Effect of carbon dioxide on neonatal mouse lung: a genomic approach

Li, Guangyu; Zhou, Dan; Vicencio, Alfin G.; Ryu, Julie; Xue, Jin; Kanaan, Amjad; Gavrialov, Orit; Haddad, Gabriel G.

doi:10.1152/japplphysiol.01031.2005

Cited by 30 publications

(31 citation statements)

References 52 publications

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“…To investigate the molecular basis of the physiological effects of hypercapnia and identify CO 2 -responsive promoters to use as markers for dissecting CO 2 -signaling pathways, we performed microarray analysis on adult flies. Similar to the limited changes in gene expression seen in neonatal mice raised in CO 2 (47), exposure of adult flies to 13% CO 2 for 24 h causes fewer than 500 genes to be up-regulated or down-regulated Ͼ1.5-fold, and fewer than 10 by Ͼ10-fold. Importantly, the regulated genes define discrete physiological functions.…”

Section: Resultsmentioning

confidence: 74%

Elevated CO₂suppresses specific Drosophila innate immune responses and resistance to bacterial infection

Helenius

Krupinski

Turnbull

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

123

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Elevated CO2 levels (hypercapnia) frequently occur in patients with obstructive pulmonary diseases and are associated with increased mortality. However, the effects of hypercapnia on non-neuronal tissues and the mechanisms that mediate these effects are largely unknown. Here, we develop Drosophila as a genetically tractable model for defining non-neuronal CO 2 responses and response pathways. We show that hypercapnia significantly impairs embryonic morphogenesis, egg laying, and egg hatching even in mutants lacking the Gr63a neuronal CO 2 sensor. Consistent with previous reports that hypercapnic acidosis can suppress mammalian NF-B-regulated innate immune genes, we find that in adult flies and the phagocytic immune-responsive S2* cell line, hypercapnia suppresses induction of specific antimicrobial peptides that are regulated by Relish, a conserved Rel/NF-B family member. Correspondingly, modest hypercapnia (7-13%) increases mortality of flies inoculated with E. faecalis, A. tumefaciens, or S. aureus. During E. faecalis and A. tumefaciens infection, increased bacterial loads were observed, indicating that hypercapnia can decrease host resistance. Hypercapnic immune suppression is not mediated by acidosis, the olfactory CO 2 receptor Gr63a, or by nitric oxide signaling. Further, hypercapnia does not induce responses characteristic of hypoxia, oxidative stress, or heat shock. Finally, proteolysis of the Relish IB-like domain is unaffected by hypercapnia, indicating that immunosuppression acts downstream of, or in parallel to, Relish proteolytic activation. Our results suggest that hypercapnic immune suppression is mediated by a conserved response pathway, and illustrate a mechanism by which hypercapnia could contribute to worse outcomes of patients with advanced lung disease, who frequently suffer from both hypercapnia and respiratory infections.COPD ͉ hypercapnia ͉ Relish ͉ NF-B ͉ Gr63a

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Section: Resultsmentioning

confidence: 74%

Elevated CO₂suppresses specific Drosophila innate immune responses and resistance to bacterial infection

Helenius

Krupinski

Turnbull

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

123

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“…The high soil temperature at Furnas also presumably increases metabolic O 2 consumption and demand, adding a premium to improved trans-epidermal diffusion efficiency. The structural change in the gas permeable exchange surface of Amynthas seems to be functionally analogous to the thinning of alveolar epithelia observed in CO 2 -exposed neonatal mice compared with controls (Li et al, 2006).…”

Section: Morphometry and Cell Compositionmentioning

confidence: 63%

Morphometry of the epidermis of an invasive megascoelecid earthworm (Amynthas gracilis, Kinberg 1867) inhabiting actively volcanic soils in the Azores archipelago

Cunha¹,

Campos²,

Montiel³

et al. 2011

Ecotoxicology and Environmental Safety

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a b s t r a c tFor the first time, the structure, dimensions, and composition of the epidermis of an invasive earthworm species that has successfully colonized hostile conditions in actively volcanic soil on São Miguel (Azores) have been measured. Metal concentrations in actively volcanic (Furnas) and volcanically inactive (Fajã) soils were similar; however, Furnas soil was characterised by elevated temperature (10 1C differential), relative hypoxia, extremely high CO 2 tension, and accompanying acidity. The epidermis of earthworm's resident at Fajã was approximately twice the thickness of the epidermis of conspecifics resident in Furnas soil. Reference worms transferred to Furnas soil for 14 days experienced an epidermal thinning of approximately 51%. In comparison, when Furnas earthworms were transferred to mesocosms at the relatively benign Fajã site, their epidermal thickness increased by approximately 21% over 14 days. Earthworms resident in Furnas soil had higher goblet cell counts than the residents of volcanically inactive soil on a neighbouring island (S. Maria). Transferring worms from S. Maria to mesocosms at Furnas induced a significant increase in goblet cell counts. Clearly, the active volcanic environment at Furnas poses a multifactorial stress challenge to the epigeic A. gracilis colonizer.

