State-of-the-Art Review on Inhalable Lipid and Polymer Nanocarriers: Design and Development Perspectives.

Nowadays, the interest in research towards the local administration of drugs via the inhalation route is growing as it enables the direct targeting of the lung tissue, at the same time reducing systemic side effects. This is of great significance in the era of nucleic acid therapeutics and personalized medicine for the local treatment of severe lung diseases. However, the success of any inhalation therapy is driven by a delicate interplay of factors, such as the physiochemical profile of the payload, formulation, inhalation device, aerodynamic properties, and interaction with the lung fluids. The development of drug delivery systems tailored to the needs of this administration route is central to its success and to revolutionize the treatment of respiratory diseases. With this review, we aim to provide an up-to-date overview of advances in the development of nanoparticulate carriers for drug delivery to the lung tissue, with special regard concerning lipid and polymer-based nanocarriers (NCs). Starting from the biological barriers that the anatomical structure of the lung imposes, and that need to be overcome, the current strategies to achieve efficient lung delivery and the best support for the success of NCs for inhalation are highlighted.

Possible role of HE4 level elevation in the pathogenesis of TH2-high asthma.

OBJECTIVES: As a heterogeneous disease, asthma is characterized by airway hyperresponsiveness, airway inflammation, and airway mucus hypersecretion. According to the pathological changes, symptoms, preventive and treatment methods, asthma can be divided into TH2-high and TH2-low asthma. We show that the expression of the tumor biomarker human epididymis protein 4 (HE4) was significantly increased in TH2-high asthma group, while there was no marked difference in its expression between TH2-low asthma and healthy control groups. HE4 levels were significantly increased in plasma, induced sputum, and alveolar lavage fluid (BALF) samples and airway epithelial cells from TH2-high asthma group, showing that HE4 has a possible role in the pathogenesis of TH2-high asthma. METHODS: Using RT-qPCR, ELISA, Western blot (WB), and immunohistochemistry, we assessed differences in HE4 expression in plasma, induced sputum, BALF, and airway epithelial cells among patients with the TH2-related asthma subtypes and healthy controls. To explore the role of HE4 in TH2-high asthma, we conducted a correlation analysis between HE4 levels in plasma, induced sputum, BALF, and airway epithelial cells and multiple indicators of airway eosinophilic inflammation, airway mucus secretion, and airway remodeling. CONCLUSION: We found for the first time that HE4 was differentially expressed in the TH2-related asthma subtypes. In TH2-high asthma, HE4 levels were markedly elevated in airway epithelial cells, plasma, induced sputum, and BALF. HE4 may play an important role in various pathogenic mechanisms of asthma, such as airway eosinophilic inflammation, airway mucus secretion, and airway remodeling. HE4 in plasma may be a clinically biomarker for differentiating TH2-related asthma subtypes.

Pathogenesis of Airway Mucus Hypersecretion in Chronic Obstructive Pulmonary Disease and Intervention of Traditional Chinese Medicine： A Review / 中国实验方剂学杂志

Chronic obstructive pulmonary disease （COPD） is one of the most common chronic diseases of the respiratory system in the clinic. The disease has a long course and is difficult to cure， which seriously threatens human health. Airway mucus hypersecretion （AMH） is an independent risk factor for COPD and has a significant impact on the development and prognosis of the disease. The review finds that the abnormal proliferation of goblet cells and the excessive secretion of mucin are the direct causes of AMH. The pathogenesis of AMH may be closely related to the inhalation of heterogeneous particles， airway inflammation， the imbalance of mucin/water salt ratio， and the regulation of related signaling pathways. Traditional Chinese medicine （TCM） believes that AMH of COPD belongs to the category of lung distension with phlegm-fluid retention syndrome， and the disease is mainly treated from phlegm on the basis of lung distension. This article summarizes the relevant research in the field of TCM in recent years and finds that the single TCM that effectively intervened AMH of COPD is mainly phlegm-resolving TCM， and the main active ingredients of TCM are flavonoids， terpenoids， phenols， and alkaloids. The main TCM compounds are mainly designed to remove heat-phlegm， warmly resolve cold-phlegm， dry dampness to eliminate phlegm， invigorate Qi， promote blood circulation and dispel phlegm， and invigorate lung， spleen， and kidney. Its mechanism of action may be direct inhibition or indirect inhibition of airway epithelial goblet cell metaplasia and mucin expression by inhibiting airway inflammation， regulating aquaporins to correct the imbalance of mucin/water salt ratio， and regulating signaling pathways， so as to reduce mucus oversecretion in COPD. However， there are still some problems. For example， the research mainly focuses on TCM compounds instead of the single TCM or its effective components. The research on the mechanism of action is not thorough enough， and the research results are not interoperable. The clinical transformation rate of basic research is insufficient. This article systematically reviews the research status of AMH in the treatment of COPD with TCM and puts forward some thoughts on the existing problems， so as to provide a reference for clinical rational medication and in-depth research.

