Extracellular acidification induces connective tissue growth factor production through proton-sensing receptor OGR1 in human airway smooth muscle cells

Asthma is characterized by airway inflammation, hyper-responsiveness and remodeling. Extracellular acidification is known to be associated with severe asthma; however, the role of extracellular acidification in airway remodeling remains elusive. In the present study, the effects of acidification on the expression of connective tissue growth factor (CTGF), a critical factor involved in the formation of extracellular matrix proteins and hence airway remodeling, were examined in human airway smooth muscle cells (ASMCs). Acidic pH alone induced a substantial production of CTGF, and enhanced transforming growth factor (TGF)-β-induced CTGF mRNA and protein expression. The extracellular acidic pH-induced effects were inhibited by knockdown of a proton-sensing ovarian cancer G-protein-coupled receptor (OGR1) with its specific small interfering RNA and by addition of the G_q/11 protein-specific inhibitor, YM-254890, or the inositol-1,4,5-trisphosphate (IP₃) receptor antagonist, 2-APB. In conclusion, extracellular acidification induces CTGF production through the OGR1/G_q/11 protein and inositol-1,4,5-trisphosphate-induced Ca²⁺ mobilization in human ASMCs.     

Interleukin-13 enhanced Ca2+ oscillations in airway smooth muscle cells

Physiological mechanisms associated with interleukin-13 (IL-13), a key cytokine in asthma, in intracellular Ca²⁺ signaling in airway smooth muscle cells (ASMCs) remain unclear. The aim of this study was to assess effects of IL-13 on Ca²⁺ oscillations in response to leukotriene D4 (LTD4) in human cultured ASMCs.LTD4-induced Ca²⁺ oscillations in ASMCs pretreated with IL-13 were imaged by confocal microscopy. mRNA expressions of cysteinyl leukotriene 1 receptors (CysLT1R), CD38, involved with the ryanodine receptors (RyR) system, and transient receptor potential canonical (TRPC), involved with store-operated Ca²⁺ entry (SOCE), were determined by real-time PCR. In IL-13-pretreated ASMCs, frequency of LTD4-induced Ca²⁺ oscillations and number of oscillating cells were significantly increased compared with untreated ASMCs. Both xestospongin C, a specific inhibitor of inositol 1,4,5-triphosphate receptors (IP₃R), and ryanodine or ruthenium red, inhibitors of RyR, partially blocked LTD4-induced Ca²⁺ oscillations. Ca²⁺ oscillations were almost completely inhibited by 50 μM of 2-aminoethoxydiphenyl borate (2-APB), which dominantly blocks SOCE but not IP₃R at this concentration. Pretreatment with IL-13 increased the mRNA expressions of CysLT1R and CD38, but not of TRPC1 and TRPC3.We conclude that IL-13 enhances frequency of LTD4-induced Ca²⁺ oscillations in human ASMCs, which may be cooperatively modulated by IP₃R, RyR systems and possibly by SOCE.     

Nerolidol attenuates airway inflammation and airway remodeling and alters gut microbes in ovalbumin-induced asthmatic mice

