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Sepsis after surgery, trauma, or burn contributes to altered lung endothelial permeability and respiratory failure. Fibronectin (Fn), an opsonic and adhesive glycoprotein, exists in both a soluble form in plasma and an insoluble form in the extracellular matrix (ECM). Recent studies [E. M. Wheatley, P. J. McKeown-Longo, P. A. Vincent, and T. M. Saba, Am. J. Physiol. 265 (Lung Cell. Mol. Physiol. 9): L148-L157, 1993] suggest that the ECM content of Fn may influence lung vascular permeability. We evaluated the incorporation of plasma-derived Fn (pFn) into the ECM of the lung during postoperative sepsis. Postoperative nonseptic and postoperative septic rats were compared, using a model of laparotomy followed by cecal ligation and puncture. To label the pFn pool, rats received intravenously 3 micrograms of purified rat 125I-labeled Fn/100 g body weight 6 h after surgery (laparotomy). 125I-Fn in the deoxycholate detergent-insoluble fraction of tissues was used to quantify matrix-incorporated Fn at 4 h after infusion with 125I-Fn. Septic rats exhibited a peripheral leukopenia as well as reduction in plasma volume, Fn halflife, and total pFn pool. Incorporation of pFn in the liver and spleen of postsurgical septic rats was not different (P > 0.05) from sham-operated (postsurgical nonseptic) rats, but incorporation was significantly decreased (P < 0.05) in vivo in the lung. However, under controlled in vitro conditions, lung tissue harvested from septic or sham-operated rats demonstrated a similar tissue incorporation of soluble 125I-pFn as well as similar rates of retention/turnover of ECM 125I-Fn, based on pulse-chase experiments. These data suggest that the in vivo inflammatory environment in the lung during postoperative sepsis, which cannot be reproduced in vitro, may alter the Fn content of the ECM of the lung. Such reduced levels of pFn in the lung ECM may be a factor influencing lung vascular integrity during postoperative sepsis.
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PMID:Reduced in vivo plasma fibronectin content of lung matrix during postoperative sepsis. 884 89

Inhaled nitric oxide (NO) is an important new therapeutic agent used to treat pulmonary arterial hypertension in a variety of disease states. However, the effects of NO on cells in the lung are uncertain. Previously, we have shown that NO gas depresses neutrophil oxidative cell function and increases neutrophil cell death. The purpose of this in vitro study was to determine the mechanism of neutrophil death. We hypothesized that NO hastened cell death by inducing apoptosis. To mimic the clinical environment of patients with respiratory failure, we also studied the effects of hyperoxia on neutrophil cell viability and apoptosis. Isolated human neutrophils were exposed to 80% O2 (O2), NO at 20 ppm in room air (NO/RA), 20 ppm NO blended with 80% O2 (NO/O2), or RA alone (control) for 2 to 24 h. Experiments were repeated with NO concentrations of 5 and 50 ppm and with 20 ppm in the presence of superoxide dismutase (SOD). Neutrophils were also incubated in the absence or presence of neutrophil stimulant fMLP (10 nM). Neutrophil cell viability was measured by fluorescence viability/cytotoxicity assay. Neutrophil apoptosis was assessed by cell death detection ELISA for histone-associated DNA fragments, TdT transferase-mediated fluorescence-labeled dUTP nick end labeling (TUNEL) assay, and DNA fragmentation gel electrophoresis. NO/O2-exposed neutrophils showed decreased viability at 2 h (31.7 +/- 3.7%, mean % viability +/- SD) compared with control (94.7 +/- 4.7%), O2 (75.6 +/- 9.3%), and NO/RA (62.8 +/- 14.9%; P < 0.05 by ANOVA; n = 9). Although control neutrophils demonstrated marked apoptosis at 24 h, there was no significant apoptosis at 2, 4, or 6 h (P < 0.001 by Kruskal-Wallis, n = 20) as assessed by ELISA and TUNEL assays. When compared with RA controls at 2 h, neutrophils exposed to NO/O2 showed significantly more apoptosis (292% of control, range: 106 to 2,488%, P < 0.001 by ANOVA and Kruskal-Wallis) but not with exposure to NO/RA or O2 alone. These findings were confirmed by TUNEL assay (n = 4, P < 0.05). NO/ RA and NO/O2-exposed neutrophils demonstrated both evidence of necrosis and enhanced DNA fragmentation at 2 h by gel electrophoresis (n = 2). Fifty parts per million NO produced similar findings, but exposure to 5 ppm NO did not induce significant DNA fragmentation. Coincubation with SOD inhibited NO/ O2-associated apoptosis, suggesting peroxynitrite contributed to cell death. Stimulation with fMLP did not alter apoptosis induced in neutrophils exposed to NO/RA or NO/O2. We conclude that exogenous NO gas, at clinically relevant concentrations under hyperoxic conditions, induces cell death in neutrophils in part by enhancing DNA fragmentation.
Am J Respir Cell Mol Biol 1998 Mar
PMID:Exogenous nitric oxide enhances neutrophil cell death and DNA fragmentation. 949 Jun 60

