Transforming growth factor alpha (TGF(alpha)) stimulates type II alveolar epithelial cell prolife... more Transforming growth factor alpha (TGF(alpha)) stimulates type II alveolar epithelial cell proliferation and also is associated with fibrosis. We studied the changes in bronchoalveolar lavage (BAL) TGF(alpha) protein in a neonatal rabbit hyperoxia-fibrosis model (100% O(2) for 8 to 9 days, followed by 60% O(2) to 36 days of age). Hyperoxia increased TGF(alpha) protein and delayed the appearance of mature lower molecular weight (MW) TGF(alpha) isoforms at postnatal days 6 and 8 during the acute injury period. At 3 and 5 weeks, after chronic hyperoxia exposure, there was an increase in lower MW TGF(alpha) peptides during the fibrotic period. Keratinocyte growth factor (KGF) is also a type II cell mitogen. In vitro studies of keratinocytes suggest that KGF-induced proliferation is mediated through TGF(alpha). Intratracheal KGF instillation into adult wild-type and TGF(alpha)-null mice demonstrated that the KGF induced equivalent robust levels of proliferation in both TGF(alpha) deficient and wild-genotype mice. In conclusion, there are both quantitative and qualitative changes in TGF(alpha) protein in a hyperoxia-induced fibrosis neonatal rabbit model during periods of type II cell proliferation and fibrosis.
The Willingness to Forgive Scale (WFS) was correlated with the Beck Depression Inventory-II (BDI-... more The Willingness to Forgive Scale (WFS) was correlated with the Beck Depression Inventory-II (BDI-II), Beck Anxiety Inventory (BAI), and the Global Severity Index (GSI) of the Brief Symptom Inventory. Participants were 45 male and 55 female outpatients being treated for affective and anxiety disorders. No gender differences (α = 0.05) were found on the aforementioned instruments. In the females, the WFS was not correlated with any of the three scales. In the males, the WFS was significantly correlated (r = −0.38, p = 0.009) with the BAI scores, marginally correlated (r = −0.29, p = 0.052) with the GSI, but not correlated with the BDI-II scores. That anxiety and symptom severity were related to willingness to forgive in males, but not in females, is a finding difficult to explain but worth exploring in future research.
Inflammation is important in the development of bronchopulmonary dysplasia (BPD). Polymorphonucle... more Inflammation is important in the development of bronchopulmonary dysplasia (BPD). Polymorphonuclear cells and macrophages and proinflammatory cytokines/chemokines denote early inflammation in clinical scenarios such as in utero inflammation with chorioamnionitis or initial lung injury associated with respiratory distress syndrome or ventilator-induced lung injury. The persistence and non-resolution of lung inflammation contributes greatly to BPD, including altering the lung’s ability to repair, contributing to fibrosis, and inhibiting secondary septation, alveolarization, and normal vascular development. Further understanding of the role of inflammation in the pathogenesis of BPD, in particular, during the chronic inflammatory period, offers us the opportunity to develop inflammation-related prevention and treatment strategies of this disease that has long-standing consequences for very premature infants.
Organized and coordinated lung development follows transcriptional regulation of a complex set of... more Organized and coordinated lung development follows transcriptional regulation of a complex set of cell-cell and cell-matrix interactions resulting in a blood-gas interface ready for physiologic gas exchange at birth. Transcription factors, growth factors, and various other signaling molecules regulate epithelial-mesenchymal interactions by paracrine and autocrine mechanisms. Transcriptional control at the earliest stages of lung development results in cell differentiation and cell commitment in the primitive lung bud, in essence setting up a framework for pattern formation and branching morphogenesis. Branching morphogenesis results in the formation of the conductive airway system, which is critical for alveolization. Lung development is influenced at all stages by spatial and temporal distribution of various signaling molecules and their receptors and also by the positive and negative control of signaling by paracrine, autocrine, and endocrine mechanisms. Lung bud formation, cell differentiation, and its interaction with the splanchnic mesoderm are regulated by HNF-3beta, Shh, Nkx2.1, HNF-3/Forkhead homolog-8 (HFH-8), Gli, and GATA transcription factors. HNF-3beta regulates Nkx2.1, a transcription factor critical to the formation of distal pulmonary structures. Nkx2.1 regulates surfactant protein genes that are important for the development of alveolar stability at birth. Shh, produced by the foregut endoderm, regulates lung morphogenesis signaling through Gli genes expressed in the mesenchyme. FGF10, produced by the mesoderm, regulates branching morphogenesis via its receptors on the lung epithelium. Alveolization and formation of the capillary network are influenced by various factors that include PDGF, vascular endothelial growth factor (VEGF), and retinoic acid. Epithelial-endothelial interactions during lung development are important in establishing a functional blood-gas interface. The effects of various growth factors on lung development have been demonstrated by gain- or loss-of-function studies in null mutant and transgenic mice models. Understanding the role of growth factors and various other signaling molecules and their cellular interactions in lung development will provide us with new insights into the pathogenesis of bronchopulmonary dysplasia and disorders of lung morphogenesis.