Value of biotargeted drugs in airway mucus therapy of asthma / 中国临床药理学与治疗学

Airway mucus plug is a common phenotype in asthma that increases the risk of acute asthma attacks by causing aggravation of airflow obstruction. Given its important role in asthma, treatment targeting airway mucus plugs may be a strategy to control asthma progression and prevent fatal asthma exacerbations. Previous studies have shown that acidosophils and T2 type inflammation are related with the formation of mucus plugs, and biotargeted drugs targeting the above pathways may be effective in the treatment of airway mucus plugs.

Bei Mu Gua Lou San facilitates mucus expectoration by increasing surface area and hydration levels of airway mucus in an air-liquid-interface cell culture model of the respiratory epithelium.

BACKGROUND: Bei Mu Gua Lou San (BMGLS) is an ancient formulation known for its moisturizing and expectorant properties, but the underlying mechanisms remain unknown. We investigated concentration-dependent effects of BMGLS on its rehydrating and mucus-modulating properties using an air-liquid-interface (ALI) cell culture model of the Calu-3 human bronchial epithelial cell line and primary normal human bronchial epithelial cells (NHBE), and specifically focused on quantity and composition of the two major mucosal proteins MUC5AC and MUC5B. METHODS: ALI cultures were treated with BMGLS at different concentrations over three weeks and evaluated by means of histology, immunostaining and electron microscopy. MUC5AC and MUC5B mRNA levels were assessed and quantified on protein level using an automated image-based approach. Additionally, expression levels of the major mucus-stimulating enzyme 15-lipoxygenase (ALOX15) were evaluated. RESULTS: BMGLS induced concentration-dependent morphological changes in NHBE but not Calu-3 ALI cultures that resulted in increased surface area via the formation of herein termed intra-epithelial structures (IES). While cellular rates of proliferation, apoptosis or degeneration remained unaffected, BMGLS caused swelling of mucosal granules, increased the area of secreted mucus, decreased muco-glycoprotein density, and dispensed MUC5AC. Additionally, BMGLS reduced expression levels of MUC5AC, MUC5B and the mucus-stimulating enzyme 15-lipoxygenase (ALOX15). CONCLUSIONS: Our studies suggest that BMGLS rehydrates airway mucus while stimulating mucus secretion by increasing surface areas and regulating goblet cell differentiation through modulating major mucus-stimulating pathways.

Nanoparticle-Mediated Strategies for Enhanced Drug Penetration and Retention in the Airway Mucosa.

Airway mucus is a complex viscoelastic gel composed mainly of water, glycoproteins, lipids, enzymes, minerals, etc. Among them, glycoproteins are the main factors determining mucus's gel-like rheology. Airway mucus forms a protective barrier by secreting mucin, which represents a barrier for absorption, especially for more lipophilic drugs. It rapidly removes drugs from the airway through the physiological mucus clearance mechanism so drugs cannot remain in the lungs or reach the airway epithelial tissue for a long time. Significant progress has been made in enhancing drug lung deposition recently, but strategies are still needed to help drugs break through the lung mucosal barrier. Based on the physiopathological mechanisms of airway mucus, this paper reviews and summarizes strategies to enhance drug penetration and retention in the airway mucosa mediated by nano-delivery systems, including mucosal permeation systems, mucosal adhesion systems, and enzyme-modified delivery systems. On this basis, the potential and challenges of nano-delivery systems for improving airway mucus clearance are revealed. New ideas and approaches are provided for designing novel nano-delivery systems that effectively improve drug retention and penetration in the airway mucus layer.

Extracellular vesicles enhance pulmonary transduction of stably associated adeno-associated virus following intratracheal administration.