It is now recognized that respiratory muscle fatigue contributes to the development of respiratory failure in some patients with lung disease. This observation has prompted an examination into the mechanisms of development of muscle fatigue, with the understanding that an elucidation of these processes may lead to new therapeutic approaches to the treatment of these patients. A series of recent studies examining this issue have, moreover, discovered that oxygen-derived free radicals generated during strenuous contraction may modulate respiratory muscle contractile function and contribute to the development of muscle fatigue. The data supporting this concept include: (a) direct (e.g. EPR, ESR studies) and indirect (evidence of lipid peroxidation, protein carbonyl formation, glutathione oxidation) evidence that there is heightened free radical production in contracting muscle, (b) evidence that pharmacologic depletion of muscle antioxidant stores increases degree of muscle fatigue present after a period of exercise, and (c) evidence that administration of agents that act as free radical scavengers retard the development muscle fatigue. Free radicals may produce these changes in muscle force generating capacity by interacting with and altering the function of a number of intracellular-biophysical processes (i.e. sarcolemmal action potential propagation, sarcoplasmic reticulum calcium handling, mitochondrial function, contractile protein interactions).
Mol Cell Biochem 1998 Feb
PMID:Free radical induced respiratory muscle dysfunction. 954 53

Pulmonary surfactant, a complex mixture of phospholipids and specific associated proteins, reduces the surface tension at the air-liquid interface of the distal conducting airways and gas exchanging alveoli of the lung. Lipids, primarily neutral and phospholipids, compose approximately 90% of the surfactant complex. The remaining 10% of surfactant is composed of at least three surfactant-specific proteins, designated surfactant protein A (SP-A), SP-B, and SP-C. These proteins contribute to the formation, stabilization, and function of organized surfactant structures. This article briefly reviews the normal composition and function of pulmonary surfactant and specifically reviews the structure, function, and regulation of surfactant protein B (SP-B). The recent identification of neonates with refractory respiratory failure due to a genetic absence of SP-B and the study of transgenic mice in which SP-B gene expression has been ablated highlight the importance of the protein to surfactant function, synthesis, and metabolism and to the maintenance of lung function. Gene reconstitution experiments in vitro and in SP-B-deficient transgenic mice suggest specific functions for the amino and carboxyl terminal domains of the protein. SP-B deficiency is a potential target for gene therapy in human patients.
Mol Genet Metab 1998 Aug
PMID:Regulation and function of pulmonary surfactant protein B. 975 11