Tyrosine kinases are important in the signal transduction of a number of growth factors. As shown... more Tyrosine kinases are important in the signal transduction of a number of growth factors. As shown previously, transforming growth factor (TGF)-alpha stimulated proliferation of type II cells in vitro. The mitogenic effect of TGF-alpha could be blocked by the addition of the tyrosine kinase inhibitors genistein or tyrphostin. Tyrosine phosphorylation in type II cells exposed to growth factors was examined using an antiphosphotyrosine antibody. After addition of TGF-alpha, phosphorylation of a tyrosine protein with a molecular mass of 170 kD, presumed to be the epidermal growth factor receptor (EGF-R), peaked by 5 min, returning to baseline by 30 min. As expected, genistein or tyrphostin decreased the TGF-alpha-induced phosphorylation of the EGF-R. Addition of TGF-beta resulted in no newly phosphorylated tyrosine proteins. TGF-beta decreased the TGF-alpha-induced phosphorylation of the EGF-R. Previous work has shown that TGF-beta blocks the TGF-alpha stimulation of type II cell proliferation. It appears that TGF-beta interferes with TGF-alpha-induced phosphorylation of the EGF-R.
Pulmonary epithelial cells are important in lung growth, development, and injury. H441 pulmonary ... more Pulmonary epithelial cells are important in lung growth, development, and injury. H441 pulmonary adenocarcinoma cells may be a useful model for studying pulmonary epithelial cell growth factor responses in vitro. Isolated pulmonary epithelial type II cells proliferate in response to transforming growth factor (TGF)-alpha via the epidermal growth factor (EGF) receptor. Type II cells also proliferate in response to hepatocyte growth factor (HGF). In the present study, H441 cell responses to these growth factors were examined, and compared to type II cells. Both the EGF-R and the c-met proto-oncogene receptor, to which HGF binds, were immunoprecipitated from H441 cells. In H441 cells, addition of TGF-alpha resulted in phosphorylation of the EGF receptor and increased cell number and tritiated thymidine incorporation. Incubation with HGF resulted in phosphorylation of its c-met proto-oncogene receptor in type II and H441 cells, and also increased cell number and tritiated thymidine incorporation. Both HGF and TGF-alpha stimulated phosphorylation of the intracellular signaling molecules p42 and p44 mitogen activated protein kinases in H441 cells. H441 cells exhibited responses to mitogenic growth factors similar to type II cells and may be useful as a model for type II cell growth factor responses and signal transduction.
Transforming growth factor alpha (TGF(alpha)) stimulates type II alveolar epithelial cell prolife... more Transforming growth factor alpha (TGF(alpha)) stimulates type II alveolar epithelial cell proliferation and also is associated with fibrosis. We studied the changes in bronchoalveolar lavage (BAL) TGF(alpha) protein in a neonatal rabbit hyperoxia-fibrosis model (100% O(2) for 8 to 9 days, followed by 60% O(2) to 36 days of age). Hyperoxia increased TGF(alpha) protein and delayed the appearance of mature lower molecular weight (MW) TGF(alpha) isoforms at postnatal days 6 and 8 during the acute injury period. At 3 and 5 weeks, after chronic hyperoxia exposure, there was an increase in lower MW TGF(alpha) peptides during the fibrotic period. Keratinocyte growth factor (KGF) is also a type II cell mitogen. In vitro studies of keratinocytes suggest that KGF-induced proliferation is mediated through TGF(alpha). Intratracheal KGF instillation into adult wild-type and TGF(alpha)-null mice demonstrated that the KGF induced equivalent robust levels of proliferation in both TGF(alpha) deficient and wild-genotype mice. In conclusion, there are both quantitative and qualitative changes in TGF(alpha) protein in a hyperoxia-induced fibrosis neonatal rabbit model during periods of type II cell proliferation and fibrosis.
The Willingness to Forgive Scale (WFS) was correlated with the Beck Depression Inventory-II (BDI-... more The Willingness to Forgive Scale (WFS) was correlated with the Beck Depression Inventory-II (BDI-II), Beck Anxiety Inventory (BAI), and the Global Severity Index (GSI) of the Brief Symptom Inventory. Participants were 45 male and 55 female outpatients being treated for affective and anxiety disorders. No gender differences (α = 0.05) were found on the aforementioned instruments. In the females, the WFS was not correlated with any of the three scales. In the males, the WFS was significantly correlated (r = −0.38, p = 0.009) with the BAI scores, marginally correlated (r = −0.29, p = 0.052) with the GSI, but not correlated with the BDI-II scores. That anxiety and symptom severity were related to willingness to forgive in males, but not in females, is a finding difficult to explain but worth exploring in future research.