Adeno-associated virus (AAV) vector has shown multiple clinical breakthroughs, but its clinical implementation in inhaled gene therapy remains elusive due to difficulty in transducing lung airway cells. We demonstrate here AAV serotype 6 (AAV6) associated with extracellular vesicles (EVs) and secreted from vector-producing HEK-293 cells during vector preparation (EVAAV6) as a safe and highly efficacious gene delivery platform for inhaled gene therapy applications. Specifically, we discovered that EVAAV6 provided markedly enhanced reporter transgene expression in mucus-covered air-liquid interface (ALI) cultures of primary human bronchial and nasal epithelial cells as well as in mouse lung airways compared to standard preparations of AAV6 alone. Of note, AAV6 has been previously shown to outperform other clinically tested AAV serotypes, including those approved by the FDA for treating non-lung diseases, in transducing ALI cultures of primary human airway cells. We provide compelling experimental evidence that the superior performance of EVAAV6 is attributed to the ability of EV to facilitate mucus penetration and cellular entry/transduction of AAV6. The tight and stable linkage between AAV6 and EVs appears essential to exploit the benefits of EVs given that a physical mixture of individually prepared EVs and AAV6 failed to mediate EV-AAV6 interactions or to enhance gene transfer efficacy.

BMAL1 regulates MUC1 overexpression in ovalbumin-induced asthma.

Asthma often presents with a daily rhythm; however, the underlying mechanisms remain unclear. Circadian rhythm genes have been proposed to regulate inflammation and mucin expression. Here, ovalbumin (OVA)-induced mice and serum shock human bronchial epidermal cells (16HBE) were used in in vivo and in vitro models, respectively. We constructed a brain and muscle ARNT-like 1 (BMAL1) knockdown 16HBE cell line to analyze the effects of rhythmic fluctuations on mucin expression. Serum immunoglobulin E (IgE) and circadian rhythm genes in asthmatic mice showed rhythmic fluctuation amplitude. Mucin (MUC) 1 and MUC5AC expression was increased in the lung tissue of the asthmatic mice. MUC1 expression was negatively correlated with that of the circadian rhythm genes, particularly BMAL1 (r = -0.546, P = 0.006). There was also a negative correlation between BMAL1 and MUC1 expression (r = -0.507, P = 0.002) in the serum shock 16HBE cells. BMAL1 knockdown negated the rhythmic fluctuation amplitude of MUC1 expression and upregulated MUC1 expression in the 16HBE cells. These results indicate that the key circadian rhythm gene, BMAL1, causes periodic changes in airway MUC1 expression in OVA-induced asthmatic mice. Targeting BMAL1 to regulate periodic changes in MUC1 expression may, therefore, improve asthma treatments.

Proteome of airway surface liquid and mucus in newborn wildtype and cystic fibrosis piglets.

BACKGROUND: The respiratory tract is protected from inhaled particles and microbes by mucociliary clearance, mediated by the mucus and the cilia creating a flow to move the mucus cephalad. Submucosal glands secrete linear MUC5B mucin polymers and because they pass through the gland duct before reaching the airway surface, bundled strands of 1000-5000 parallel molecules exit the glands. In contrast, the surface goblet cells secrete both MUC5AC and MUC5B. METHODS: We used mass-spectrometry based proteomic analysis of unstimulated and carbachol stimulated newborn wild-type (WT) and cystic fibrosis transmembrane conductance regulator (CFTR) null (CF) piglet airways to study proteins in the airway surface liquid and mucus, to investigate if levels of MUC5AC and MUC5B were affected by carbachol stimulation and whether the proteins clustered according to function. RESULTS: Proteins in the first four extracted fractions clustered together and the fifth fraction contained the mucus cluster, mucins and other proteins known to associate with mucins, whereas the traditional airway surface liquid proteins clustered to fraction 1-4 and were absent from the mucus fraction. Carbachol stimulation resulted in increased MUC5AC and MUC5B. CONCLUSIONS: These results indicate a distinct separation between proteins in the washable surface liquid and the mucus fraction. In fractions 1-4 from newborn CF piglets an additional cluster containing acute phase proteins was observed, suggesting an early inflammatory response in CF piglets. Alternatively, increased levels of these proteins could indicate altered lung development in the CF piglets. This observation suggests that CF airway disease is present at birth and thus, treatment should commence directly after diagnosis.

Effective-compound combination of Bufei Yishen formula III combined with ER suppress airway mucus hypersecretion in COPD rats: via EGFR/MAPK signaling.