Amyotrophic lateral sclerosis (ALS) is a progressive motor neurodegeneration resulting in paralysis and death from respiratory failure within 3-5 years. About 20% of familial cases are associated with mutations in the gene for copper/zinc superoxide dismutase ( SOD1 ), which catalyses the dismutation of the superoxide radical to hydrogen peroxide and oxygen. Experimental evidence suggests mutations act by a toxic gain of function but the mechanism is unknown. There are >60 known SOD1 mutations associated with ALS and all are dominant except for one in exon 4, a D90A substitution which is recessive. D90A pedigrees with dominant inheritance have now been reported and this apparent contradiction needs to be explained. We performed a worldwide haplotype study on 28 D90A pedigrees using six highly polymorphic microsatellite markers. We now show that all 20 recessive families share the same founder (alpha = 0.999), regardless of geographical location, whereas several founders exist for the eight dominant families (alpha = 0.385). This finding confirms that D90A can act in a dominant fashion in keeping with all other SOD1 mutations, but that on one occasion, a new instance of this mutation has been recessive. We propose a tightly linked protective factor which modifies the toxic effect of mutant SOD1 in recessive families.
Hum Mol Genet 1998 Dec
PMID:Recessive amyotrophic lateral sclerosis families with the D90A SOD1 mutation share a common founder: evidence for a linked protective factor. 981 20

a fpreviously produced angiotensinogen-deficient mice, i.e. mice with deleted renin-angiotensin system (RAS), with a genetic background on C57BL/6J - C57BL/6J-agt (-/-) -, but no C57BL/6J-agt (-/-) which survived long enough to be weaned. In the present study, we attempted to prevent neonatal death and analyzed pathological development in C57BL/6J-agt (-/-). We indicate that mortality in C57BL/6J-agt (-/-) derived from C57BL/6J-agt (+/-) can be reduced by hypodermic saline injection in the 7 days following birth, that hydronephrosis developed by day 14 in association with polydiplasia and polyuria by day 30, and that chronic hypotension occurs. Hydronephrosis is less damaging to electrolyte resorption in younger mice, but not in adults. We also observed that C57BL/6J-agt (-/-) derived from C57BL/6J-agt (-/-) frequently develop fetal hydronephrosis and die of respiratory failure at birth. These results suggest that maternal RAS is associated with structural maturation of kidney and lung in late fetus and that postnatal RAS plays important roles in structural and functional maintenance of the kidneys.
Int J Mol Med 1998 Mar
PMID:Pathologic characterization of hypotensive C57BL/6J-agt: angiotensinogen-deficient C57BL/6J mice. 985 67

The glucocorticoid receptor is an ubiquitously expressed transcription factor involved in the regulation of many different physiological processes. Activated by glucocorticoids the receptor regulates transcription positively or negatively either by direct binding to DNA or by protein protein interactions. In order to define the role of the receptor during development and in physiology several mutations have been generated in the mouse. Mice with a disrupted glucocorticoid receptor gene die shortly after birth due to respiratory failure indicating an important role of the receptor in lung function. Transcription of genes encoding gluconeogenic enzymes in the liver is decreased, proliferation of erythroid progenitors is impaired and the HPA axis is strongly upregulated. To analyze molecular mechanisms of glucocorticoid receptor action in vivo a point mutation has been introduced into the mouse genome which allows to separate DNA-binding-dependent from DNA-binding-independent actions of the receptor. Mice homozygous for the point mutation survive indicating that DNA-binding of the receptor is not required for survival. Induction of glucoconegenic enzymes and proliferation of erythroid progenitors however is impaired. Interestingly, repression of corticotropin releasing factor (CRF) synthesis is maintained, whereas proopiomelanocortin (POMC) expression is upregulated. Since mice with a disrupted glucocorticoid receptor gene die shortly after birth attempts using the Cre/loxP-recombination system are made to bypass early lethality and to study the function of the receptor in defined cell types of adult animals.
J Steroid Biochem Mol Biol
PMID:Mutagenesis of the glucocorticoid receptor in mice. 1041 99