Asthma is a common respiratory disease associated with airway inflammation. Nerolidol is an acyclic sesquiterpenoid with anti-inflammatory properties. BALB/C mice were sensitized with ovalbumin (OVA) to induce asthma symptoms and given different doses of Nerolidol. We found that Nerolidol reduced OVA-induced inflammatory cell infiltration, the number of goblet cells and collagen deposition in lung tissue. Nerolidol reduced the OVA-specific IgE levels in serum and alveolar lavage fluid in an asthma model. Immunohistochemical staining of α-SMA (the marker of airway smooth muscle) showed that Nerolidol caused bronchial basement membrane thinning in asthmatic mice. The hyperplasia of airway smooth muscle cells (ASMCs) is an important feature of airway remodeling in asthma. ASMCs were treated with 10 ng/mL TGF-β to simulate the pathological environment of asthma in vitro and then treated with different doses of Nerolidol. Nerolidol inhibited the activity of TGF-β/Smad signaling pathway both in the lung tissue of OVA-induced mouse and TGF-β-stimulated ASMCs. 16s rRNA sequencing was performed on feces of normal mice, the changes of intestinal flora in OVA-induced asthmatic mice and Nerolidol-treated asthmatic mice were studied. The results showed that Nerolidol reversed the reduced gut microbial alpha diversity in asthmatic mice. Nerolidol changed the relative abundance of gut bacteria at different taxonomic levels. At the phylum level, the dominant bacteria were Bacteroidota, Firmicutes, and Proteobacteria. At the genus level, the dominant bacteria were Lactobacillus, Muribaculaceae, Bacteroides, and Lachnospiraceae. We conclude that Nerolidol attenuates OVA-induced airway inflammation and alters gut microbes in mice with asthma via TGF-β/Smad signaling.     

A Mathematical Analysis of Agonist- and KCl-Induced Ca Oscillations in Mouse Airway Smooth Muscle Cells

Airway hyperresponsiveness is a major characteristic of asthma and is generally ascribed to excessive airway narrowing associated with the contraction of airway smooth muscle cells (ASMCs). ASMC contraction is initiated by a rise in intracellular calcium concentration ([Ca²⁺]_i), observed as oscillatory Ca²⁺ waves that can be induced by either agonist or high extracellular K⁺ (KCl). In this work, we present a model of oscillatory Ca²⁺ waves based on experimental data that incorporate both the inositol trisphosphate receptor and the ryanodine receptor. We then combined this Ca²⁺ model and our modified actin-myosin cross-bridge model to investigate the role and contribution of oscillatory Ca²⁺ waves to contractile force generation in mouse ASMCs. The model predicts that: 1), the difference in behavior of agonist- and KCl-induced Ca²⁺ waves results principally from the fact that the sarcoplasmic reticulum is depleted during agonist-induced oscillations, but is overfilled during KCl-induced oscillations; 2), regardless of the order in which agonist and KCl are added into the cell, the resulting [Ca²⁺]_i oscillations will always be the short-period, agonist-induced-like oscillations; and 3), both the inositol trisphosphate receptor and the ryanodine receptor densities are higher toward one end of the cell. In addition, our results indicate that oscillatory Ca²⁺ waves generate less contraction than whole-cell Ca²⁺ oscillations induced by the same agonist concentration. This is due to the spatial inhomogeneity of the receptor distributions.     

The microRNA-1278/SHP-1/STAT3 pathway is involved in airway smooth muscle cell proliferation in a model of severe asthma both intracellularly and extracellularly

This study investigated the regulatory effects of microRNA-1278 (miR-1278) on airway inflammation, airway reconstruction, and the proliferation and apoptosis of airway smooth muscle cells (ASMCs) induced by transforming growth factor β1 (TGF-β1). The results showed that miR-1278 was upregulated in the blood and lung tissues (LTs) of patients with asthma compared with that in healthy volunteers; miR-1278 expression was also upregulated in asthmatic mice, and miR-1278 inhibition improved the LTs of asthmatic mice. Moreover, miR-1278 inhibited inflammation in asthmatic mice and counteracted the effect of TGF-β1 of induced proliferation and reduced apoptosis in ASMCs. DLRA indicated that miR-1278 targeted the 3′-UTR of Src-homology 2-containing phosphatase 1 (SHP-1). Furthermore, miR-1278 promoted ASMC proliferation, in which TGF-β1 played an important role by regulating the SHP-1/STAT3 signaling pathway. In conclusion, this study showed that miR-1278 played a critical role in the processes of airway remodeling and reduction of apoptosis by targeting SHP-1.