BACKGROUND: The aim of this study was to explore the combined efficacy ofeffective-component compatibility of Bufei Yishen formula III (ECC-BYF III) and exercise rehabilitation (ER) in inhibiting airway mucus hypersecretion in a chronic obstructive pulmonary disease (COPD) rat model. METHODS: A total of 48 SD rats were divided into control, model, acetylcysteine (NAC), ECC-BYF III, ER, and ECC-BYF III + ER groups (n=8). COPD rats were exposed to cigarette smoke and bacteria for 8 weeks and administered various treatments over the next eight weeks. Rats were euthanized at week 17 after pulmonary function testing. Pathological examination of lung tissues was performed. IL-6 and IL-10 levels were measured in bronchoalveolar lavage fluid (BALF) and protein levels of MUC5AC, MUC5B, AQP-5, EGFR, ERK, JNK, and p38 were measured in lung tissues. RESULTS: Improved pulmonary function and pathological changes were observed in ECC-BYF III, ECC-BYF III + ER, and NAC groups. ECC-BYF III and ECC-BYF III + ER had greater mean alveolar number (MAN) compared with NAC. Lung inflammation and goblet cell generation were reduced and MUC5AC, MUC5B and AQP-5 expressions were lower in all treatment groups. ECC-BYF III has more significant effect on MUC5AC than ER and NAC. ECC-BYFIII + ER had a greater effect on suppressing IL-6 in BALF compared with other treatments. ECC-BYFIII, ER, and ECC-BYF III + ER reduced EGFR, ERK, JNK, and p38 phosphorylated protein levels. ECC-BYFIII+ER had a greater effect on p-JNK and p-p38 than ECC-BYFIII and NAC. CONCLUSION: ECC-BYF III, ER, and ECC-BYF III + ER have efficacy in inhibiting airway mucus hypersecretion with improved pulmonary function and pathological changes. ECC-BYF III had a greater effect in improving MAN and MUC5AC in lung tissue. ECC-BYF III+ER had a greater effect in alleviating pulmonary pathology and inflammation. These effects may be mediated by inhibition of the EGFR/MAPK pathway.

Influence of airway mucus plugs on patients with bronchial asthma and its management / 中华健康管理学杂志

Objective:To explore the influence of airway mucus plugs on patients with bronchial asthma and its management.Methods:In this cross-sectional study, from January 2020 to June 2022, 100 patients who were diagnosed with asthma and underwent chest CT examination in the Outpatient Department of Peking University Third Hospital were included. The chest CT results and medical history, pulmonary function, fractional exhaled nitric oxide (FeNO), blood routine, total allergen IgE, Aspergillus fumigatus M3 allergen-specific IgE antibody test results were collected. According to the results of chest CT, the asthma patients were divided into group with mucus plugs and those without mucus plugs. Distribution of airway mucus plugs and the mucus plug scores based on lung segments were calculated. The relationships of mucus plugs with medical history, pulmonary function [These included before and after the bronchodilation test, forced vital capacity percent of predicted value (FVC%pred), forced expiratory volume in one second percent of predicted value (FEV 1%pred), FEV 1/FVC, peak expiratory flow percent of predicted value (PEF%pred), maximal mid-expiratory flow percent of predicted value (MMEF%pred), maximal expiratory flow at 25%, 50%, 75% of vital capacity remaining percent of predicted value (MEF 25%pred, MEF 50%pred, MEF 75%pred)], FeNO, and peripheral blood eosinophil (Eos) counts were analyzed. The logistic regression model was used to analyze whether airway mucus plug was a risk factor for asthma exacerbation, and the corresponding intervention strategies were explored. Results:Among the 100 patients with asthma, 24 cases were in the mucus plug group and 76 cases were in the non-mucus plug group. The distribution of mucus plug was more common in the lower lungs (30.53% and 9.16% in the lower and upper lobe of left lung, respectively; 29.01%, 14.50% and 16.80% in the lower, middle and upper lobe of right lung, respectively). The average score of mucus plug was (4.42±3.12) points. The body mass index (BMI), the number of visits to a doctor due to asthma exacerbations, FeNO, peripheral blood Eos counts in the mucus plug group were higher than those in the non-mucus plug group [(24.95±4.34) vs (23.22±2.91) kg/m 2, 0(0, 1) vs 0(0, 0), 97(37, 169) vs 31(18, 59) ppb (1 ppb=1×10 -9), 0.41(0.15, 0.70) vs 0.18(0.09, 0.37)×10 9/L](all P<0.05), and FVC%pred, FEV 1%pred, FEV 1/FVC, PEF%pred, MEF 50%pred, MEF 25%pred, MMEF%pred, MEF 75%pred were lower than those in the non-mucus plug group [(87.49±19.32)% vs (97.34±14.24)%, (76.49±19.58)% vs (91.07±18.33)%, (72.44±10.91)% vs (79.48±8.13)%, (82.36±24.46)% vs (93.83±18.27)%, (53.03±24.81)% vs (75.75±27.15)%, (46.47±22.92)% vs (64.09±25.90)%, (50.28±23.73)% vs (74.53±26.80)%, (71.30±27.55)% vs (89.92±26.82)%] (all P<0.05). In the group with mucus plug, the airway mucus plug score was positively correlated with the patient′s body weight and the number of peripheral blood Eos counts at enrollment ( r=0.413, 0.478; all P<0.05), and negatively correlated with FVC%pred and FEV 1%pred ( r=-0.576, -0.465; all P<0.05). Logistic regression analysis showed that airway mucus plug score was a risk factor for acute asthma attack ( OR=1.269, 95% CI: 1.031-1.562; P=0.024). Conclusions:Asthma patients have a high incidence of airway mucus plug, which is related to the level of Eos inflammation and body size. Airway mucus plugs can promote airflow obstruction and acute exacerbation of asthma. In clinical practice, appropriate asthma management policies can be formulated for airway mucus plugs to delay the progression of asthma and reduce the number of acute attacks.

