Asthma is a comorbid condition associated with increased rates of pain, acute chest syndrome, and premature death in human sickle cell disease (SCD). We developed an experimental asthma model in SCD and control mice expressing either normal human or murine hemoglobin to determine its effect on mortality and lung pathology. To induce lung inflammation, experimental mice were sensitized to ovalbumin (OVA) by subcutaneous OVA implantation (Sen), allowed 2 weeks to recover, and then divided into 2 groups, each receiving over a subsequent 10-day period the same dosage of aerosolized OVA but 2 different levels of exposure: 15 minutes (LoSen) and 30 minutes (HiSen). During recovery, 10% of SCD mice died compared with no deaths in control mice. An additional 30% of HiSen SCD mice died during aerosolization compared with 10% in LoSen SCD. Histologic indices of lung inflammation (eg, eosinophil recruitment, airway and vessel wall thickening, and immunoreactive TGF and fsp-1) and bronchial alveolar lavage fluid eosinophil peroxidase activity differentially increased in sensitized mice compared with unsensitized mice. Our findings indicate SCD mice with experimentally induced asthma are more susceptible to death and pulmonary inflammation compared with control mice, suggesting that asthma contributes significantly to morbidity and mortality in SCD. (Blood. 2008;112:2529-2538)
IntroductionThe major causes of morbidity and mortality in sickle cell disease (SCD) are initiated by tissue ischemia and infarction due to vascular occlusion that results in progressive organ damage. The etiology of vaso-occlusion is unclear and likely reflects the complex interplay between the sickle red blood cell, the injured vessel wall, and increased inflammation. In support of this notion, there is considerable evidence for increased inflammation in both human and murine SCD. The leukocyte count is elevated in SCD and correlates with a more severe clinical course, including increased risk of stroke and early death. [1][2][3][4] In addition, patients with SCD have chronically elevated acutephase proteins, which often increase further during crisis. 5 The fact that patients with SCD have increased numbers of circulating endothelial cells that increase to even higher levels during times of vaso-occlusive crises, provide strong evidence that endothelial inflammation and injury play important roles in the mechanisms impairing vascular function in SCD. 6 These circulating endothelial cells express an activated phenotype, including increased expression of the adhesive molecules VCAM-1, E-selectin, and ICAM-1. 6 In parallel with these human studies, additional experiments showed that sickle cell disease mice also have increased circulating endothelial cells that express higher levels of E-selectin, VCAM, and ICAM-1. 7 Other studies have shown that sickle cell disease increases the expression of tissue factor in the veins of the lungs in response to ischemia/ reperfusion by a mechanism that can be inhibited by lovastatin. 8 Moreover, plasma levels of th...
