Diminished lipoxin biosynthesis in severe asthma

doi:10.1164/rccm.200410-1413OC

. 2005 Oct 1;172(7):824-30.

doi: 10.1164/rccm.200410-1413OC. Epub 2005 Jun 16.

Diminished lipoxin biosynthesis in severe asthma

Bruce D Levy¹, Caroline Bonnans, Eric S Silverman, Lyle J Palmer, Gautham Marigowda, Elliot Israel; Severe Asthma Research Program, National Heart, Lung, and Blood Institute

Affiliations

Affiliation

¹ Pulmonary and Critical Care Medicine and Partners Asthma Center, Department of Internal Medicine, PBB-Clinics-3, Brigham and Women's Hospital, Harvard Medical School, 75 Francis Street, Boston, MA 02115, USA. blevy@partners.org

PMID: 15961693
PMCID: PMC2718403
DOI: 10.1164/rccm.200410-1413OC

Diminished lipoxin biosynthesis in severe asthma

Bruce D Levy et al. Am J Respir Crit Care Med. 2005.

. 2005 Oct 1;172(7):824-30.

doi: 10.1164/rccm.200410-1413OC. Epub 2005 Jun 16.

Authors

Bruce D Levy¹, Caroline Bonnans, Eric S Silverman, Lyle J Palmer, Gautham Marigowda, Elliot Israel; Severe Asthma Research Program, National Heart, Lung, and Blood Institute

Affiliation

¹ Pulmonary and Critical Care Medicine and Partners Asthma Center, Department of Internal Medicine, PBB-Clinics-3, Brigham and Women's Hospital, Harvard Medical School, 75 Francis Street, Boston, MA 02115, USA. blevy@partners.org

PMID: 15961693
PMCID: PMC2718403
DOI: 10.1164/rccm.200410-1413OC

Abstract

Rationale and objectives: Severe asthma is characterized by increased airway inflammation that persists despite therapy with corticosteroids. It is not, however, merely an exaggeration of the eosinophilic inflammation that characterizes mild to moderate asthma; rather, severe asthma presents unique features. Although arachidonic acid metabolism is well appreciated to regulate airway inflammation and reactivity, alterations in the biosynthetic capacity for both pro- and antiinflammatory eicosanoids in severe asthma have not been determined.

Methods: Patients with severe asthma were identified according to National Heart, Lung, and Blood Institute Severe Asthma Research Program criteria. Samples of whole blood from individuals with severe or moderate asthma were assayed for biosynthesis of lipoxygenase-derived eicosanoids.

Measurements and main results: The counterregulatory mediator lipoxin A4 was detectable in low picogram amounts, using a novel fluorescence-based detection system. In activated whole blood, mean lipoxin A4 levels were decreased in severe compared with moderate asthma (0.4 [SD 0.4] ng/ml vs. 1.8 [SD 0.8] ng/ml, p=0.001). In sharp contrast, mean levels of prophlogistic cysteinyl leukotrienes were increased in samples from severe compared with moderate asthma (112.5 [SD 53.7] pg/ml vs. 64.4 [SD 24.8] pg/ml, p=0.03). Basal circulating levels of lipoxin A4 were also decreased in severe relative to moderate asthma. The marked imbalance in lipoxygenase-derived eicosanoid biosynthesis correlated with the degree of airflow obstruction.

Conclusions: Mechanisms underlying airway responses in severe asthma include underproduction of lipoxins. This is the first report of a defect in lipoxin biosynthesis in severe asthma, and suggests an alternative therapeutic strategy that emphasizes natural counterregulatory pathways in the airways.

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Figures

<b>Figure 1.</b> — **Figure 1.**
Fluorescence-based detection of lipoxin A₄ (LXA₄). A new HPLC system, coupled online to a 325-nm helium–cadmium laser to enhance fluorescence, enabled detection of LXA₄ in the low picogram range and (*inset*) the assay was validated with authentic LXA₄ for quantitation over 3 log orders of concentration (mean ± SEM, r² = 0.9987 with a 5-pg limit of detection). The structure of LXA₄ is shown to demonstrate the unique conjugated tetraene that is responsible for its endogenous fluorescence. Results are representative of n ⩾ 3 experiments.

