Loke zupa decoction attenuates bronchial EMT-mediated airway remodelling in chronic asthma through the PI3K-Akt/HIF-1α signaling pathway

Abstract Context Loke zupa decoction (Lok) is a well-established classic Chinese folk remedy for asthma. Objective We sought to investigate the effect and mechanism of Lok on asthma airway remodelling and provide novel insights for the prevention and treatment of asthma. Materials and methods For in vitro experiments, BEAS-2B cells were assigned into six groups: Control, TGF-β1 (10 μM), TGF-β1 + Lok-20, TGF-β1 + Lok-40, TGF-β1 + Lok-80 μg/mL and TGF-β1 + SB431542 (5 μM). CCK8 and wound healing assays were performed. For in vivo experiments, 60 female BALB/c mice were randomly divided into 5 groups: Control, model, Lok-4.55, Lok-9.1, and DEX group. Lok was administrated by gavage during the challenge stage for 8 consecutive weeks (4.55 and 9.1 g/kg/day). We investigated airway inflammation and airway remodelling in the lungs and verified the activation status of EMT-related markers and the PI3K-Akt/HIF-1α signalling pathway. Results In vitro, Lok efficiently inhibited TGF-β1-induced BEAS-2B cell proliferation ability (cell viability 165% vs. 105%) and migration (migration areas 85% vs. 35%) without affecting their normal growth (IC50 274.2 µg/mL at 48 h). In vivo, Lok effectively protected mice from asthma, as evidenced by decreased histological damage and level of cytokines in BALF (IL-4, IL-13 and TGF-β1) by 17%–77%. Mechanistic research revealed that Lok reduced the levels of EMT-related molecules and significantly downregulated the PI3K-Akt/HIF-1α signalling pathway. Discussion and conclusions Our findings provide novel insights into the protective effect of Lok on asthma and the underlying mechanisms, providing a theoretical basis and potential treatment possibilities for this patient population.


Introduction
Airway remodelling is characterized by structural changes in the airway, including the thickening of airway walls, subepithelial collagen deposition and excessive mucus secretion (Bullone and Lavoie 2020).It has been established that respiratory symptoms in asthma patients are largely caused by airway obstruction.Accordingly, it is crucial to find effective approaches that can reverse the ongoing remodelling process (Grainge et al. 2011;Gosens and Grainge 2015).Repeated inflammation of airway epithelial cells can lead to EMT development and differentiation into myofibroblasts, which exacerbates subepithelial fibrosis and contribute to airway remodelling in asthma.Many proteins reportedly play an important role in EMT, including N-cadherin and E-cadherin, representing epithelial and mesothelial features.Inflammatory and structural cells of the airway release cytokines and growth factors that promote airway inflammation, which promotes remodelling.Transforming growth factor-b1 (TGF-b1) reportedly plays an important role in allergic inflammation and airway remodelling, produced by various types of cells in the lung, such as airway epithelial cells and other lung pro-inflammatory cell infiltrates (Yao et al. 2019).Studies have shown that the PI3K/Akt pathway is broadly involved in various cellular processes, such as cell differentiation and proliferation, inflammation, metabolism and apoptosis (Chung 2017).Accumulating evidence suggests the key role of the PI3K/Akt pathway in the immune response and remodelling in the airways, contributing to the pathological changes of asthma (Wei et al. 2022).In this respect, it has been reported that inhibiting the PI3K/Akt pathway by Akt dephosphorylation could reduce the expression of hypoxia-inducing factor HIF-a and vascular endothelial growth factor VEGF, thereby reducing the permeability of respiratory mucosa, inhibiting respiratory oedema and contraction, and reducing airway remodelling in asthma (Dahlin et al. 2018).To our knowledge, airway remodelling in asthma has been largely understudied, warranting further studies on the mechanism of EMT in airway remodelling for the prevention and treatment of asthma.
Currently, the treatment of asthma relies on drugs such as inhaled glucocorticoids (ICS) and b2 agonists.However, the effectiveness of conventional therapies remains limited due to the complex aetiology of asthma.In addition, many drugs are associated with serious side effects, including an increased risk of cardiovascular disease, gastrointestinal damage and metabolic disorders (Derendorf et al. 2006;Caramori et al. 2022).Chinese medicine, which emphasizes a holistic approach to treatment, offers alternative possibilities.Lok is a traditional folk medicine widely used in northwest China, consisting of Hyssopus officinalis L. (Lamiaceae).and roots of Iris halophila Pall.(Iridaceae) (Abduwaki et al. 2017).Rosmarinus acid has been identified by liquid chromatography-tandem mass spectrometry (LC-MS/MS) as the main active ingredient of H. officinalis, while luteolin, iris and apigenin are the main active ingredients of the roots of I. halophila (Wuniqiemu et al. 2021;Aihaiti et al. 2022).Preliminary studies have shown that Lok could regulate the TH1/TH2 cytokine balance to reduce airway inflammation in mouse models of asthma (Mohammadtursun et al. 2020;Wei et al. 2016).Besides, it has been reported that the ethanolic extract of Iris halophila Pall, the main drug in Lok, prevents bronchial asthma by inhibiting mitogen-activated protein kinase/NF-jB inflammatory signalling (Yuan et al. 2019), and the chemical components of Lok have strong anti-inflammatory and antioxidant effects (Li et al. 2021).The above studies suggest that Lok can effectively treat asthma.Nonetheless, no studies have hitherto reported on the effect of Lok on asthma airway remodelling.Therefore, we conducted in vivo and in vitro experiments to evaluate its effect on airway remodelling.

