Jason M. Roper scite author profile

-Type II epithelial cells are essential for lung development and remodeling, as they are precursors for type I cells and can produce vascular mitogens. Although type II cell proliferation takes place after hyperoxia, it is unclear why alveolar remodeling occurs normally in adults whereas it is permanently disrupted in newborns. Using a line of transgenic mice whose type II cells could be identified by their expression of enhanced green fluorescent protein and endogenous expression of surfactant proteins, we investigated the age-dependent effects of hyperoxia on type II cell proliferation and alveolar repair. In adult mice, type II cell proliferation was low during room air and hyperoxia exposure but increased during recovery in room air and then declined to control levels by day 7. Eight weeks later, type II cell number and alveolar compliance were indistinguishable from those in room air controls. In newborn mice, type II cell proliferation markedly increased between birth and postnatal day 7 before declining by postnatal day 14. Exposure to hyperoxia between postnatal days 1 and 4 inhibited type II cell proliferation, which resumed during recovery and was aberrantly elevated on postnatal day 14. Eight weeks later, recovered mice had 70% fewer type II cells and 30% increased lung compliance compared with control animals. Recovered mice also had higher levels of T1␣, a protein expressed by type I cells, with minimal changes detected in genes expressed by vascular cells. These data suggest that perinatal hyperoxia adversely affects alveolar development by disrupting the proper timing of type II cell proliferation and differentiation into type I cells. alveoli; cell proliferation; differentiation; enhanced green fluorescent protein; proliferating cell nuclear antigen THE ALVEOLUS IS COMPOSED OF two epithelial cell types that can be identified by their distinct morphology and expression of unique genes. Type I cells are thin, flat cells that cover pulmonary vascular endothelial cells and comprise 95% of the alveolar surface (56). These cells are important for gas exchange, regulation of alveolar fluid levels, and stretch-induced modulation of surfactant secretion. Type I cells can be identified by their expression of T1␣ (also known as RTI 40 ), aquaporin-5, caveolin-1, or the cyclin-dependent kinase inhibitor p15 (41,42). Type II cells, on the other hand, are large,

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In vivo exposure to hyperoxia induces DNA damage in a population of alveolar type II epithelial cells

Roper

Mazzatti

Watkins

et al. 2004

American Journal of Physiology-Lung Cellular and Molecular Phys

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It is well established that hyperoxia injures and kills alveolar endothelial and type I epithelial cells of the lung. Although type II epithelial cells remain morphologically intact, it remains unclear whether they are also damaged. DNA integrity was investigated in adult mice whose type II cells were identified by their endogenous expression of pro-surfactant protein C or transgenic expression of enhanced green fluorescent protein. In mice exposed to room air, punctate perinuclear 8-oxoguanine staining was detected in approximately 4% of all alveolar cells and in 30% of type II cells. After 48 or 72 h of hyperoxia, 8-oxoguanine was detected in 11% of all alveolar cells and in >60% of type II cells. 8-Oxoguanine colocalized by confocal microscopy with the mitochondrial transmembrane protein cytochrome oxidase subunit 1. Type II cells isolated from hyperoxic lungs exhibited nuclear DNA strand breaks by comet assay even though they were viable and morphologically indistinguishable from cells isolated from lungs exposed to room air. These data reveal that type II cells exposed to in vivo hyperoxia have oxidized and fragmented DNA. Because type II cells are essential for lung remodeling, our findings raise the possibility that they are proficient in DNA repair.

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Host responses to Renibacterium salmoninarum and specific components of the pathogen reveal the mechanisms of immune suppression and activation

et al. 2002

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SUMMARYDuring infection, Renibacterium salmoninarum survives within the pronephric macrophages of salmonid fish. Therefore, to study the initial phases of the interaction we infected macrophages with live bacteria and analysed the responses of host and pathogen. It was found that the expression of msa encoding the p57 antigen of R. salmoninarum, was constitutive, while the expression of hly and rsh, encoding haemolysins, and lysB and grp was reduced after infection. Macrophages showed a rapid inflammatory response in which the expression of interleukin-1b (IL-1b), major histocompatibility complex class II (MHC II), inducible cyclo-oxygenase (Cox-2), and inducible nitric oxide synthase (iNOS) was enhanced, but tumour necrosis factor-a (TNF-a) expression was greatly reduced initially and then increased. After 5 days, except for TNF-a and MHC II, expression returned to levels approaching those of uninfected macrophages. We propose that R. salmoninarum survives initial contact with macrophages by avoiding and/or interfering with TNF-a-dependent killing pathways. The effects of specific R. salmoninarum components were studied in vivo by injecting fish with DNA vaccine constructs expressing msa, hly, rsh, lysB, or grp. We found that msa reduced the expression of IL-1b, Cox-2, and MHC II but stimulated TNF-a while hly, rsh and grp stimulated MHC II but down-regulated TNF-a. Constructs expressing hly or lysB stimulated iNOS expression and additionally, lysB stimulated TNF-a. The results show how p57 suppresses the host immune system and suggest that the immune mechanisms for the containment of R. salmoninarum infections rely on MHC II-and TNF-a-dependent pathways. Moreover, prolonged stimulation of TNF-a may contribute to the chronic inflammatory pathology of bacterial kidney disease.

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Safety Assessment of Food and Feed from GM Crops in Europe: Evaluating EFSA’s Alternative Framework for the Rat 90-day Feeding Study

Hong

Mukerji

et al. 2017

J. Agric. Food Chem.

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Regulatory-compliant rodent subchronic feeding studies are compulsory regardless of a hypothesis to test, according to recent EU legislation for the safety assessment of whole food/feed produced from genetically modified (GM) crops containing a single genetic transformation event (European Union Commission Implementing Regulation No. 503/2013). The Implementing Regulation refers to guidelines set forth by the European Food Safety Authority (EFSA) for the design, conduct, and analysis of rodent subchronic feeding studies. The set of EFSA recommendations was rigorously applied to a 90-day feeding study in Sprague-Dawley rats. After study completion, the appropriateness and applicability of these recommendations were assessed using a battery of statistical analysis approaches including both retrospective and prospective statistical power analyses as well as variance-covariance decomposition. In the interest of animal welfare considerations, alternative experimental designs were investigated and evaluated in the context of informing the health risk assessment of food/feed from GM crops.

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Hyperoxic Ventilated Premature Baboons Have Increased p53, Oxidant DNA Damage and Decreased VEGF Expression

et al. 2005

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Jason M. Roper

Type II epithelial cells are critical target for hyperoxia-mediated impairment of postnatal lung development

In vivo exposure to hyperoxia induces DNA damage in a population of alveolar type II epithelial cells

Host responses to Renibacterium salmoninarum and specific components of the pathogen reveal the mechanisms of immune suppression and activation

Safety Assessment of Food and Feed from GM Crops in Europe: Evaluating EFSA’s Alternative Framework for the Rat 90-day Feeding Study

Hyperoxic Ventilated Premature Baboons Have Increased p53, Oxidant DNA Damage and Decreased VEGF Expression

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