<b>Figure 2.</b> — **Figure 2.**
LXA₄ and leukotriene (LT) generation in activated whole blood from individuals with moderate and severe asthma. Samples of whole blood were obtained from healthy individuals and from subjects with clinically characterized asthma and activated (30 minutes at 37°C) with A23187. After extraction, materials were analyzed by HPLC-LIF for LXA₄ determination (a), by HPLC-PDA for LTB₄ determination (b), and by ELISA for CysLT determination (b). Results are expressed as means ± SEM (n = 9) for LXA₄ and the change in LT biosynthesis in subjects with asthma relative to the mean value in nonasthmatic volunteers (2.3 ng of LTB₄/ml, 25.5 pg of CysLTs/ml, n = 4). N.D. = not detected. *p < 0.05 for subjects with moderate asthma versus nonasthmatic subjects and **p < 0.05 for subjects with severe compared with moderate asthma.

<b>Figure 3.</b> — **Figure 3.**
Relationship between lipid mediator generation and airflow obstruction. The mean value for (a) LXA₄ (*circles*) and (b) CysLT (*triangles*) biosynthetic capacity for each subject with asthma was compared with their FEV₁ (percent-predicted values). Values for patients with severe asthma are *solid*, and values for patients with moderate asthma are *open*.

<b>Figure 4.</b> — **Figure 4.**
Relationship between lipoxygenase-derived eicosanoids in whole blood and airflow obstruction. The value for the ratio of LXA₄ to CysLTs (*squares*) in nonstimulated whole blood for each subject with asthma was compared with their FEV₁ (percent-predicted values). Values for patients with severe asthma are *solid*, and values for patients with moderate asthma are *open*.

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References

1. Tattersfield AE, Knox AJ, Britton JR, Hall IP. Asthma. Lancet 2002;360:1313–1322. - PubMed
1. McFadden ER. Acute severe asthma. Am J Respir Crit Care Med 2003;168:740–759. - PubMed
1. Serra-Batlles J, Plaza V, Morejon E, Comella A, Brugues J. Costs of asthma according to the degree of severity. Eur Respir J 1998;12:1322–1326. - PubMed
1. Wenzel SE, Szefler SJ, Leung DY, Sloan SI, Rex MD, Martin RJ. Bronchoscopic evaluation of severe asthma: persistent inflammation associated with high dose glucocorticoids. Am J Respir Crit Care Med 1997;156:737–743. - PubMed
1. Bousquet J, Jeffery PK, Busse WW, Johnson M, Vignola AM. Asthma: from bronchoconstriction to airways inflammation and remodeling. Am J Respir Crit Care Med 2000;161:1720–1745. - PubMed

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[1] Tattersfield AE, Knox AJ, Britton JR, Hall IP. Asthma. Lancet 2002;360:1313–1322. - PubMed

[2] Tattersfield AE, Knox AJ, Britton JR, Hall IP. Asthma. Lancet 2002;360:1313–1322. - PubMed

[3] McFadden ER. Acute severe asthma. Am J Respir Crit Care Med 2003;168:740–759. - PubMed

[4] McFadden ER. Acute severe asthma. Am J Respir Crit Care Med 2003;168:740–759. - PubMed

[5] Serra-Batlles J, Plaza V, Morejon E, Comella A, Brugues J. Costs of asthma according to the degree of severity. Eur Respir J 1998;12:1322–1326. - PubMed

[6] Serra-Batlles J, Plaza V, Morejon E, Comella A, Brugues J. Costs of asthma according to the degree of severity. Eur Respir J 1998;12:1322–1326. - PubMed

[7] Wenzel SE, Szefler SJ, Leung DY, Sloan SI, Rex MD, Martin RJ. Bronchoscopic evaluation of severe asthma: persistent inflammation associated with high dose glucocorticoids. Am J Respir Crit Care Med 1997;156:737–743. - PubMed

[8] Wenzel SE, Szefler SJ, Leung DY, Sloan SI, Rex MD, Martin RJ. Bronchoscopic evaluation of severe asthma: persistent inflammation associated with high dose glucocorticoids. Am J Respir Crit Care Med 1997;156:737–743. - PubMed

[9] Bousquet J, Jeffery PK, Busse WW, Johnson M, Vignola AM. Asthma: from bronchoconstriction to airways inflammation and remodeling. Am J Respir Crit Care Med 2000;161:1720–1745. - PubMed

[10] Bousquet J, Jeffery PK, Busse WW, Johnson M, Vignola AM. Asthma: from bronchoconstriction to airways inflammation and remodeling. Am J Respir Crit Care Med 2000;161:1720–1745. - PubMed

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Diminished lipoxin biosynthesis in severe asthma

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Diminished lipoxin biosynthesis in severe asthma

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