COPD, or Chronic obstructive pulmonary disease, is an inflammation-related disease and lead to cachexia and muscle wasting. Altered nuclear factor erythroid 2-related factor 2 (Nrf2) expression is found in patients of COPD because it is involved in pulmonary protective effects. MiR-29b could be activated by Nrf2. We hypothesized that miR-29b might mediate the regulation of Nrf2 on Th1/Th2 differentiation and airway epithelial remodeling in COPD rats. SD rats were exposed to smoke for COPD induction. Expression of Nrf2 mRNA and miR-29b in lung tissues was quantified. Expression of Nrf2 and matrix metalloproteinase 2 (MMP2) were also detected by immunohistochemistry and western blot. Th1 markers and Th2 markers were measured by ELISA in peripheral blood. Flow cytometry was used to detect the Th1/Th2 ratio. miR-29b and Nrf2 was manipulated at mRNA level in A549 cells using transfection. Cellular growth and migration were measured in transfectants. In lung tissues of COPD rats, expression of Nrf2 and miR-29b decreased. MMP2, a target of miR-29b, had an opposite expression to miR-29b in peripheral blood. Levels of inflammatory factors and Th1/Th2 ratio increased. MiR-29b mediated the regulation of Nrf2 on remodeling of lung epithelial cells. Blocking Nrf2 expression in A549 cells led to the opposite expression of miR-29b and further decreased MMP2 production; meanwhile, cell growth and motility were improved. Different miR-29b levels affected MMP2 expression and cellular characteristics. The findings suggested that miR-29b was a regulator the pathological progress of COPD. It mediates the effect of Nrf2 on Th1/Th2 differentiation and on remodeling process of airway epithelial cells.
Influenza viruses exacerbate chronic obstructive pulmonary disease (COPD) with considerable morbidity and mortality. Zanamivir and oseltamivir are effective in treating influenza. However, their efficacy in relieving influenza symptoms in COPD patients remains unknown, with the lack of controlled trials in this subject. Therefore, we conducted this randomized controlled trial to investigate the clinical efficacy of both interventions in this population. Patients were allocated to two groups (80 patients each): oseltamivir (OSELTA) and zanamivir (ZANA) groups. Oseltamivir (75 mg) was orally administered twice daily for 5 days, while zanamivir (10 mg) was inhaled twice daily for 5 days. Clinical parameters including body temperature, influenza symptoms (i.e., sore throat, cough, etc.), and serial blood tests were recorded on days 1, 3, and 7. We analyzed primary (changes in body temperature) and secondary outcomes (changes in non-specific symptoms) using the pre-protocol and intention-to-treat analyses. Differences between groups were assessed using t-test. Oseltamivir and zanamivir significantly reduced body temperature on the 3rd day after treatment; however, the number of patients who reported clinical improvement in influenza-like symptoms was significantly higher in the OSELTA group compared to the ZANA group on days 3 (85 vs 68.8%, P=0.015) and 7 (97.5 vs 83.8%, P=0.003). However, no significant changes in hematological (white blood cells and its subtypes) and inflammatory (C-reactive protein) parameters were noted (P40.05). Our results suggested that oseltamivir and zanamivir are effective in reducing body temperature, while oseltamivir led to better clinical improvement regarding influenza-like symptoms in patients with COPD.
Introduction: Chronic obstructive pulmonary disease (COPD) is a progressive condition related to abnormal inflammatory responses. As an inflammatory driver, nucleotide-binding oligomerizing domain-1 (NOD1) is highly expressed in pulmonary inflammatory cells; however, the roles of NOD1 in COPD are unknown. Methods: A COPD mouse model was established by lipopolysaccharides tracheal instillation plus cigarette smoke (CS) exposure. NOD1 activation was induced by C12-iE-DAP (iE) treatment in both control and COPD mice. Inflammatory infiltration, pulmonary histological damage and gene expression were measured to evaluate the lung function of treated mice. Results: The results showed that NOD1 was up-regulated in COPD mice, which significantly exaggerated CS-induced impairment of lung function, demonstrated by increased airway resistance, functional residual capacity and pulmonary damages. Mechanistically, NOD1 activation strongly activated the TLR4/NF-κB signaling pathway and then increased inflammatory responses and promoted the secretion of inflammatory cytokines. Discussion: This study demonstrates that NOD1 is an important risk factor in the progression of COPD; therefore, targeting NOD1 in lung tissues is a potential strategy for COPD treatment.
We aimed to study the association between IL-4 gene polymorphisms and chronic obstructive pulmonary disease (COPD) of patients in Hebei Province. The blood samples of 62 COPD patients and 301 healthy subjects were collected. IL-4 gene polymorphisms were detected by PCR with sequence-specific primer typing. There were significant differences in the alleles of IL-4-33, IL-4-590 and IL-4-1098 between COPD patients and healthy subjects (P<0.05). IL-4-590/C (P<0.001, OR = 4.619, CI = 1.640-7.985) had the highest susceptibility, suggesting that people with this allele were 3.6 times more prone to COPD than those with IL-4-33-590/T allele. COPD of susceptible patients was positively associated with IL-4-33/C:
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