     

Non-Selective Cation Channels Mediate Chloroquine-Induced Relaxation in Precontracted Mouse Airway Smooth Muscle

Bitter tastants can induce relaxation in precontracted airway smooth muscle by activating big-conductance potassium channels (BKs) or by inactivating voltage-dependent L-type Ca²⁺ channels (VDLCCs). In this study, a new pathway for bitter tastant-induced relaxation was defined and investigated. We found nifedipine-insensitive and bitter tastant chloroquine-sensitive relaxation in epithelium-denuded mouse tracheal rings (TRs) precontracted with acetylcholine (ACH). In the presence of nifedipine (10 µM), ACH induced cytosolic Ca²⁺ elevation and cell shortening in single airway smooth muscle cells (ASMCs), and these changes were inhibited by chloroquine. In TRs, ACH triggered a transient contraction under Ca²⁺-free conditions, and, following a restoration of Ca²⁺, a strong contraction occurred, which was inhibited by chloroquine. Moreover, the ACH-activated whole-cell and single channel currents of non-selective cation channels (NSCCs) were blocked by chloroquine. Pyrazole 3 (Pyr3), an inhibitor of transient receptor potential C3 (TRPC3) channels, partially inhibited ACH-induced contraction, intracellular Ca²⁺ elevation, and NSCC currents. These results demonstrate that NSCCs play a role in bitter tastant-induced relaxation in precontracted airway smooth muscle.     

血管内皮生长因子及其受体2与哮喘模型大鼠气道平滑肌细胞增殖关系的研究

目的探讨血管内皮生长因子(VEGF)及其受体2(Flk-1)在哮喘大鼠气道平滑肌细胞(ASMC)中表达变化及其对ASMC增殖的影响。方法 SD大鼠18只,随机分为对照组,哮喘模型组和地塞米松干预组各6只,并培养各组气道平滑肌细胞。用免疫组织化学技术检测ASMC增殖细胞核抗原(PCNA)的表达;用RT-PCR及Western blot方法分别检测VEGF和Flk-1mRNA及蛋白质在不同组大鼠ASMC的表达程度。结果(1)哮喘模型组ASMC PCNA表达较对照组和干预组显著增加(P0.05)。(2)哮喘模型组ASMC VEGF164,VEGF188mRNA和VEGF205mRNA的表达较对照组和干预组显著增加(P0.05或P0.01)。(3)哮喘模型组ASMC VEGF及Flk-1蛋白质在大鼠ASMC中的表达较对照组和干预组显著增加(P0.05)。直线相关性分析显示,大鼠ASMC PCNA表达与大鼠ASMC中VEGF205,188,164及Flk-1mRNA表达水平呈正相关(r分别为0.79,0.86,0.83,0.68;P0.05);大鼠ASMC PCNA表达与大鼠ASMC中VEGF及Flk-1蛋白质表达水平也呈正相关(r分别为0.80,0.77;P0.05)。结果 哮喘模型大鼠ASMC中VEGF及其受体Flk-1表达上调,并与气道平滑肌细胞增殖有密切关系。该结果提示VEGF及其受体2可能参与了哮喘气道重建中气道平滑肌细胞增殖的过程。     

Role of Abl in airway hyperresponsiveness and airway remodeling

Background

Asthma is a chronic disease that is characterized by airway hyperresponsiveness and airway remodeling. The underlying mechanisms that mediate the pathological processes are not fully understood. Abl is a non-receptor protein tyrosine kinase that has a role in the regulation of smooth muscle contraction and smooth muscle cell proliferation in vitro. The role of Abl in airway hyperresponsiveness and airway remodeling in vivo is largely unknown.

Methods

To evaluate the role of Abl in asthma pathology, we assessed the expression of Abl in airway tissues from the ovalbumin sensitized and challenged mouse model, and human asthmatic airway smooth muscle cells. In addition, we generated conditional knockout mice in which Abl expression in smooth muscle was disrupted, and then evaluated the effects of Abl conditional knockout on airway resistance, smooth muscle mass, cell proliferation, IL-13 and CCL2 in the mouse model of asthma. Furthermore, we determined the effects of the Abl pharmacological inhibitors imatinib and GNF-5 on these processes in the animal model of asthma.

