Luminal responses to bradykinin on the isolated canine tracheal epithelium: effects of bradykinin antagonists

We have tested the ability of several B₂ antagonists on the responses of the open-circuited isolated canine tracheal epithelium to the luminal addition of Bradykinin (BK), Lys-BK, and substance P (SP). All three peptides produced biphasic changes in transmural potential difference (PD), an initial decrease (dip) followed by an increase (rise). The B₂ antagonists -Arg^o [Hyp³,Thi^5,8, -Phe⁷]BK (B5630) reversibly inhibited both the dips and the rise with IC₅₀ values of 2.01 · 10⁻⁸ and 1.54 · 10⁻⁷ M, respectively. The responses to SP were unaffected even with high concentrations of the antagonist. Other antagonists tested [ -Phe^1,7,Thi^5,8]BK (B4158), [ -Phe^2,7]BK (B4404), and [ -Phe⁷,Hyp⁸]BK (B5092) were ineffective.     

血清PGRN、SFRP1、CCL26与支气管哮喘急性发作期患者肺功能和气道炎症的相关性研究

摘要 目的：探讨支气管哮喘（BA）急性发作期患者血清颗粒蛋白前体（PGRN）、分泌型卷曲相关蛋白1（SFRP1）、C-C基序趋化因子配体26（CCL26）与肺功能和气道炎症的相关性。方法：选取2021年1月～2022年6月我院收治的118例BA急性发作期患者作为急性发作期组,根据病情分级将BA急性发作期患者分为轻度亚组55例、中度亚组43例、重度亚组20例,另选取同期77例BA临床控制期患者（临床控制期组）和60例体检健康志愿者（对照组）分别作为对照。采用Pearson相关性分析BA急性发作期患者血清PGRN、SFRP1、CCL26水平与肺功能和气道炎症指标的相关性。结果：对照组、临床控制期组、急性发作期组血清PGRN水平和第1秒用力呼气容积占预计值百分比（FEV₁%pred）、峰值呼气流速（PEF）依次降低,SFRP1、CCL26水平和呼出气一氧化氮（FeNO）、外周血嗜酸性粒细胞（EOS）计数依次升高（P＜0.05）。轻度亚组、中度亚组、重度亚组血清PGRN水平和FEV₁%pred、PEF依次降低,SFRP1、CCL26水平和FeNO、外周血EOS计数依次升高（P＜0.05）。Pearson相关性分析显示,BA急性发作期患者血清PGRN水平与FEV₁%pred、PEF呈正相关,与FeNO、外周血EOS计数呈负相关（P＜0.05）,SFRP1、CCL26与FEV₁%pred、PEF呈负相关,与FeNO、外周血EOS计数呈正相关（P＜0.05）。结论：BA急性发作期患者血清PGRN水平降低,SFRP1、CCL26水平升高,与病情严重程度、肺功能和气道炎症有关,可能成为BA急性发作期患者新的治疗靶点。     

RELMα可通过抑制PTEN信号通路来促进气道重塑并增加炎症反应

本研究旨在考察抵抗素样分子-α(resistin-like molecule-α,RELMα)在哮喘小鼠模型和小鼠肺上皮细胞中的表达及对气道重塑和炎症反应的影响。本研究通过卵清蛋白(ovalbumin,OVA)诱导小鼠哮喘模型,并评估了小鼠肺组织中RELMα、collagen I和fibronectin-1的表达。为了研究RELMα对PTEN信号通路的调控作用,本研究利用shRNA-RELMα、pcDNA3.0-RELMα和pcDNA3.0-PTEN转染小鼠肺上皮细胞系TC-1来上调或下调RELMα及PTEN的表达。通过Western blotting检测了TC-1细胞中RELMα、collagenⅠ、fibronectin-1、PTEN、TNF-α、IL-1β和IL-6的表达。研究发现,与对照小鼠相比,OVA致敏的哮喘小鼠的肺组织中RELMα、collagen I和fibronectin-1的表达显著升高。上调RELMα可显著升高collagenⅠ、fibronectin-1、TNF-α、IL-1β和IL-6的表达并抑制PTEN信号通路的活化。上调PTEN则可抑制collagenⅠ、fibronectin-1、TNF-α、IL-1β和IL-6的表达。本研究表明,RELMα在哮喘发病过程中高表达,上调RELMα可抑制PTEN信号通路来促进气道重塑并增加炎症反应。     