Parathyroid hormone-related peptide (PTHrP) and the parathyroid hormone/parathyroid hormone-related peptide (PTH/PTHrP) receptor are important developmental regulators of cell growth and differentiation in some organs. In lung, both the peptide and the receptor are expressed early in development and in alveolar cells in adults. In adult alveolar cells, PTHrP appears to promote the alveolar type II cell phenotype in vitro. Mice carrying null mutations in genes for either receptor or ligand die at birth of respiratory failure. To determine if absence of the PTH/PTHrP receptor alters morphogenesis or cellular differentiation of the distal lung, we analyzed the morphology and gene expression patterns in PTH/PTHrP receptor null mutant mice right before birth and compared them with wild-type and heterozygous null littermates. Using semiquantitative Northern blots, we observed that messenger RNA (mRNA) for aquaporin-5, the type I cell-specific water channel, was markedly decreased. The abundance of other marker mRNAs for type I and type II cell phenotypes, including T1alpha, surfactant proteins, and others, was unaltered. Gross morphology and lung pattern, assessed by in situ hybridization for surfactant protein C, were normal. We conclude therefore that, although signaling through this receptor may influence expression of specific lung genes, it does not play a major role in the general regulation of lung development and growth.
Am J Respir Cell Mol Biol 2000 Mar
PMID:Aquaporin-5 expression, but not other peripheral lung marker genes, is reduced in PTH/PTHrP receptor null mutant fetal mice. 1069 74

Infants with inherited deficiency of pulmonary surfactant protein (SP) B develop respiratory failure at birth and die without lung transplantation. We examined aspects of surfactant metabolism in lung tissue and lavage fluid acquired at transplantation or postmortem from ten infants born at term with inherited deficiency of SP-B; comparison groups were infants with other forms of chronic lung disease (CLD) and normal infants. In pulse/chase labeling studies with cultured deficient tissue, no immunoprecipitable SP-B was observed and an approximately 6-kD form of SP-C accumulated that was only transiently present in CLD tissue. SP-B messenger RNA (mRNA) was approximately 8% of normal in deficient specimens, and some intact message was observed after, but not before, explant culture. Transcription rates for SP-B, assessed by nuclear run-on assay using probes for sequences both 5' and 3' of the common nonsense mutation (121ins2), were comparable in all lungs examined. The minimal surface tension achieved with lavage surfactant was similarly elevated in both deficient and CLD infants (26-31 mN/m) compared with normal infants (6 mN/m). Both SP-B-deficient and CLD infants had markedly decreased phosphatidylglycerol content of lavage and tissue compared with normal lung, whereas synthetic rates for phospholipids, including phosphatidylglycerol, were normal. We conclude that the mutated SP-B gene is transcribed normally but produces an unstable mRNA and that absence of SP-B protein blocks processing of SP-C. Chronic infant lung disease, of various etiologies, reduces surfactant function and apparently alters phosphatidylglycerol degradation.
Am J Respir Cell Mol Biol 2000 Mar
PMID:Pulmonary surfactant metabolism in infants lacking surfactant protein B. 1069 76

Members of the integrin family of adhesion receptors mediate both cell-cell and cell-matrix interactions and have been shown to play vital roles in embryonic development, wound healing, metastasis, and other biological processes. The integrin alpha9beta1 is a receptor for the extracellular matrix proteins osteopontin and tenacsin C and the cell surface immunoglobulin vascular cell adhesion molecule-1. This receptor is widely expressed in smooth muscle, hepatocytes, and some epithelia. To examine the in vivo function of alpha9beta1, we have generated mice lacking expression of the alpha9 subunit. Mice homozygous for a null mutation in the alpha9 subunit gene appear normal at birth but develop respiratory failure and die between 6 and 12 days of age. The respiratory failure is caused by an accumulation of large volumes of pleural fluid which is rich in triglyceride, cholesterol, and lymphocytes. alpha9(-/-) mice also develop edema and lymphocytic infiltration in the chest wall that appears to originate around lymphatics. alpha9 protein is transiently expressed in the developing thoracic duct at embryonic day 14, but expression is rapidly lost during later stages of development. Our results suggest that the alpha9 integrin is required for the normal development of the lymphatic system, including the thoracic duct, and that alpha9 deficiency could be one cause of congenital chylothorax.
Mol Cell Biol 2000 Jul
PMID:Fatal bilateral chylothorax in mice lacking the integrin alpha9beta1. 1086 76

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