Results

The expression of Abl was upregulated in airway tissues of the animal model of asthma and in airway smooth muscle cells of patients with severe asthma. Conditional knockout of Abl attenuated airway resistance, smooth muscle mass and staining of proliferating cell nuclear antigen in the airway of mice sensitized and challenged with ovalbumin. Interestingly, conditional knockout of Abl did not affect the levels of IL-13 and CCL2 in bronchoalveolar lavage fluid of animals treated with ovalbumin. However, treatment with imatinib and GNF-5 inhibited the ovalbumin-induced increase in IL-13 and CCL2 as well as airway resistance and smooth muscle growth in animals.

Conclusions

These results suggest that the altered expression of Abl in airway smooth muscle may play a critical role in the development of airway hyperresponsiveness and airway remodeling in asthma. Our findings support the concept that Abl may be a novel target for the development of new therapy to treat asthma.     

ERK活化对哮喘大鼠气道重塑及CyclinD1表达的影响

目的探讨细胞外信号调节蛋白激酶（ERK）对哮喘大鼠气道重塑及CyclinD1表达的作用。方法原代培养大鼠的平滑肌细胞（ASMCs）,给予ERK激动剂表皮生长因子EGF和抑制剂PD98059干预ASMCs生长,依处理方式不同分为5组：（1）正常对照组（2）哮喘对照组;（3）E组：EGF20 ng/mL;（4）P＋E组,PD98059 10μmol/L1 h后添加EGF 20 ng/mL;（5）PD组,PD98059 10μmol/L。采用四甲基偶氮唑盐（MTT）法检测气道平滑肌细胞（ASMCs）增殖能力,流式细胞术（FCM）测定细胞周期和cyclinD1的蛋白含量,RT-PCR方法检测cyclinD1mRNA表达水平。结果（1）与哮喘对照组比较,E组ASMCs S＋G2/M期比例、吸光度A值、cyclinD1蛋白阳性表达率和cyclinD1 mRNA的A值均显著升高,PD组均显著降低（P〈0.05）。P＋E组与哮喘对照在此4项指标上比较无明显差异。（2）哮喘（对照组、E组、PD组和P＋E组）组与正常对照组,其S＋G2/M期比例、吸光度A值、cyclinD1蛋白和cyclinD1 mRNA的表达均显著增高（P〈0.05）。结论ERK活性促进哮喘大鼠ASMCs的增殖,增加cyclinD1在哮喘平滑肌细胞中的表达,导致气道重塑的形成,提示ERK可能对CyclinD1的表达具有调节作用。     

Mechanisms of Cigarette Smoke Effects on Human Airway Smooth Muscle

Cigarette smoke contributes to or exacerbates airway diseases such as asthma and COPD, where airway hyperresponsiveness and airway smooth muscle (ASM) proliferation are key features. While factors such as inflammation contribute to asthma in part by enhancing agonist-induced intracellular Ca²⁺ ([Ca²⁺]i) responses of ASM, the mechanisms by which cigarette smoke affect ASM are still under investigation. In the present study, we tested the hypothesis that cigarette smoke enhances the expression and function of Ca²⁺ regulatory proteins leading to increased store operated Ca²⁺ entry (SOCE) and cell proliferation. Using isolated human ASM (hASM) cells, incubated in the presence and absence cigarette smoke extract (CSE) we determined ([Ca²⁺]i) responses and expression of relevant proteins as well as ASM proliferation, reactive oxidant species (ROS) and cytokine generation. CSE enhanced [Ca²⁺]i responses to agonist and SOCE: effects mediated by increased expression of TRPC3, CD38, STIM1, and/or Orai1, evident by attenuation of CSE effects when siRNAs against these proteins were used, particularly Orai1. CSE also increased hASM ROS generation and cytokine secretion. In addition, we found in the airways of patients with long-term smoking history, TRPC3 and CD38 expression were significantly increased compared to life-long never-smokers, supporting the role of these proteins in smoking effects. Finally, CSE enhanced hASM proliferation, an effect confirmed by upregulation of PCNA and Cyclin E. These results support a critical role for Ca²⁺ regulatory proteins and enhanced SOCE to alter airway structure and function in smoking-related airway disease.     

