manner; no peptide, 2468.56mg/ml, 5 mg, 2181.7626.2 ng/ml (p¼0.006), 10 mg, 15766164.7 ng/ml (p¼0.001), and 20 and 30 mg completely prevented polymer formation in inclusions (p#0.001). Unrelated peptides had no effect. Elastase activity of AT in the supernatant from Z-AT cells was significantly reduced compared to M-AT cells; p#0.001, in keeping with the secretory defect due to retention of Z-AT in inclusion bodies. The elastase activity (and AT concentration) in the supernatant from Z-AT cells was restored by 20 mg 4M, O.D. 405 nm, Z-AT vs Z-AT + 20 mg 4M, 0.12960.009 vs 0.78860.054 respectively, (p#0.001), where a higher O.D. represents higher elastase activity. Functional activity of secreted AT following treatment with 4M was confirmed by its ability to form an SDS-stable complex with elastase as shown by immunoblot. RT-PCR showed that the ER accumulation of Z-AT induced cell stress; NF-kB activation, expression of protein kinase RNA (PKR)-like ER kinase (PERK), and IL-6 (100.4616 pg/ml) and IL-8 (2592.56575 pg/ ml), all of which could be abrogated effectively by 20 mg 4M (IL-6, 45.8628 pg/ml, p#0.001 and IL-8, 184.3629 pg/ml, p¼0.014). These findings are the first evidence that inhibitors of Z-AT polymerisation targeting s4A can prevent its cellular accumulation and deleterious effects. Importantly, this strategy was also able to improve plasma concentration of Z-AT. Acute exacerbations of COPD are the commonest cause of acute medical admissions in the UK and w50% are associated with bacterial infection. Alveolar macrophages (AM) normally clear inhaled bacteria but defective phagocytosis may lead to chronic colonisation and increased exacerbations. Monocyte-derived macrophages (MDM), used to model AM, were obtained from COPD, smoking and healthy subjects. MDM phagocytosis of fluorescently-labelled polystyrene beads, Haemophilus influenzae (HI) or Streptococcus pneumoniae (SP) was measured by fluorimetry. MDM derived from all subjects showed equivalent ability to phagocytose beads, however, COPD and smoker MDM showed significantly reduced phagocytosis of bacteria. Phagocytosis of HI was reduced by 28% and 48% in COPD and smoker MDM respectively, compared to healthy, while SP phagocytosis was reduced by 32% and 52% in COPD and smoker MDM respectively, compared to healthy (Abstract S52 table 1). Having identified defective bacterial phagocytosis in smoker and COPD MDM, the next step was to elucidate the underlying mechanism. Cytoskeletal rearrangement was investigated, with COPD MDM showing significantly reduced phagocytosis of bacteria in comparison to healthy after pre-incubation with nocodazole (microtubule disruptor). Microtubules are involved in membrane trafficking of the phagolysosome and microtubule stability is necessary for effective phagocytosis. Tubulin is acetylated to form stable microtubules and is deacetylated by HDAC6 and Sirt2. COPD MDM showed reduced levels of acetylated tubulin compared to healthy MDM. Pre-incubation with epothilone B (10 nm) a microtubule stabiliser, improved HI phagocytos...