Cortactin mediates elevated shear stress-induced mucin hypersecretion via actin polymerization in human airway epithelial cells

Mucus hypersecretion is a remarkable pathophysiological manifestation in airway obstructive diseases. These diseases are usually accompanied with elevated shear stress due to bronchoconstriction. Previous studies have reported that shear stress induces mucin5AC (MUC5AC) secretion via actin polymerization in cultured nasal epithelial cells. Furthermore, it is well known that cortactin, an actin binding protein, is a central mediator of actin polymerization. Therefore, we hypothesized that cortactin participates in MUC5AC hypersecretion induced by elevated shear stress via actin polymerization in cultured human airway epithelial cells. Compared with the relevant control groups, Src phosphorylation, cortactin phosphorylation, actin polymerization and MUC5AC secretion were significantly increased after exposure to elevated shear stress. Similar effects were found when pretreating the cells with jasplakinolide, and transfecting with wild-type cortactin. However, these effects were significantly attenuated by pretreating with Src inhibitor, cytochalasin D or transfecting cells with the specific small interfering RNA of cortactin. Collectively, these results suggest that elevated shear stress induces MUC5AC hypersecretion via tyrosine-phosphorylated cortactin-associated actin polymerization in cultured human airway epithelial cells.     

Galectin-3: its role in asthma and potential as an anti-inflammatory target

Galectins constitute an evolutionary conserved family that bind to β-galactosides. Increasing evidence shows that galectins are involved in many fundamental biological processes such as cellular communication, inflammation, differentiation and apoptosis. Changes in galectin-3 (Gal-3) expression are commonly seen in cancer and pre-cancerous conditions, and Gal-3 may be involved in the regulation of diverse cancer cell activities that contribute to tumourigenesis, cancer progression and metastasis. In addition, Gal-3 is a pro-inflammatory regulator in rheumatoid arthritis. Gal-3 has been shown to be involved in many aspects in allergic inflammation, such as eosinophil recruitment, airway remodeling, development of a Th2 phenotype as well as increased expression of inflammatory mediators. In an in vivo model it was shown that bronchoalveolar lavage (BAL) fluid from ovalbumin-challenged mice contained significantly higher levels of Gal-3 compared to control mice. The molecular mechanisms of Gal-3 in human asthma have not been fully elucidated. This review will focus on what is known about the Gal-3 and its role in the pathophysiological mechanisms of asthma to evaluate the potential of Gal-3 as a biomarker and therapeutic target of asthma.     

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.     

The distribution of respiration-related and swallowing-related motoneurons innervating the rat genioglossus muscle

The present study was an attempt to identify the location of genioglossal respiratory and swallowing motoneuron cell bodies within the hypoglossal (XII) nucleus using both electrophysiological and morphological studies. The genioglossus muscle is innervated by the genioglossal branch of the medial XII nerve. At the entrance to the muscle, the genioglossal branch divides in the directions of the mandible and tongue. Five of five rats displayed both respiratory-related and swallowing-related bursts in the medial XII branch towards the mandible. All five rats also displayed swallowing-related bursts in the medial XII branch towards the tongue. In addition, horseradish peroxidase conjugated to wheatgerm agglutinin (HRP:WGA) was injected into the proximal cut ends of each branch. When HRP:WGA was injected into the branch in the direction of the mandible, HRP-labeled cells were detected in the lateral region of the ventromedial subnucleus in the XII nucleus, extending from 0.7 to 1.2 mm rostral to the obex. On the other hand, after injection into the branch in the direction of the mandible, HRP-labeled cells were detected in the ventromedial subnucleus of the XII nucleus, extending from 0.3 to 1.2 mm rostral to the obex. These results provide evidence that genioglossal respiration-related and swallowing-related motoneurons are located in different portions within the ventromedial subnucleus of the XII nucleus.     