Preparation of Lok
The preparation of Lok was conducted based on a previous study (Xie et al. 2022).In this study, the whole herb of H. officinalis and the roots of I. halophila were pulverized and mixed with water decoction.The mixture was then subjected to water decoction.The resulting decoction was filtered, concentrated, and dried to obtain a dry extract.The yield of the extraction process was determined to be 17.52%.The identification of the two herbs used in Lok was carried out by Dr. Perrida Ablizi, School of Pharmacy, Xinjiang Medical University.A reference specimen was preserved in the School of Pharmacology, Xinjiang Medical University (accession numbers xwyz20190612 and xwyz20190610).

Cell viability and proliferation assays
The viability of BEAS-2B cells incubated for 48 h at different concentrations, including 0, 2. 5,5,10,20,40,80,160 and 320 lg/mL, was assessed using a Cell Counting China).A total of 5000 cells in 100 lL of complete medium (DMEM þ 10% FBS) were added to the wells of a 96-well plate.The CCK-8 reagent (10 lL) was diluted with DMEM at a 1: 10, and 100 lL of the working solution was added to the wells.Absorbance values were measured at 450 nm after 2 h of incubation.For the proliferation assay, three replicates were treated with the above treatments.

Wound healing assay
A wound healing assay was used to determine whether Lok inhibited cell migration.BEAS-2B cells were seeded at a density of 5 Â 10 4 cells/well in 6-well plates overnight.Cell monolayers were scratched with a 100 lL plastic needle and washed thrice with PBS.Cells were then treated with 10% FBS medium supplemented with TGF-b1 (10 ng/mL) in the presence or absence of Lok (20, 40, 80 lg/mL) or SB431542 (HY-10431, MCE, USA) for 48 h.The morphological changes of cells were observed by microscopy (OLYMPUS, IX73P1F, Japan).

Ovalbumin (OVA)-induced asthma model
Sixty female BALB/c specific-free pathogen mice (18-20 g, 5-6 weeks old) were purchased from the Experimental Animal Center of Xinjiang Medical University.All experimental protocols involving animals were approved by the Ethics committee of Xinjiang Medical University (Approval ID: IACUC-20210805-08).Mice were acclimatized and fed in a standard facility for 1 week with free access to food and water.They were randomly divided into five groups (n ¼ 12).( 1 5) Dexamethasone (Dex) group (0.5 mg/kg), referred to as Lok-4.55,Lok-9.1, and Dex in this study.The doses of Lok decoction were equivalent to 4.55 and 9.1 g of herb/kg body weight in raw, in accordance with previous studies (Xie et al. 2022).The asthma group was sensitized with 100 mg OVA (Sigma Aldrich, USA) and 1 mg aluminium hydroxide (Sigma Aldrich) in 0.2 mL PBS on days 0, 7 and 14, respectively.From day 21, PBS was inhaled by nebulization with 5% OVA for 30 min/d every other day for 8 consecutive weeks.From day 21, OVA-sensitized mice were given 0.2 mL Dexamethasone (0.5 mg/kg) or Lok decoction (4.55 g/kg, 9.1 g/kg) by gavage 1 h before 5% OVA challenge, while the control group was given normal saline.

