Connective tissue formation at sites of tissue repair is regulated by matrix protein synthesis an... more Connective tissue formation at sites of tissue repair is regulated by matrix protein synthesis and degradation, which in turn is controlled by the balance between proteases and antiproteases. Recent evidence has suggested that antiproteases may also exert direct effects on cell function, including influencing cell migration and proliferation. The antiprotease, alpha1-antitrypsin, is the major circulating serine protease inhibitor which protects tissues from neutrophil elastase attack. Its deficiency is associated with the destruction of connective tissue in the lung and the development of emphysema, whereas accumulation of mutant alpha1-antitrypsin within hepatocytes often leads to liver fibrosis. In this study, we report that alpha1antitrypsin, at physiologically relevant concentrations, promotes fibroblast proliferation, with maximal stimulatory effects of 118 +/- 2% (n=6, P < 0.02) above media controls for cells exposed to 60 microM. We further show that alpha1antitrypsin also stimulates fibroblast procollagen production, independently of its effects on cell proliferation, with values maximally increased by 34 +/- 3% (n = 6, P < 0.01) above media controls at 30 microM. Finally, mechanistic studies to examine the mechanism by which alpha1-antitrypsin acts, showed that alpha1-antitrypsin induced the rapid activation of p42MAPK and p44MAPK (also known as ERK1/2) and that the specific MEK1 inhibitor PD98059 totally blocked alpha1-antitrypsin's mitogenic effects. These results support the hypothesis that alpha1-antitrypsin may play a role in influencing tissue repair in vivo by directly stimulating fibroblast proliferation and extracellular matrix production via classical mitogen-activated signalling pathways.
During normal developmental tissue growth and in a number of diseases of the cardiopulmonary syst... more During normal developmental tissue growth and in a number of diseases of the cardiopulmonary system, adventitial and interstitial fibroblasts are subjected to increased mechanical strain. This leads to fibroblast activation and enhanced collagen synthesis, but the underlying ...
The planar cell polarity (PCP) pathway, incorporating non-canonical Wnt signalling, controls embr... more The planar cell polarity (PCP) pathway, incorporating non-canonical Wnt signalling, controls embryonic convergent (CE) extension, polarized cell division and ciliary orientation. It also limits diameters of differentiating renal tubules, with mutation of certain components of the pathway causing cystic kidneys. Mutations in mouse Vangl genes encoding core PCP proteins cause neural tube defects (NTDs) and Vangl2 mutations also impair branching of embryonic mouse lung airways. Embryonic metanephric kidneys also undergo branching morphogenesis and Vangl2 is known to be expressed in ureteric bud/collecting duct and metanephric mesenchymal/nephron lineages. These observations led us to investigate metanephroi in Vangl2 mutant mice, Loop-tail (Lp). Although ureteric bud formation is normal in Vangl2Lp/Lp embryos, subsequent in vivo and in vitro branching morphogenesis is impaired. Null mutant kidneys are short, consistent with a CE defect. Differentiating glomerular epithelia express several PCP genes (Vangl1/2, Celsr1, Scrib, Mpk1/2 and Fat4) and glomeruli in Vangl2Lp/Lp fetuses are smaller and contain less prominent capillary loops than wild-type littermates. Furthermore, Vangl2Lp/+ kidneys had modest reduction in glomerular numbers postnatally. Vangl2Lp/Lp metanephroi contained occasional dilated tubules but no overt cystic phenotype. These data show for the first time that a PCP gene is required for normal morphogenesis of both the ureteric bud and metanephric mesenchyme-derived structures. It has long been recognized that certain individuals with NTDs are born with malformed kidneys, and recent studies have discovered VANGL mutations in some NTD patients. On the basis of our mutant mouse study, we suggest that PCP pathway mutations should be sought when NTD and renal malformation co-exist.
Connective tissue formation at sites of tissue repair is regulated by matrix protein synthesis an... more Connective tissue formation at sites of tissue repair is regulated by matrix protein synthesis and degradation, which in turn is controlled by the balance between proteases and antiproteases. Recent evidence has suggested that antiproteases may also exert direct effects on cell function, including influencing cell migration and proliferation. The antiprotease, alpha1-antitrypsin, is the major circulating serine protease inhibitor which protects tissues from neutrophil elastase attack. Its deficiency is associated with the destruction of connective tissue in the lung and the development of emphysema, whereas accumulation of mutant alpha1-antitrypsin within hepatocytes often leads to liver fibrosis. In this study, we report that alpha1antitrypsin, at physiologically relevant concentrations, promotes fibroblast proliferation, with maximal stimulatory effects of 118 +/- 2% (n=6, P < 0.02) above media controls for cells exposed to 60 microM. We further show that alpha1antitrypsin also stimulates fibroblast procollagen production, independently of its effects on cell proliferation, with values maximally increased by 34 +/- 3% (n = 6, P < 0.01) above media controls at 30 microM. Finally, mechanistic studies to examine the mechanism by which alpha1-antitrypsin acts, showed that alpha1-antitrypsin induced the rapid activation of p42MAPK and p44MAPK (also known as ERK1/2) and that the specific MEK1 inhibitor PD98059 totally blocked alpha1-antitrypsin's mitogenic effects. These results support the hypothesis that alpha1-antitrypsin may play a role in influencing tissue repair in vivo by directly stimulating fibroblast proliferation and extracellular matrix production via classical mitogen-activated signalling pathways.
During normal developmental tissue growth and in a number of diseases of the cardiopulmonary syst... more During normal developmental tissue growth and in a number of diseases of the cardiopulmonary system, adventitial and interstitial fibroblasts are subjected to increased mechanical strain. This leads to fibroblast activation and enhanced collagen synthesis, but the underlying ...
The planar cell polarity (PCP) pathway, incorporating non-canonical Wnt signalling, controls embr... more The planar cell polarity (PCP) pathway, incorporating non-canonical Wnt signalling, controls embryonic convergent (CE) extension, polarized cell division and ciliary orientation. It also limits diameters of differentiating renal tubules, with mutation of certain components of the pathway causing cystic kidneys. Mutations in mouse Vangl genes encoding core PCP proteins cause neural tube defects (NTDs) and Vangl2 mutations also impair branching of embryonic mouse lung airways. Embryonic metanephric kidneys also undergo branching morphogenesis and Vangl2 is known to be expressed in ureteric bud/collecting duct and metanephric mesenchymal/nephron lineages. These observations led us to investigate metanephroi in Vangl2 mutant mice, Loop-tail (Lp). Although ureteric bud formation is normal in Vangl2Lp/Lp embryos, subsequent in vivo and in vitro branching morphogenesis is impaired. Null mutant kidneys are short, consistent with a CE defect. Differentiating glomerular epithelia express several PCP genes (Vangl1/2, Celsr1, Scrib, Mpk1/2 and Fat4) and glomeruli in Vangl2Lp/Lp fetuses are smaller and contain less prominent capillary loops than wild-type littermates. Furthermore, Vangl2Lp/+ kidneys had modest reduction in glomerular numbers postnatally. Vangl2Lp/Lp metanephroi contained occasional dilated tubules but no overt cystic phenotype. These data show for the first time that a PCP gene is required for normal morphogenesis of both the ureteric bud and metanephric mesenchyme-derived structures. It has long been recognized that certain individuals with NTDs are born with malformed kidneys, and recent studies have discovered VANGL mutations in some NTD patients. On the basis of our mutant mouse study, we suggest that PCP pathway mutations should be sought when NTD and renal malformation co-exist.
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