Alpha-1 Antitrypsin Therapy Modifies Neutrophil Adhesion in Patients with Obstructive Lung Disease.

Alpha-1 antitrypsin deficiency (AATD) is characterized by neutrophil-dominated inflammation resulting in emphysema. The cholesterol-rich neutrophil outer plasma membrane plays a central role in adhesion and subsequent transmigration to underlying tissues. This study aimed to investigate mechanisms of increased neutrophil adhesion in AATD and whether alpha-1 antitrypsin (AAT) augmentation therapy abrogates this effect. Plasma and blood neutrophils were donated by healthy controls (n = 20), AATD (n = 30), and AATD patients after AAT augmentation therapy (n = 6). Neutrophil membrane protein expression was investigated using liquid chromatography-tandem mass spectrometry. The effect of once-weekly intravenous AAT augmentation therapy was assessed by calcium fluorometric, µ-calpain, and cell adhesion assays. Decreased neutrophil plasma membrane cholesterol content (P = 0.03), yet increased abundance of integrin α-M (fold change 1.91), integrin α-L (fold change 3.76), and cytoskeletal adaptor proteins including talin-1 (fold change 4.04) were detected on AATD neutrophil plasma membrane fractions. The described inflammatory induced structural changes were a result of a more than twofold increased cytosolic calcium concentration (P = 0.02), leading to significant calcium-dependent µ-calpain activity (3.5-fold change; P = 0.005), resulting in proteolysis of the membrane cholesterol trafficking protein caveolin-1. Treatment of AAT-deficient individuals with AAT augmentation therapy resulted in increased caveolin-1 and membrane cholesterol content (111.8 ± 15.5 vs. 64.18 ± 7.8 µg/2 × 107 cells before and after treatment, respectively; P = 0.02), with concurrent decreased neutrophil integrin expression and adhesion. Results demonstrate an auxiliary benefit of AAT augmentation therapy, evident by a decrease in circulating inflammation and controlled neutrophil adhesion.

Neutrophil Membrane Cholesterol Content is a Key Factor in Cystic Fibrosis Lung Disease.

BACKGROUND: Identification of mechanisms promoting neutrophil trafficking to the lungs of patients with cystic fibrosis (CF) is a challenge for next generation therapeutics. Cholesterol, a structural component of neutrophil plasma membranes influences cell adhesion, a key step in transmigration. The effect of chronic inflammation on neutrophil membrane cholesterol content in patients with CF (PWCF) remains unclear. To address this we examined neutrophils of PWCF to evaluate the cause and consequence of altered membrane cholesterol and identified the effects of lung transplantation and ion channel potentiator therapy on the cellular mechanisms responsible for perturbed membrane cholesterol and increased cell adhesion. METHODOLOGY: PWCF homozygous for the ΔF508 mutation or heterozygous for the G551D mutation were recruited (n=48). Membrane protein expression was investigated by mass spectrometry. The effect of lung transplantation or ivacaftor therapy was assessed by ELISAs, and calcium fluorometric and µ-calpain assays. FINDINGS: Membranes of CF neutrophils contain less cholesterol, yet increased integrin CD11b expression, and respond to inflammatory induced endoplasmic reticulum (ER) stress by activating µ-calpain. In vivo and in vitro, increased µ-calpain activity resulted in proteolysis of the membrane cholesterol trafficking protein caveolin-1. The critical role of caveolin-1 for adequate membrane cholesterol content was confirmed in caveolin-1 knock-out mice. Lung transplant therapy or treatment of PWCF with ivacaftor, reduced levels of circulating inflammatory mediators and actuated increased caveolin-1 and membrane cholesterol, with concurrent normalized neutrophil adhesion. INTERPRETATION: Results demonstrate an auxiliary benefit of lung transplant and potentiator therapy, evident by a reduction in circulating inflammation and controlled neutrophil adhesion.