its potential role in airway remodeling. The study population comprised 8 healthy subjects and 14 stable patients with bronchial asthma. The concentrations of thrombin, thrombin-antithrombin complex (TAT), and tissue factor were measured in the sputum of all subjects. The concentrations of thrombin (p = 0. 007), TAT (p = 0.01), and tissue factor (p = 0.02) in sputum were significantly higher in asthmatic patients than in healthy controls. The proliferative effects that sputum from asthmatic patients (p = 0. 01) and thrombin (p = 0.03) have on cultured human smooth muscle cells was inhibited significantly in the presence of recombinant hirudin, a specific thrombin inhibitor. Significant statistical correlation was observed between the degree of bronchial responsiveness and the sputum concentrations of thrombin (r = -0.8; p = 0.02) and TAT (r = -0.9; p = 0.01). The results of this study showed that increased thrombin generation occurs in the airway of patients with asthma and that it may play a role in the pathogenesis of airway remodeling. Further studies should be carried out to assess whether these findings are also observed in other airway diseases.
Whether DNA damage caused by cigarette smoke leads to repair or apoptosis has not been fully elucidated. The current study demonstrates that cigarette smoke induces single-strand DNA damage in human bronchial epithelial cells. Cigarette smoke also stimulated caspase 3 precursors as well as intact poly (ADP-ribose) polymerase (PARP) production, but did not activate caspase 3 or cleave PARP, while the alkaloid camptothecin did so. Neither apoptosis nor necrosis was induced by cigarette smoke when the insult was removed within a designated time period. In contrast, DNA damage following cigarette smoke exposure was repaired as evidenced by decreasing terminal dUTP-biotin nick-end labeling positivity. The PARP inhibitor, 3-aminobenzamide blocked this repair. Furthermore, cells subjected to DNA damage were able to survive and proliferate clonogenically when changed to smoke-free conditions. These results suggest that cigarette smoke-induced DNA damage in bronchial epithelial cells is not necessarily lethal, and that PARP functions in the repair process. Our data also suggest that the potency of cigarettes as a carcinogen may result from their ability to induce DNA damage while failing to trigger the apoptotic progression permitting survival of cells harboring potentially oncogenic mutations.
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