Collection of bronchoalveolar lavage fluid (BALF) and cell counts
Twenty-four hours after the last challenge, each mouse was weighed and injected with 2% pentobarbital sodium (Sigma-Aldrich, St. Louis, MO, USA) at a dose of 50 mg/kg; to collect BALF, 1.6 mL of PBS was injected into the lungs in two equal portions and repeated three times by gentle aspiration, with a fluid recovery of 80% considered satisfactory.The cell suspension was centrifuged (1500 rpm, 4 C, 10 min), and leukocytes in BALF were counted using a whole blood analyzer (BC-5000Vet, Mindray Co.

Determination of HPY
The right lung tissue of mice was obtained by alkaline hydrolysis (Nanjing Jiancheng, China) to determine the content of HPY.The tissue was put into a test tube, and the hydrolysate was added.The mixture was then hydrolyzed in a boiling water bath.
After hydrolysis, an indicator was added, and the pH value was adjusted accordingly.The mixture was diluted with doublesteamed water and thoroughly mixed.3 mL of hydrolysate was added to the activated carbon and centrifuged at 3500 rpm for 10 min.The supernatant was added to the corresponding reagent and mixed according to the kit instructions.After centrifugation in a water bath, the supernatant was analyzed at 550 nm for absorbance value detection.

Morphological changes in the airways
The left lungs of mice were fixed in 4% paraformaldehyde, embedded, and cut into 3 lm thick sections.Hematoxylin-eosin (H&E) staining was used to assess the extent of airway inflammation and airway remodelling.Masson trichrome staining was used to detect subepithelial collagen deposition.PAS-stained sections were used to observe airway mucus secretion.

Western blot analysis
Total protein was extracted from mouse lung tissue and BEAS-2B cells, quantified, and diluted to the same concentration with 4Â loading buffer.Proteins were separated on 10% or 8% SDS-PAGE gels and transferred to PVDF membranes.(Millipore, Billerica, MA, USA).After blocking with TBS-Tween 20 containing 5% skim milk for 3 h at room temperature, the membranes were incubated with primary antibodies for E-cadherin (Cat.

Quantitative real-time PCR analysis
Total RNA from mice lung tissue was extracted with TRIzol reagent (Takara, Shiga, Japan), and then the cDNA was reverse transcribed.qRT-PCR was performed to measure mRNA levels relative to GAPDH expression.The RT-qPCR conditions were as follows: 95 C 3 min, 95 C 10 sec, and 65 C 30 sec for 45 cycles.The expression of target messenger RNA (mRNA) was quantified by the 2 ÀDDC t method and GAPDH expression was used for normalization.The required primer sequences are shown in Table 1 (Sangon Biotech, Shanghai, China).

Statistical analysis
All experimental data were expressed as the mean ± standard deviation, and statistical analysis was performed using SPSS 24.0 (SPSS Inc., Chicago, IL, USA).One-way analysis of variance (One-way ANOVA) was used to compare multiple groups.LSD was used for the pairwise comparison of variance, and Dunnett's T3 method was used for the pairwise comparison of uneven variance.A p-value of <0.05 indicated statistical significance.

Effect of Lok on viability of BEAS-2B cells
Initially, we sought to determine suitable concentrations of Lok on BEAS-2B, and the viability of cells was examined by the CCK-8 kit assay.Results showed that when the concentration of Lok was lower than 160 mg/mL, the survival rates at 48 h were greater than 80.7 ± 11.2% (Figure 1).The IC 50 value was 274.2 mg/mL.As such, it was determined that the study used 20, 40 and 80 mg/mL as the experimental concentrations.