Macrophage migration inhibitory factor (MIF) promotes rat airway muscle cell proliferation and migration mediated by ERK1/2 and FAK signaling

Macrophage migration inhibitory factor (MIF) is an inflammatory mediator that contributes to asthmatic airway remodeling; however, little is known regarding the effects of MIF on airway smooth muscle cells (ASMCs). In the present study, we found that an enhanced expression of MIF promoted ASMC proliferation, increased the population of cells in the S/G2 phase, downregulated P21 expression, and upregulated cyclin D1, cyclin D3, and Cdk6 expression. In addition, the apoptosis of ASMCs was significantly decreased in response to MIF overexpression, compared with the negative control. Moreover, MIF facilitated the migration of ASMCs by upregulating the expression of matrix metalloproteinase (MMP)‐2. Finally, we showed that MIF increased the phosphorylation of extracellular regulated protein kinases (ERK) 1/2 and focal adhesion kinase (FAK), which are associated with proliferation and migration. In conclusion, this study demonstrated that MIF overexpression promotes the proliferation and migration of ASMCs by upregulating the activity of the ERK1/2 and FAK signaling pathways in these cells, further indicating that inhibition of MIF may prove to be an effective strategy for treating asthma patients with airway remodeling.     

平喘颗粒对慢性哮喘大鼠Notch通路相关因子的影响

摘要 目的：通过观测各组慢性哮喘大鼠Notch信号通路相关因子Notch2、Jagged1、HES-1的变化，以及肺组织气道重塑的改善状况，探讨平喘颗粒在哮喘的治疗方面所发挥的作用机制。方法：按随机法将60只大鼠均分至空白组、模型组、地塞米松组、平喘颗粒组中。除空白组外，剩余的3组大鼠经卵蛋白+氢氧化铝致敏，复制慢性哮喘大鼠模型，空白组用生理盐水代替致敏液。造模前各组予相应的药物灌胃处理。6周后造模完成，处死大鼠并取其肺组织进行HE染色，在光镜下观察病理变化。使用Real-time PCR法检测Notch2、Jagged1 mRNA，Western blot法检测HES-1蛋白的表达程度。结果：与空白组相比，其余各组肺组织均可观察到明显气道重塑改变，Notch2、Jagged1 mRNA及HES-1蛋白表达明显上升（P＜0.05）；与模型组相比，平喘颗粒和地塞米松可缓解气道重塑，各因子表达情况显著下降（P＜0.05），两组间比较则无明显差异（P＞0.05）。结论：Notch2、Jagged1、HES-1表达程度与气道重塑呈正相关，平喘颗粒通过降低Notch2、Jagged1、HES-1表达改善气道重塑，可能是其防治哮喘发生发展的机制。     

Long non-coding RNA TCF7 contributes to the growth and migration of airway smooth muscle cells in asthma through targeting TIMMDC1/Akt axis

Background

Long noncoding RNAs (lncRNAs) have been revealed to participate in cellular biological processes in multiple diseases, including asthma. Nevertheless, the role of lncRNA TCF7 (lncTCF7) in airway smooth muscle cells (ASMCs) is still covered.