Exploration on the TCM pathogenesis of hypersecretion of airway mucus in children base on the theory of water-liquid metabolism and triple energizer membranous system / 国际中医中药杂志

The pathological position of hypersecretion of airway mucus is in airway mucosa. Modern TCM theory believes that the airway mucosa belongs to the triple energizer membranous system of TCM, and the airway mucus is a part of TCM water-liquid system. Based on the TCM physiological characteristics of children, this article explored the pathogenesis of airway mucus hypersecretion in children, and believed that the airway mucus hypersecretion was the result of the disorder of water-liquid metabolism in TCM, which was closely related to the function of qi transformation of triple energizer membranous system. Failure of qi transformation in triple energizer is the core pathogenesis of hypersecretion of airway mucus in children. The deficiency of yang qi in children leads to the disorganization of vaporization in triple energizer, which leads to the insufficiency of movement and transformation function, the failure of water and qi in water, the stop of water and water accumulation, the abnormity of water and grain. The disorder of water-liquid metabolism leads to the occurrence of high airway mucus secretion in children.

Interleukin-6 neutralizing antibody attenuates the hypersecretion of airway mucus via inducing the nuclear translocation of Nrf2 in chronic obstructive pulmonary disease.

Airway mucus hypersecretion is a vital pathophysiologic feature in chronic obstructive pulmonary disease (COPD) patients in which airflow limitation result, and it is key to strategizing in the management of COPD. To investigate the mechanisms underlying the action of interleukin-6 neutralizing antibody (IL-6 Ab) in attenuating airway mucus hypersecretion in COPD, human and mouse primary bronchial epithelial cells from COPD patients and mice were isolated, human organoid model of trachea was established and all treated with IL-6 and/or IL-6 Ab. The differential expression of Muc5ac and Nrf2 were determined in pDHBE compared to pNHBE cells via high-throughput sequencing of transcriptome. The serum concentration of Muc5ac was significantly elevated and positively correlated with IL-6 in COPD patients using ELISA, and the excessive mucus secretion was observed in the trachea of COPD patients using HE, AB-PAS and IHC staining. The levels of Muc5ac were significantly elevated in the IL-6-treated group, and diminished with IL-6 Ab treatment, both in vitro and in the organoid model using qRT-PCR, WB and IF. The expression levels of protein Muc5ac were significantly reduced in cells transfected with the IL-6 small interfering RNA (siRNA-IL-6), which was in contrast to the levels of protein Nrf2, and the protective effects of IL-6 Ab were inhibited in cells transfected with Nrf2 short hairpin RNA (shRNA-Nrf2). IL-6 Ab significantly attenuated hypersecretion of airway mucus by inducing nuclear translocation of Nrf2 in COPD. These findings indicated that IL-6 Ab may constitute a novel therapeutic agent for IL-6-induced airway mucus hypersecretion by improving airflow limitation in COPD patients.

Mucoadhesive, Antibacterial, and Reductive Nanogels as a Mucolytic Agent for Efficient Nebulized Therapy to Combat Allergic Asthma.

