Innate immune protection from pneumonia virus of mice induced by a novel immunomodulator is prolonged by dual treatment and mediated by macrophages.

Respiratory syncytial virus (RSV) is responsible for a large proportion of acute lower respiratory tract infections, specifically in children. Pneumonia virus of mice (PVM) causes similar lung pathology and clinical disease in rodents, and is therefore an appropriate model of RSV infection. Previously, we demonstrated that a single intranasal dose of P-I-P, a novel immunomodulator composed of the toll-like receptor 3 agonist poly(I:C), an innate defense regulator peptide and a polyphosphazene, confers protection in Balb/c mice for up to 3 days from lethal PVM-15 infection. In the present study a dual intranasal treatment with P-I-P was shown to extend the duration of the protection conferred by P-I-P from PVM-15 challenge. Balb/c mice treated twice with P-I-P showed higher survival rates and milder clinical signs when compared to animals that received a single P-I-P dose. While the mice treated with two consecutive doses of P-I-P experienced some weight loss, they all recovered. The dual P-I-P treatment mediated infiltration of several innate immune cells into the BALF and lung, including alveolar macrophages, neutrophils, and γδ T cells. Partial depletion of alveolar macrophages decreased survival rates and exacerbated clinical signs of mice subjected to the P-I-P dual treatment regime followed by PVM-15 challenge. This suggests that the alveolar macrophage is at least partially responsible for the protection elicited by this novel prophylactic treatment strategy.

Chronic IL-33 expression predisposes to virus-induced asthma exacerbations by increasing type 2 inflammation and dampening antiviral immunity.

BACKGROUND: Rhinovirus infection triggers acute asthma exacerbations. IL-33 is an instructive cytokine of type 2 inflammation whose expression is associated with viral load during experimental rhinovirus infection of asthmatic patients. OBJECTIVE: We sought to determine whether anti-IL-33 therapy is effective during disease progression, established disease, or viral exacerbation using a preclinical model of chronic asthma and in vitro human primary airway epithelial cells (AECs). METHODS: Mice were exposed to pneumonia virus of mice and cockroach extract in early and later life and then challenged with rhinovirus to model disease onset, progression, and chronicity. Interventions included anti-IL-33 or dexamethasone at various stages of disease. AECs were obtained from asthmatic patients and healthy subjects and treated with anti-IL-33 after rhinovirus infection. RESULTS: Anti-IL-33 decreased type 2 inflammation in all phases of disease; however, the ability to prevent airway smooth muscle growth was lost after the progression phase. After the chronic phase, IL-33 levels were persistently high, and rhinovirus challenge exacerbated the type 2 inflammatory response. Treatment with anti-IL-33 or dexamethasone diminished exacerbation severity, and anti-IL-33, but not dexamethasone, promoted antiviral interferon expression and decreased viral load. Rhinovirus replication was higher and IFN-λ levels were lower in AECs from asthmatic patients compared with those from healthy subjects. Anti-IL-33 decreased rhinovirus replication and increased IFN-λ levels at the gene and protein levels. CONCLUSION: Anti-IL-33 or dexamethasone suppressed the magnitude of type 2 inflammation during a rhinovirus-induced acute exacerbation; however, only anti-IL-33 boosted antiviral immunity and decreased viral replication. The latter phenotype was replicated in rhinovirus-infected human AECs, suggesting that anti-IL-33 therapy has the additional benefit of enhancing host defense.

The effect of TIP on pneumovirus-induced pulmonary edema in mice.

BACKGROUND: Pulmonary edema plays a pivotal role in the pathophysiology of respiratory syncytial virus (RSV)-induced respiratory failure. In this study we determined whether treatment with TIP (AP301), a synthetic cyclic peptide that mimics the lectin-like domain of human TNF, decreases pulmonary edema in a mouse model of severe human RSV infection. TIP is currently undergoing clinical trials as a therapy for pulmonary permeability edema and has been shown to decrease pulmonary edema in different lung injury models. METHODS: C57BL/6 mice were infected with pneumonia virus of mice (PVM) and received TIP or saline (control group) by intratracheal instillation on day five (early administration) or day seven (late administration) after infection. In a separate set of experiments the effect of multiple dose administration of TIP versus saline was tested. Pulmonary edema was determined by the lung wet-to-dry (W/D) weight ratio and was assessed at different time-points after the administration of TIP. Secondary outcomes included clinical scores and lung cellular response. RESULTS: TIP did not have an effect on pulmonary edema in different dose regimens at different time points during PVM infection. In addition, TIP administration did not affect clinical severity scores or lung cellular response. CONCLUSION: In this murine model of severe RSV infection TIP did not affect pulmonary edema nor course of disease.

Ribavirin and cysteinyl leukotriene-1 receptor blockade as treatment for severe bronchiolitis.

In this work we have evaluated the clinical responses of pneumovirus-infected mice to combination therapy with the antiviral agent, ribavirin, and the CysLT1 cysteinyl leukotriene receptor antagonist, montelukast. We observed substantial virus replication in our mouse model of pneumovirus infection and significant accumulation of cysteinyl leukotrienes in lung tissue, the latter detected at levels that correlate directly with granulocyte recruitment to the airways. While administration of the nucleoside analog, ribavirin, reduced virus replication approximately 2,000-fold, the clinical outcomes as measured by morbidity and mortality, in response to ribavirin monotherapy were indistinguishable from those of the no-treatment controls. Similarly, montelukast therapy alone did not reduce granulocyte recruitment nor did it improve the clinical outcome. However, combined therapy with ribavirin and montelukast resulted in a significant reduction in morbidity and a substantial reduction in mortality (50% survival at t = 14 days and onward, compared to 10-20% survival in response to montelukast alone or to ribavirin alone, respectively, p < 0.01). These findings define further the independent contributions made by virus replication and by the ensuing inflammatory response to the detrimental sequelae of pneumovirus infection in vivo.