Effect of fudosteine,a cysteine derivative,on airway hyperresponsiveness,inflammation, and remodeling in a murine model of asthma

AimsFudosteine is a cysteine derivative that is used as an expectorant in chronic bronchial inflammatory disorders. It has been shown to decrease the number of goblet cells in an animal model. This study examined the effects of fudosteine on airway inflammation and remodeling in a murine model of chronic asthma.Main methodsBALB/c mice were sensitized by an intraperitoneal injection of ovalbumin (OVA), and subsequently challenged with nebulized ovalbumin three days a week for four weeks. Seventy-two hours after the fourth challenge, airway hyperresponsiveness (AHR) and the cell composition of bronchoalveolar lavage (BAL) fluid were assessed. Fudosteine was administered orally at 10 mg/kg or 100 mg/kg body weight from the first to the fourth challenge.Key findingsWe investigated the effects of fudosteine on the development of allergic airway inflammation and airway hyperresponsiveness after chronic allergen challenges. The administration of fudosteine during the challenge with ovalbumin prevented the development of airway hyperresponsiveness and accumulation of lymphocytes in the airways. Eotaxin, IL-4, and TGF-β levels and the relative intensity of matrix metalloproteinase-2 and matrix metalloproteinase-9 (MMP-2 and MMP-9) in BAL fluid were reduced by the fudosteine treatment; however, the number of eosinophils in BAL fluid and serum IgE levels did not change. The expression of TGF-β, the development of goblet cell hyperplasia, subepithelial collagenization, and basement membrane thickening were also reduced by the fudosteine treatment.SignificanceThese results indicate that fudosteine is effective in reducing airway hyperresponsiveness, airway inflammation, and airway remodeling in a murine model of chronic asthma.     

布地奈德通过干预线粒体钙单转运蛋白影响哮喘大鼠气道上皮细胞自噬和屏障功能的机制

摘要 目的：探究布地奈德通过干预线粒体钙单转运蛋白影响哮喘大鼠气道上皮细胞自噬和屏障功能的机制。方法：30只雄性SD大鼠作为研究对象,并根据实验目的分为3组：对照组（正常大鼠,生理盐水干预,n=10）,哮喘组（通过OVA诱导大鼠哮喘模型,n=10）,布地奈德组（气雾剂布地奈德用于治疗过敏性哮喘的大鼠,n=10）。通过钙测定试剂盒和蛋白印迹分析大鼠气道上皮细胞中Ca²⁺的吸收和MCU蛋白表达;TEER和TRITC 荧光分析检测大鼠气道上皮中的屏障功能;免疫组化分析分气道上皮细胞屏障功能相关因子ZO-1、E-cadherin的蛋白表达;ELISAF分析BALF上清液中炎性因子IL-4、IL-5和IL-13的水平;二氢乙锭衍生物和蛋白印迹分析BALF中ROS含量和caspase-3活性。结果：哮喘组较对照组Ca²⁺浓度降低,MCU蛋白表达升高（P<0.05）,布地奈德组较哮喘组Ca²⁺浓度升高,MCU蛋白表达降低（P<0.05）。哮喘组较对照组TEER降低,TRITC升高（P<0.05）,布地奈德组较哮喘组TEER升高,TRITC降低（P<0.05）。哮喘组较对照组ZO-1、E-cadherin的蛋白表达降低（P<0.05）,布地奈德组较哮喘组ZO-1、E-cadherin的蛋白表达升高（P<0.05）。哮喘组较对照组IL-4、IL-5和IL-13的水平升高（P<0.05）,布地奈德组较哮喘组IL-4、IL-5和IL-13的水平降低（P<0.05）。对照组组支气管和肺泡结构未见异常,与对照组相比哮喘组大鼠表现出肺泡间隔增厚,可见的肺毛细血管水肿,以及肺毛细血管和肺泡间隙中的大量炎性细胞浸润（P<0.05）,与哮喘组相比,布地奈德组显著减轻肺部病变的严重程度（P<0.05）。哮喘组较对照组LC3B II/I、ATG5、Beclin-1 和LC3II 的表达升高（P<0.05）,布地奈德组较哮喘组LC3B II/I、ATG5、Beclin-1 和LC3II 的表达降低（P<0.05）。哮喘组较对照组ROS含量和caspase-3活性升高（P<0.05）,布地奈德组较哮喘组ROS含量和caspase-3活性降低（P<0.05）。结论：布地奈德通过调节MCU表达介导气道上皮细胞的屏障完整性和自噬水平,缓解哮喘气道炎症,改善哮喘症状。     