Asthma is an intractable disease involving the infiltration of inflammatory cells and mucus plugging. Despite small molecular mucolytics having the ability to break the disulfide bonds of mucins, offering a potential way to overcome the airflow obstruction and airway infection, these mucolytics have limited therapeutic effects in vivo. Therefore, in this work, arginine-grafted chitosan (CS-Arg) is ionically cross-linked with tris(2-carboxyethyl)phosphine (TCEP) to obtain nanogels as a mucolytic agent. The positively charged nanogels effectively inhibit the formation of large aggregates of mucin in vitro, probably thanks to the formation of an ionic interaction between CS-Arg and mucin, as well as the breakage of disulfide bonds in mucin by the reductive TCEP. Moreover, the nanogels show good cytocompatibility at concentrations up to 5 mg mL-1, exhibiting effective inhibitory effects against the proliferation of both Staphylococcus aureus and Escherichia coli at 5 mg mL-1. After the administration of the nanogels by nebulization into a Balb/c mouse model with allergic asthma, they can efficiently reduce the mucus obstruction in bronchioles and alveoli and relieve airway inflammation. Therefore, these CS-Arg/TCEP nanogels potentially represent a promising mucolytic agent for the efficient treatment of allergic asthma and other muco-obstructive diseases.

Mucus and mucus flake composition and abundance reflect inflammatory and infection status in cystic fibrosis.

BACKGROUND: Mucus hyperconcentration in cystic fibrosis (CF) lung disease is marked by increases in both mucin and DNA concentration. Additionally, it has been shown that half of the mucins present in bronchial alveolar lavage fluid (BALF) from preschool-aged CF patients are present in as non-swellable mucus flakes. This motivates us to examine the utility of mucus flakes, as well as mucin and DNA concentrations in BALF as markers of infection and inflammation in CF airway disease. METHODS: In this study, we examined the mucin and DNA concentration, as well as mucus flake abundance, composition, and biophysical properties in BALF from three groups; healthy adult controls, and two CF cohorts, one preschool aged and the other school aged. BALFs were characterized via refractometry, PicoGreen, immunofluorescence microscopy, particle tracking microrheology, and fluorescence image tiling. RESULTS: Mucin and DNA BALF concentrations increased progressively from healthy young adult controls to preschool-aged people and school-aged people with CF. Notably, mucin concentrations were increased in bronchoalveolar lavage fluid (BALF) from preschool-aged patients with CF prior to decreased pulmonary function. Infrequent small mucus flakes were identified in normal subjects. A progressive increase in the abundance of mucus flakes in preschool and school-aged CF patients was observed. Compositionally, MUC5B dominated flakes from normal subjects, whereas an increase in MUC5AC was observed in people with CF, reflected in a reduced flaked MUC5B/MUC5AC mucin ratio. CONCLUSION: These findings suggest mucus composition and flake properties are useful markers of inflammatory and infection-based changes in CF airways.

Proteomic profiling reveals a distinctive molecular signature for critically ill COVID-19 patients compared with asthma and chronic obstructive pulmonary disease.

OBJECTIVE: The mortality rate for critically ill COVID-19 cases was more than 80%. Nonetheless, research about the effect of common respiratory diseases on critically ill COVID-19 expression and outcomes is scarce. DESIGN: We performed proteomic analyses on airway mucus obtained by bronchoscopy from patients with severe COVID-19, or induced sputum from patients with chronic obstructive pulmonary disease (COPD), asthma, and healthy controls. RESULTS: Of the total identified and quantified proteins, 445 differentially expressed proteins (DEPs) were found in different comparison groups. In comparison with COPD, asthma, and controls, 11 proteins were uniquely present in COVID-19 patients. Apart from DEPs associated with COPD versus controls and asthma versus controls, there was a total of 59 DEPs specific to COVID-19 patients. Finally, the findings revealed that there were 8 overlapping proteins in COVID-19 patients, including C9, FGB, FGG, PRTN3, HBB, HBA1, IGLV3-19, and COTL1. Functional analyses revealed that most of them were associated with complement and coagulation cascades, platelet activation, or iron metabolism, and anemia-related pathways. CONCLUSIONS: This study provides fundamental data for identifying COVID-19-specific proteomic changes in comparison with COPD and asthma, which may suggest molecular targets for specialized therapy.

Mucus-producing epithelial models for investigating the activity of gene delivery systems in the lung.