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“…We have previously shown that chronic inhalation of CO 2 prevented PHT in chronic hypoxia-exposed neonatal rats (31), a model in which pulmonary inflammation is not apparent (47). Given the major putative role for lung inflammation in the pathogenesis of BPD (61,62,66) and evidence for anti-inflammatory effects of inhaled CO 2 (37,40,45,72), we were interested in examining the effects of therapeutic hypercapnia on an alternative rat model in which inflammation is a prominent early feature. The concentrations of CO 2 examined in bleomycin-exposed animals were intended to reproduce what are generally considered, in the clinical setting, to represent moderate (5% CO 2 ; mean elevation of Pa CO 2 15-20 mmHg) and severe (7% CO 2 ; mean elevation of Pa CO 2 35 mmHg) levels of hypercapnia.…”

Section: Discussionmentioning

confidence: 99%

Therapeutic hypercapnia prevents bleomycin-induced pulmonary hypertension in neonatal rats by limiting macrophage-derived tumor necrosis factor-α

Sewing

Kantores

Ivanovska

et al. 2012

American Journal of Physiology-Lung Cellular and Molecular Phys

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Sewing AC, Kantores C, Ivanovska J, Lee AH, Masood A, Jain A, McNamara PJ, Tanswell AK, Jankov RP. Therapeutic hypercapnia prevents bleomycin-induced pulmonary hypertension in neonatal rats by limiting macrophage-derived tumor necrosis factor-␣. Am J Physiol Lung Cell Mol Physiol 303: L75-L87, 2012. First published May 11, 2012; doi:10.1152/ajplung.00072.2012.-Bleomycin-induced lung injury is characterized in the neonatal rat by inflammation, arrested lung growth, and pulmonary hypertension (PHT), as observed in human infants with severe bronchopulmonary dysplasia. Inhalation of CO2 (therapeutic hypercapnia) has been described to limit cytokine production and to have anti-inflammatory effects on the injured lung; we therefore hypothesized that therapeutic hypercapnia would prevent bleomycin-induced lung injury. Spontaneously breathing rat pups were treated with bleomycin (1 mg/kg/d ip) or saline vehicle from postnatal days 1-14 while being continuously exposed to 5% CO2 (PaCO 2 elevated by 15-20 mmHg), 7% CO2 (PaCO 2 elevated by 35 mmHg), or normocapnia. Bleomycin-treated animals exposed to 7%, but not 5%, CO2, had significantly attenuated lung tissue macrophage influx and PHT, as evidenced by normalized pulmonary vascular resistance and right ventricular systolic function, decreased right ventricular hypertrophy, and attenuated remodeling of pulmonary resistance arteries. The level of CO2 neither prevented increased tissue neutrophil influx nor led to improvements in decreased lung weight, septal thinning, impaired alveolarization, or decreased numbers of peripheral arteries. Bleomycin led to increased expression and content of lung tumor necrosis factor (TNF)-␣, which was found to colocalize with tissue macrophages and to be attenuated by exposure to 7% CO2. Inhibition of TNF-␣ signaling with the soluble TNF-2 receptor etanercept (0.4 mg/kg ip from days 1-14 on alternate days) prevented bleomycin-induced PHT without decreasing tissue macrophages and, similar to CO2, had no effect on arrested alveolar development. Our findings are consistent with a preventive effect of therapeutic hypercapnia with 7% CO2 on bleomycin-induced PHT via attenuation of macrophage-derived TNF-␣. Neither tissue macrophages nor TNF-␣ appeared to contribute to arrested lung development induced by bleomycin. That 7% CO2 normalized pulmonary vascular resistance and right ventricular function without improving inhibited airway and vascular development suggests that vascular hypoplasia does not contribute significantly to functional changes of PHT in this model. carbon dioxide; inflammation; neonatal lung injury BRONCHOPULMONARY DYSPLASIA (BPD) is a chronic pneumopathy affecting extremely premature infants who frequently require supplemental oxygen and/or mechanical ventilation. The incidence of BPD is inversely proportional to the gestational age at which infants are born, with an incidence approaching 60% in the smallest survivors (4). The cardinal feature of BPD, as observed in the current era, is an inhibition or arrest of alveolar and ...

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Effect of carbon dioxide on neonatal mouse lung: a genomic approach

Cited by 30 publications

References 52 publications

Elevated CO₂suppresses specific Drosophila innate immune responses and resistance to bacterial infection

Elevated CO₂suppresses specific Drosophila innate immune responses and resistance to bacterial infection

Morphometry of the epidermis of an invasive megascoelecid earthworm (Amynthas gracilis, Kinberg 1867) inhabiting actively volcanic soils in the Azores archipelago

Therapeutic hypercapnia prevents bleomycin-induced pulmonary hypertension in neonatal rats by limiting macrophage-derived tumor necrosis factor-α

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Effect of carbon dioxide on neonatal mouse lung: a genomic approach

Cited by 30 publications

References 52 publications

Elevated CO2suppresses specific Drosophila innate immune responses and resistance to bacterial infection

Elevated CO2suppresses specific Drosophila innate immune responses and resistance to bacterial infection

Morphometry of the epidermis of an invasive megascoelecid earthworm (Amynthas gracilis, Kinberg 1867) inhabiting actively volcanic soils in the Azores archipelago

Therapeutic hypercapnia prevents bleomycin-induced pulmonary hypertension in neonatal rats by limiting macrophage-derived tumor necrosis factor-α

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Elevated CO₂suppresses specific Drosophila innate immune responses and resistance to bacterial infection

Elevated CO₂suppresses specific Drosophila innate immune responses and resistance to bacterial infection