咪喹莫特对慢性哮喘模型小鼠肺组织中基质金属蛋白酶-9-表达的影响

目的：观察Toll样受体7配体咪喹莫特对慢性哮喘小鼠模型气道重塑及肺组织中基质金属蛋白酶MMP-9表达的影响。方法：36只BALB／c小鼠按随机原则分成正常对照组、哮喘模型组、咪喹莫特组,每组12只。通过卵蛋白致敏,气道激发8周,末次激发24h后,检测各组小鼠气道反应性,HE染色观察气道炎症变化;Masson三色染色观察气道纤维化的改变;real-timePCR和western—blot分别检测肺组织中MMP-9的mRNA和蛋白表达。结果：慢性哮喘组小鼠气道炎症、气道高反应性和气道重塑较正常对照小鼠明显加重,而咪喹莫特组小鼠模型的气道炎症和气道反应性及气道重塑均较哮喘模型组小鼠减少或降低。慢性哮喘组小鼠肺组织MMP-9的mRNA和蛋白水平均较正常对照小鼠明显增加（P〈0．05）,而咪喹莫特治疗可显著降低哮喘小鼠肺组织MMP-9的mRNA和蛋白水平（P〈0．05）。结论：咪喹莫特能够显著抑制慢性哮喘小鼠模型的气道炎症、降低气道高反应性并减轻气道重塑,这可能与其抑制MMP-9的表达有关。     

TGF-β1/Smads通路在哮喘气道重塑中的表达及意义

为了探讨TGF-β1/Smads通路在哮喘气道重塑中的表达及意义,本研究选取清洁级雄性SD大鼠40只,将大鼠随机分为4组,正常对照组,哮喘2周组,哮喘4周组和哮喘8周组,每组10只。其中哮喘2周组、哮喘4周组和哮喘8组大鼠制作哮喘模型,分别在激发哮喘2周、4周和8周后处死,采用HE染色观察各组气道重塑,同时测量气道形态学参数,采用免疫组化染色检测TGF-β1、Smad2和Smad7蛋白表达。结果表明与哮喘2周组和哮喘4周组相比,哮喘8周组气道支气管壁周围有大量细胞浸润,气道平滑肌增厚,管腔狭窄;哮喘各组总管壁面积、内壁面积和平滑肌面积均明显高于正常对照组(p<0.05),其中哮喘8周组总管壁面积、内壁面积和平滑肌面积分别为(42.26±1.61)μm^2、(34.40±1.22)μm^2和(8.22±1.12)μm2,明显高于哮喘2周组和哮喘4周组(p<0.05);哮喘8周组TGF-β1和Smad2蛋白表达分别为1.562±0.122和1.613±0.121,明显高于哮喘2周组和哮喘4周组(p<0.05),而Smad7蛋白表达为0.251±0.081,明显低于哮喘2周组和哮喘4周组(p<0.05)。本研究初步推测TGF-β1/Smads通路在哮喘气道重塑中有重要作用,其中TGF-β1和Smads可能有促进气道重塑的作用,而Smad7可能有抑制气道重塑作用,值得进一步研究。     

干预气道杯状细胞CLCA对ARDS小鼠损伤程度及炎症机制的影响

目的:探讨干预气道杯状细胞CLCA的表达与功能,对ARDS小鼠肺脏损伤程度的影响,并通过体外细胞研究探讨其机制。方法:制备LPS诱导的ARDS小鼠模型(ARDS组),并在此模型上分别进行干预,包括气道雾化吸入CLCA非特异性阻断剂尼氟灭酸(NFA)(NFA+ARDS组)、气道滴注CLCA特异性抗体(ab-CLCA3)(ab-CLCA3+ARDS组)。HE染色观察各组小鼠肺部病理及炎症特征,计算肺损伤评分。运用hCLCA1-siRNA抑制人正常支气管上皮细胞系16HBE中h CLCA1的表达,采用real-time RT-PCR法验证抑制效果后,检测各组细胞合成多种炎症因子m RNA水平的差异。结果:HE染色显示,ARDS组与NFA+ARDS组相比,肺部病理改变及炎症细胞浸润程度无明显差异,肺损伤评分也没有统计学差异(正常组:2.0±0.71;ARDS组:6.8±0.45,NFA+ARDS组7.4±0.89,P0.05)。与ARDS组相比,ab-CLCA3+ARDS组肺部病理损伤及炎症细胞浸润程度明显加重,肺损伤评分也升高(正常组:1.8±0.83;ARDS组:7.6±0.55,ab-mCLCA3+ARDS组9.8±0.83,P0.05)。real-time RT-PCR检测证实成功构建hCLCA1低表达的16HBE细胞系,同时real-time RT-PCR结果显示TNF-α和IL-1β的m RNA表达水平升高(P0.05)。结论:阻断气道CLCA功能区域,可以加重ARDS小鼠肺部病理损伤程度及炎症细胞浸润水平,提示气道杯状细胞CLCA在ARDS小鼠肺部炎症形成过程中发挥抑制性调节作用。