Remodeling of hepatic tissue structure following injury requires the coordinated action of hepatocytes, hepatic stellate cells (HSCs), and endothelial cells. However, their in vivo properties are not fully understood. We report here that the chemokine CXCL10 regulates hepatic tissue remodeling in a carbon tetrachloride (CCl(4))-induced acute liver injury in mice. The production of CXCL10 was enhanced by hepatocytes after CCl(4) exposure. Neutralization of CXCL10 protected mice from acute liver dysfunction and diminished hepatocellular loss. The hepatoprotective effect was associated with increased numbers of 5'-bromo-2' deoxyuridine (BrdU)+ hepatocytes from day 1 and with accumulation of HSCs and endothelial cells within the injured zones from day 3. In vitro, recombinant CXCL10 directly inhibited the proliferation of hepatocytic cells, establishing a novel role of CXCL10 in modulating hepatocyte proliferation, in addition to a previously reported angiostatic role. In summary, neutralization of CXCL10 initially stimulates hepatocyte proliferation and, subsequently, HSC migration and angiogenesis to facilitate remodeling of hepatic cords. Thus, CXCL10 can be a novel therapeutic target for acute hepatocellular damage by regulating liver tissue remodeling.
Pulmonary fibrosis is characterized by an accumulation of inflammatory cells in the lung interstitium, followed by an increased deposition of extracellular matrix. Macrophages play a vital role in this disease by mediating the progression from inflammation to fibrosis, but the mechanisms by which macrophages are retained at these sites are not fully understood. Although the transmigration of leukocytes is regulated by chemokines, glycosaminoglycans modulate the function of chemokines and the migration of leukocytes. Accordingly, we investigated the role of chondroitin sulfate proteoglycans (CSPGs) in a murine bleomycin-induced pulmonary fibrosis models. After intratracheal injection of bleomycin or saline, mice were randomized to receive one intravenous injection and continuous infusion of the CSPG-digesting enzyme chondroitinase ABC (ChABC), or vehicle, for 7 days. CSPGs were readily induced and progressively augmented after the bleomycin challenge. Although CSPGs inhibited the early CCL2-dependent recruitment of macrophages, deposited CSPGs retained macrophages in fibrotic interstitium in a CD44-dependent manner. Treatment with ChABC in vivo dramatically increased survival of the mice and reduced collagen deposition by inhibiting persistent macrophage accumulation. These results indicate a pivotal role for CSPGs in macrophage-mediated lung fibrogenesis and suggest a possible new therapeutic role for ChABC in pulmonary fibrosis.
Strain-specific immune responses may play a critical role in the acute exacerbation of chronic obstructive pulmonary disease (COPD) caused by Haemophilus influenzae (NTHi), and the outer membrane protein P2 is one of surface antigens of NTHi, which may contribute to the strain-specific protective immunity. We examined whether repeated airway immunizations with killed-NTHi strains bearing different P2 molecules were capable of inducing protective immunity against homologous or heterologous strains in the lungs of a mouse model. Three different strains of NTHi were used in this study. Three serial intratracheal (IT) immuizations of a single strain or three different strains of NTHi led to the production of cross-reactive immunoglobulins G and A in bronchoalveolar lavage fluids. Three serial IT immunizations with a single strain enhanced the bacterial clearance of the homologous strain in the lungs, but no enhancement of bacterial clearance was found with three serial IT immunizations of heterologous strains. The enhancement in bacterial clearance, therefore, appears to be primarily strain-specific. Enhanced bacterial clearance of a hetrologous strain was also found after three serial IT immunizations of a single strain among two of the three strains employed for bacterial challenge. These findings suggest that P2 molecules and surface antigens other than P2 are involved in the development of pulmonary defense against NTHi in mice. Our data may explain, in part, why patients with COPD experience recurrent NTHi infections.non-typeable Haemophilus influenzae; outer membrane protein P2; pulmonary defense; chronic obstructive pulmonary disease; acute exacerbation
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