Hypoxia Response in Asthma

Ahmad, Tanveer; Kumar, Manish; Mabalirajan, Ulaganathan; Pattnaik, Bijay; Aggarwal, Shilpi; Singh, Ranjana; Singh, Suchita; Mukerji, Mitali; Ghosh, Balaram; Agrawal, Anurag

doi:10.1165/rcmb.2011-0203oc

Cited by 62 publications

(37 citation statements)

References 34 publications

(42 reference statements)

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“…In addition, although methacholine (MCH) is often used to verify airway hyperresponsiveness [50,74,90], here, we showed that weekly peri-adolescent MCH treatments effectively induced labored breathing bouts at multiple ages throughout mouse peri-adolescence. Previous studies have demonstrated that late adolescent/early-adult respiratory allergies and inflammation lead to increased anxiety [91].…”

Section: Discussionmentioning

confidence: 86%

“…Second, asthma involves unpredictable respiratory distress with heavily labored breathing. This hypoxic state can lead to limited airflow, increased airway muscle activity, risk for respiratory failure, and airway remodeling [49,50]. Given these two distinct symptoms of asthma – lung inflammation and labored breathing – we independently manipulated these two features in a mouse model.…”

Section: Introductionmentioning

confidence: 99%

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Peri-adolescent asthma symptoms cause adult anxiety-related behavior and neurobiological processes in mice

Caulfield

Caruso

Michael

et al. 2017

Behavioural Brain Research

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Human and animal studies have shown that physical challenges and stressors during adolescence can have significant influences on behavioral and neurobiological development associated with internalizing disorders such as anxiety and depression. Given the prevalence of asthma during adolescence and increased rates of internalizing disorders in humans with asthma, we used a mouse model to test if and which symptoms of adolescent allergic asthma (airway inflammation or labored breathing) cause adult anxiety- and depression-related behavior and brain function. To mimic symptoms of allergic asthma in young BALB/cJ mice (postnatal days [P] 7–57; N=98), we induced lung inflammation with repeated intranasal administration of house dust mite extract (most common aeroallergen for humans) and bronchoconstriction with aerosolized methacholine (non-selective muscarinic receptor agonist). Three experimental groups, in addition to a control group, included: (1) “Airway inflammation only”, allergen exposure 3 times/week, (2) “Labored breathing only”, methacholine exposure once/week, and (3) “Airway inflammation + Labored breathing”, allergen and methacholine exposure. Compared to controls, mice that experienced methacholine-induced labored breathing during adolescence displayed a ~20% decrease in time on open arms of the elevated plus maze in early adulthood (P60), a ~30% decrease in brainstem serotonin transporter (SERT) mRNA expression and a ~50% increase in hippocampal serotonin receptor 1a (5Htr1a) and corticotropin releasing hormone receptor 1 (Crhr1) expression in adulthood (P75). This is the first evidence that experimentally-induced clinical symptoms of adolescent asthma alter adult anxiety-related behavior and brain function several weeks after completion of asthma manipulations.

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Section: Discussionmentioning

confidence: 86%

Section: Introductionmentioning

confidence: 99%

Peri-adolescent asthma symptoms cause adult anxiety-related behavior and neurobiological processes in mice

Caulfield

Caruso

Michael

et al. 2017

Behavioural Brain Research

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“…Increased hypoxic responses by the inflamed airway have been observed in asthma and were reported to lead to exacerbations in acute and chronic experimental allergic models of asthma, but not in healthy, noninflamed lung tissue. 29 The increase in oxidative and hypoxic stress responses in asthma coincides with considerable alterations in cellular energy metabolism. Levels of metabolites participating in the tricarboxylic acid cycle were altered in asthma, and fluctuations of metabolites in pathways involved in cellular energy metabolism in the lungs have been observed in mouse models of experimental asthma.…”

Section: Biological Insights Into Asthma Pathophysiology and Treatmentmentioning

confidence: 99%

Asthma Metabolomics and the Potential for Integrative Omics in Research and the Clinic

Kelly

Dahlin

McGeachie

et al. 2017

Chest

148

124

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Asthma is a complex disease well-suited to metabolomic profiling, both for the development of novel biomarkers and for the improved understanding of pathophysiology. In this review, we summarize the 21 existing metabolomic studies of asthma in humans, all of which reported significant findings and concluded that individual metabolites and metabolomic profiles measured in exhaled breath condensate, urine, plasma, and serum could identify people with asthma and asthma phenotypes with high discriminatory ability. There was considerable consistency across the studies in terms of the reported biomarkers, regardless of biospecimen, profiling technology, and population age. In particular, acetate, adenosine, alanine, hippurate, succinate, threonine, and trans-aconitate, and pathways relating to hypoxia response, oxidative stress, immunity, inflammation, lipid metabolism and the tricarboxylic acid cycle were all identified as significant in at least two studies. There were also a number of nonreplicated results; however, the literature is not yet sufficiently developed to determine whether these represent spurious findings or reflect the substantial heterogeneity and limited statistical power in the studies and their methods to date. This review highlights the need for additional asthma metabolomic studies to explore these issues, and, further, the need for standardized methods in the way these studies are conducted. We conclude by discussing the potential of translation of these metabolomic findings into clinically useful biomarkers and the crucial role that integrated omics is likely to play in this endeavor.CHEST 2017; 151(2):262-277

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“…Using a nonspecific HIF1 inhibitor, Huerta-Yepez et al130 have reported that the inhibition of this pathway reduced the allergic inflammation and lung remodeling in an ovalbumin-triggered mouse model. Furthermore, inhibition of PHD2 by ethyl 3,4-dihydroxybenzoic acid, an oxoglutarate analog, has been shown to lead to a dose-dependent increase of airway hyperresponsiveness in a mouse model of asthma, associated with an increased cell infiltration, mucus production, and collagen deposition in the basal membrane of the epithelium 129. Although this data points to a possible protective role of PHD2 in the development of asthma, not much is known regarding the mechanism through which PHD2 seems to mediate these effects.…”

Section: The Role Of Phd2 In Pathologymentioning

confidence: 99%

PHD2: from hypoxia regulation to disease progression

Meneses¹,

Wielockx²

2016

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Oxygen represents one of the major molecules required for the development and maintenance of life. An adequate response to hypoxia is therefore required for the functioning of the majority of living organisms and relies on the activation of the hypoxia-inducible factor (HIF) pathway. HIF prolyl hydroxylase domain-2 (PHD2) has long been recognized as the major regulator of this response, controlling a myriad of outcomes that range from cell death to proliferation. However, this enzyme has been associated with more pathways, making the role of this protein remarkably complex under distinct pathologies. While a protective role seems to exist in physiological conditions such as erythropoiesis; the picture is more complex during pathologies such as cancer. Since the regulation of this enzyme and its closest family members is currently considered as a possible therapy for various diseases, understanding the different particular roles of this protein is essential.

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Hypoxia Response in Asthma

Cited by 62 publications

References 34 publications

Peri-adolescent asthma symptoms cause adult anxiety-related behavior and neurobiological processes in mice

Peri-adolescent asthma symptoms cause adult anxiety-related behavior and neurobiological processes in mice

Asthma Metabolomics and the Potential for Integrative Omics in Research and the Clinic

PHD2: from hypoxia regulation to disease progression

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