Inhaled transfection particles have to penetrate the mucus layer lining the airways to successfully deliver their therapeutic nucleic acid payload to target cells in the underlying epithelium. However, the in vitro models used for evaluating gene carrier efficiency often disregard this viscous defensive barrier. In this study, the two mucus-secreting cell lines NCI-H292 and Calu-3 were selected to develop a series of epithelial models displaying gradual mucus production. In NCI-H292 models, a gradual increase in the MUC5AC mucin was obtained after cell exposure to inducers. In Calu-3 models, MUC5AC production increased as a function of culture duration (3, 7, 14 days) at the air-liquid interface (ALI). Six DOPC-derived cationic lipids were designed and their pDNA delivery activity was evaluated to validate these cellular models. The strongest impairment of the lipid delivery activity was observed in the Calu-3 14-d ALI model. The MUC5AC production in this model was the greatest and the mucus layer was 20 µm thick. The mucus exhibited a solid viscoelastic behavior, and represented a major hindrance to lipoplex diffusion. The Calu-3 14-d ALI model will be highly useful for accurate evaluation of gene carriers intended for airway administration and characterization of their interactions with the mucus.

Effect of Yifei Huatan Decoction on Relieving Airway Hyperviscosity in Asthmatic Rats with Spleen Deficiency Syndrome and Its Mechanism / 中国实验方剂学杂志

ObjectiveTo explore the effect of Yifei Huatan decoction on relieving airway hyperviscosity in asthmatic rats with spleen deficiency syndrome and its mechanism. MethodFifty-five SPF level SD rats at 8-9 week of age were used to induce asthma with spleen deficiency syndrome by animal modeling of traditional Chinese medicine combined with asthma of western medicine. After successful modeling， the rats were divided into model group， dexamethasone group， low， medium， and high-dose Yifei Huatan decoction groups by random number table method， and 11 clean SD rats at 8-9 week of age were recorded as a normal group. Rats in the dexamethasone group were given 0.087 5 mg kg-1 dexamethasone acetate by gavage. Rats in the low， medium， and high-dose Yifei Huatan decoction groups were given 0.8， 1.6， 3.2 g kg-1 Yifei Huatan decoction liquid extract by gavage， respectively. Rats in the model group and the normal group were given 10 mL kg-1 distilled water. The medicine were given once per day for 8 w， and the general situation of each group was observed. The levels of interleukin-4 （IL-4）， IL-13， and interferon-γ （IFN-γ） in bronchoalveolar lavage fluid （BALF） were determined by enzyme-linked immunosorbent assay （ELISA）. The pathological changes in lung tissues of rats were observed by hematoxylin-eosin （HE） staining. Alcian blue-periodic acid Schiff （AB-PAS） staining was used to detect the hyperplasia of airway goblet cells and mucus secretion in rats. The mRNA expressions of transforming growth factor-β1 （TGF-β1）， Smad2， Smad3， mucin 5AC （MUC5AC）， and mucin 5B （MUC5B） in the lung tissues of rats were detected by real-time quantitative polymerase chain reaction （Real-time PCR）. The protein expressions of TGF-β1， Smad2， Smad3， MUC5AC， and MUC5B in the lung tissues of rats were detected by Western blot. ResultAs compared with the normal group， rats in the model group showed the symptoms of spleen deficiency syndrome， such as decreased body weight， muscle emaciation， decreased food intake， increased water intake， increased anal temperature， tiredness， and decreased swimming endurance， accompanied by dyspnea symptoms such as wheezing and nodding. As compared with the normal group， IL-4 and IL-13 levels in the BALF of the model group were significantly increased （P<0.01）， while the IFN-γ level was significantly decreased （P<0.01）. In the model group， a large number of inflammatory cells were observed in the mucosa and submucosa of the airway， and the smooth muscle of the trachea was significantly thickened. The hyperplasia， deformation， and exfoliation of various epithelial cells were observed in the mucosa， and the pathological scores of lung tissue increased significantly （P<0.01） in the model group. A large number of goblet cells were observed in the airway with the formation of plenty of mucous thrombus in the model group， and the positive relative staining area of airway， and mRNA and protein expressions of TGF-β1， Smad2， Smad3， MUC5AC， and MUC5B were significantly increased （P<0.01）. As compared with the model group， IL-4 and IL-13 levels in BALF of the dexamethasone group and the Yifei Huatan decoction groups decreased， while the IFN-γ level increased. The inflammatory cell infiltration in airway mucosa and submucosa， the thickening of tracheal smooth muscle， the hyperplasia， deformation， and exfoliation of epithelial cells in mucosa were gradually decreased， and the pathological scores of lung tissues decreased significantly （P<0.01） in the dexamethasone group and the Yifei Huatan decoction groups. Goblet cell proliferation gradually decreased， and the positive relative staining area of airway， and mRNA and protein relative expressions of TGF-β1， Smad2， Smad3， MUC5AC， and MUC5B decreased with statistically significant difference （P<0.05， P<0.01）. There was no significant difference in the above indexes in the dexamethasone group and the Yifei Huatan decoction low-dose group. The above indexes were dose-dependent in the low， medium， and high-dose Yifei Huatan decoction groups. ConclusionYifei Huatan decoction reduces airway hyperviscosity in asthmatic rats with spleen deficiency syndrome， which may be related to the inhibition of TGF-β1， Smad2， Smad3， MUC5AC， and MUC5B expressions， down-regulation of IL-4 and IL-13 levels， and up-regulation of IFN-γ level.