Inflammation is important in the development of bronchopulmonary dysplasia (BPD). Polymorphonucle... more Inflammation is important in the development of bronchopulmonary dysplasia (BPD). Polymorphonuclear cells and macrophages and proinflammatory cytokines/chemokines denote early inflammation in clinical scenarios such as in utero inflammation with chorioamnionitis or initial lung injury associated with respiratory distress syndrome or ventilator-induced lung injury. The persistence and non-resolution of lung inflammation contributes greatly to BPD, including altering the lung’s ability to repair, contributing to fibrosis, and inhibiting secondary septation, alveolarization, and normal vascular development. Further understanding of the role of inflammation in the pathogenesis of BPD, in particular, during the chronic inflammatory period, offers us the opportunity to develop inflammation-related prevention and treatment strategies of this disease that has long-standing consequences for very premature infants.
Organized and coordinated lung development follows transcriptional regulation of a complex set of... more Organized and coordinated lung development follows transcriptional regulation of a complex set of cell-cell and cell-matrix interactions resulting in a blood-gas interface ready for physiologic gas exchange at birth. Transcription factors, growth factors, and various other signaling molecules regulate epithelial-mesenchymal interactions by paracrine and autocrine mechanisms. Transcriptional control at the earliest stages of lung development results in cell differentiation and cell commitment in the primitive lung bud, in essence setting up a framework for pattern formation and branching morphogenesis. Branching morphogenesis results in the formation of the conductive airway system, which is critical for alveolization. Lung development is influenced at all stages by spatial and temporal distribution of various signaling molecules and their receptors and also by the positive and negative control of signaling by paracrine, autocrine, and endocrine mechanisms. Lung bud formation, cell differentiation, and its interaction with the splanchnic mesoderm are regulated by HNF-3beta, Shh, Nkx2.1, HNF-3/Forkhead homolog-8 (HFH-8), Gli, and GATA transcription factors. HNF-3beta regulates Nkx2.1, a transcription factor critical to the formation of distal pulmonary structures. Nkx2.1 regulates surfactant protein genes that are important for the development of alveolar stability at birth. Shh, produced by the foregut endoderm, regulates lung morphogenesis signaling through Gli genes expressed in the mesenchyme. FGF10, produced by the mesoderm, regulates branching morphogenesis via its receptors on the lung epithelium. Alveolization and formation of the capillary network are influenced by various factors that include PDGF, vascular endothelial growth factor (VEGF), and retinoic acid. Epithelial-endothelial interactions during lung development are important in establishing a functional blood-gas interface. The effects of various growth factors on lung development have been demonstrated by gain- or loss-of-function studies in null mutant and transgenic mice models. Understanding the role of growth factors and various other signaling molecules and their cellular interactions in lung development will provide us with new insights into the pathogenesis of bronchopulmonary dysplasia and disorders of lung morphogenesis.
Tyrosine kinases are important in the signal transduction of a number of growth factors. As shown... more Tyrosine kinases are important in the signal transduction of a number of growth factors. As shown previously, transforming growth factor (TGF)-alpha stimulated proliferation of type II cells in vitro. The mitogenic effect of TGF-alpha could be blocked by the addition of the tyrosine kinase inhibitors genistein or tyrphostin. Tyrosine phosphorylation in type II cells exposed to growth factors was examined using an antiphosphotyrosine antibody. After addition of TGF-alpha, phosphorylation of a tyrosine protein with a molecular mass of 170 kD, presumed to be the epidermal growth factor receptor (EGF-R), peaked by 5 min, returning to baseline by 30 min. As expected, genistein or tyrphostin decreased the TGF-alpha-induced phosphorylation of the EGF-R. Addition of TGF-beta resulted in no newly phosphorylated tyrosine proteins. TGF-beta decreased the TGF-alpha-induced phosphorylation of the EGF-R. Previous work has shown that TGF-beta blocks the TGF-alpha stimulation of type II cell proliferation. It appears that TGF-beta interferes with TGF-alpha-induced phosphorylation of the EGF-R.
Pulmonary epithelial cells are important in lung growth, development, and injury. H441 pulmonary ... more Pulmonary epithelial cells are important in lung growth, development, and injury. H441 pulmonary adenocarcinoma cells may be a useful model for studying pulmonary epithelial cell growth factor responses in vitro. Isolated pulmonary epithelial type II cells proliferate in response to transforming growth factor (TGF)-alpha via the epidermal growth factor (EGF) receptor. Type II cells also proliferate in response to hepatocyte growth factor (HGF). In the present study, H441 cell responses to these growth factors were examined, and compared to type II cells. Both the EGF-R and the c-met proto-oncogene receptor, to which HGF binds, were immunoprecipitated from H441 cells. In H441 cells, addition of TGF-alpha resulted in phosphorylation of the EGF receptor and increased cell number and tritiated thymidine incorporation. Incubation with HGF resulted in phosphorylation of its c-met proto-oncogene receptor in type II and H441 cells, and also increased cell number and tritiated thymidine incorporation. Both HGF and TGF-alpha stimulated phosphorylation of the intracellular signaling molecules p42 and p44 mitogen activated protein kinases in H441 cells. H441 cells exhibited responses to mitogenic growth factors similar to type II cells and may be useful as a model for type II cell growth factor responses and signal transduction.
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