Effects of micropatterned curvature on the motility and mechanical properties of airway smooth muscle cells

Geometric features such as size and shape of the microenvironment are known to alter cell behaviors such as growth, differentiation, apoptosis, and migration. Little is known, however, about the effect of curvature on cell behaviors despite that many cells reside in curved space of tubular organs such as the bronchial airways. To address this question, we fabricated micropatterned strips that mimic airway walls with varying curvature. Then, we cultured airway smooth muscle cells (ASMCs) on these strips and investigated the cells’ motility and mechanical properties using time-lapse imaging microscopy and optical magnetic twisting cytometry (OMTC). We found that both motility and mechanical properties of the ASMCs were influenced by the curvature. In particular, when the curvature increased from 0 to 1/150 μm⁻¹, the velocity of cell migration first decreased (0–1/750 μm⁻¹), and then increased (1/750–1/150 μm⁻¹). In contrast, the cell stiffness increased and then decreased. Thus, at the intermediate curvature (1/750 μm⁻¹) the ASMCs were the least motile, but most stiff. The contractility instead decreased consistently as the curvature increased. The level of F-actin, and vinculin expression within the ASMCs appeared to correlate with the contractility and motility, respectively, in relation to the curvature. These results may provide valuable insights to understanding the heterogeneity of airway constrictions in asthma as well as the developing and functioning of other tubular organs and tissue engineering.     

Salidroside inhibits platelet-derived growth factor–induced proliferation and migration of airway smooth muscle cells

Abnormal proliferation and migration of airway smooth muscle cells (ASMCs) have been found to be important for the airway remodeling during the pathogenesis of asthma. Salidroside a bioactive glucoside that exerts antitumor activity via inhibiting the cell proliferation and migration of cancer cells. The aim of the current study was to evaluate the effects of salidroside on the proliferation and migration of ASMCs. Our results showed that salidroside inhibited the proliferation and migration of ASMCs in response to platelet-derived growth factor (PDGF) stimulation. Salidroside markedly attenuated the PDGF-induced production of matrix metalloproteinase 2 (MMP-2) and MMP-9 in ASMCs. The levels of contractile phenotype markers including smooth muscle α-actin and calponin were reduced in response to PDGF stimulation, which was attenuated by salidroside pretreatment. Salidroside diminished the increase in the expression levels of type I collagen and fibronectin in PDGF-stimulated ASMCs. Furthermore, salidroside blocked the PDGF-induced activation of the nuclear factor-κB (NF-κB) pathway in ASMCs. The results suggested that salidroside functionally regulated the proliferation, migration, phenotype plasticity, and extracellular matrix deposition in PDGF-induced ASMCs and the NF-κB pathway might be implicated in the effects of salidroside on ASMCs induced by PDGF.     

Bulleyaconitine A inhibits the lung inflammation and airway remodeling through restoring Th1/Th2 balance in asthmatic model mice

ABSTRACT

The current study aimed to study the effects of Bulleyaconitine A (BLA) on asthma. Asthmatic mice model was established by ovalbumin (OVA) stimulation, and the model mice were treated by BLA. After BLA treatment, the changes in lung and airway resistances, total and differential leukocytes in the bronchoalveolar lavage fluid (BALF) were detected, and the changes in lung inflammation and airway remodeling were observed. Moreover, the secretion of IgE, Th1/Th2-type and IL-17A cytokines in BALF and serum of the asthmatic mice were determined. The resuts showed that BLA attenuated OVA-induced lung and airway resistances, inhibited the inflammatory cell recruitment in BALF and the inflammation and airway remodeling of the asthmatic mice. In addition, BLA suppressed the secretion of IgE, Th2-type cytokines, and IL-17A, but enhanced secretions of Th1-type cytokines in BALF and serum. The current study discovered that BLA inhibited the lung inflammation and airway remodeling via restoring the Th1/Th2 balance in asthmatic mice.