Effect of Bufei Yishen Prescription on Airway Mucus Hypersecretion and Notch3 and HES1 Expression in Lung Tissues of Rats with Chronic Obstructive Pulmonary Disease / 中国实验方剂学杂志

ObjectiveTo observe the effects of Bufei Yishen prescription on airway mucus hypersecretion and Notch signaling pathway related protein Notch3 and enhancer of split homologue 1 （HES1） in rats with chronic obstructive pulmonary disease （COPD） and to explore its action mechanism. MethodForty-eight SD rats were randomly divided into the control group， model group， Bufei Yishen prescription group， and aminophylline （APL） group，with 12 rats in each group. The stable COPD rat model was established via cigarette smoking exposure combined with Klebsiella bacterial infection for 12 weeks， and the corresponding drugs （3.7 g·kg-1·d-1 Bufei Yishen prescription and 54 mg·kg-1·d-1 APL） were administered by gavage during the next eight weeks. After the last administration at week 20， the lung tissue was sampled for observing the pathological changes and the rat lung function was detected. The tumor necrosis factor-α （TNF-α）， interleukin-6 （IL-6）， and mucoprotein 5AC （MUC5AC） in bronchial alveolar lavage fluid and the mRNA and protein expression levels of Notch3， HES1， and MUC5AC in lung tissues were assayed. ResultCompared with the control group， the model group exhibited significantly weakened pulmonary function （P<0.05，P<0.01）， reduced average number of alveoli （P<0.01）， elevated mean linear intercept （P<0.01）， and up-regulated TNF-α， IL-6， and MUC5AC in bronchial alveolar lavage fluid and Notch3， HES1， and MUC5AC mRNA and protein expression in lung tissue （P<0.05，P<0.01）. Compared with the model group， Bufei Yishen prescription and APL remarkably enhanced pulmonary function， alleviated its pathological injury （P<0.05，P<0.01）， and down-regulated TNF-α， IL-6， and MUC5AC in bronchial alveolar lavage fluid and the mRNA and protein expression levels of Notch3， HES1， and MUC5AC in lung tissues （P<0.05，P<0.01）. ConclusionThe mechanism of Bufei Yishen prescription in inhibiting airway mucus hypersecretion of COPD rats was related to its regulation of Notch3 and HES1.

Apparent Yield Stress of Sputum as a Relevant Biomarker in Cystic Fibrosis.

The mucus obstructing the airways of Cystic Fibrosis (CF) patients is a yield stress fluid. Linear and non-linear rheological analyses of CF sputa can provide relevant biophysical markers, which could be used for the management of this disease. Sputa were collected from CF patients either without any induction or following an aerosol treatment with the recombinant human DNAse (rhDNAse, Pulmozyme®). Several sample preparations were considered and multiple measurements were performed in order to assess both the repeatability and the robustness of the rheological measurements. The linear and non-linear rheological properties of all CF sputa were characterized. While no correlation between oscillatory shear linear viscoelastic properties and clinical data was observed, the steady shear flow data showed that the apparent yield stress of sputum from CF patients previously treated with rhDNAse was approximately one decade lower than that of non-treated CF patients. Similar results were obtained with sputa from non-induced CF patients subjected ex vivo to a Pulmozyme® aerosol treatment. The results demonstrate that the apparent yield stress of patient sputa is a relevant predictive/prognostic biomarker in CF patients and could help in the development of new mucolytic agents.