Optimal conditions for TGF-b1 induction of EMT in BEAS-2B cells
To study the effect of TGF-b1 on BEAS-2B cells, the cells were treated with 2.5, 5 and 10 ng/mL of TGF-b1 for 24 h, 48 h and 72 h.The morphological changes in each group were observed under a microscope.As shown in Figure 2(a), the control cells exhibited round or oval shapes with close contact between cells.With an increased TGF-b1 dose, the cells exhibited a spindle shape and proliferated.EMT markers were detected by Western blot.The epithelial marker E-cadherin decreased most significantly in cells when the TGF-b1 concentration was 10 ng/mL for 48 h, while the mesenchymal marker N-cadherin was upregulated (Figure 2(b)).Overall, treatment of BEAS-2B cells with 10 ng/mL TGF-b1 for 48 h was the optimal concentration and duration of action.

Lok inhibits TGF-b1-induced cell proliferation and migration of BEAS-2B
The migration and proliferation ability was increased in TGF-b1-induced EMT cells to explore the effect of Lok on the

Lok regulates TGF-b1-induced expression of EMT markers
It is well-established that E-cadherin, a-SMA and N-cadherin are important proteins in the EMT process.Importantly, we found that TGF-b1 could decrease E-cadherin expression and increase N-cadherin and a-SMA levels.The Western blot assay assessed whether Lok could inhibit EMT-related protein expression.

Lok relieved inflammation in mice with OVA-induced airway inflammation
To further explore the relationship between Lok and airway remodelling, OVA-induced asthmatic mice models were established (Figure 6(a)).Compared to the control, mice sensitized and challenged with OVA mice showed a significant increase in the total number of inflammatory cells, neutrophils (Neu), lymphocytes (Lym), monocytes (Mon) and eosinophil (Eos) in BALF (p < 0.01) (Figure 6(b)).Interestingly, the dexamethasone and Lok treatment group showed markedly reduced total inflammatory cells, neutrophils, lymphocytes and eosinophils in BALF compared to those treated with saline (p < 0.05).H&E staining of lung tissue showed that OVA sensitization and challenge induced significant inflammatory cell infiltration and bronchiolar airway thickening compared to normal controls.Importantly, treatment with dexamethasone and Lok decoction abrogated the peribronchial inflammatory changes (Figure 6(c)).The Th1/Th2 imbalance has been reported to cause airway inflammation associated with the pathogenesis of asthma.Cytokines typically associated with Th2, including interleukin (IL)-4 and IL-13, have been associated with remodelling by activating EMT transformation.We detected the pharmacological effect of Lok on Th2 immune cytokines using an ELISA kit on the BALF of the mice.We found that IL-4 and IL-13 concentrations were lower in the Lok-treated group than in the OVA group (Figure 6(d and e)).This finding indicates that Lok suppressed IL-4 and IL-13 production.Moreover, TGF-b1 levels were significantly decreased in the Lok-treated group compared to the OVA group.

Lok relieved airway remodelling in mice with OVA-induced asthma
Since airway remodelling is characterized by airway wall thickening, subepithelial collagen deposition, and excessive mucus secretion, we assessed the pathological changes in lung tissue sections.In the present study, mice exposed to OVA showed bronchiolar airway remodelling and mucus production, which resulted in airway plugging (Figure 7 Compared with the normal control group, the content of hydroxyproline in the lung tissue of the mod group was significantly increased compared with the control group, while the content of hydroxyproline in the lung tissues of the Lok and Dex groups was significantly decreased (Figure 7(d)).
Lok suppressed EMT in OVA-induced asthma mice models It has been established that EMT plays an essential role in airway remodelling in asthma.Compared with normal mice, the lungs of chronic asthmatic mice exhibited decreased staining for the epithelial marker E-Cadherin and increased staining of mesenchymal markers, N-Cadherin and a-SMA, confirming the occurrence of EMT in the chronic asthma model.Importantly, the suppressive effect of Lok and DEX treatment on the development of EMT in chronic asthma was validated through Western blot and RT-qPCR analysis.These analyses assessed the protein levels of E-Cadherin, N-Cadherin and a-SMA in the lungs (Figure 8).Lok inhibits PI3K-Akt and HIF-1a signaling pathways in mice Recent studies have uncovered the key role of the PI3K-Akt/HIF-1a pathway in airway remodelling in asthma.Thus, we hypothesized that Lok protects against asthma via modulation of the PI3K-Akt/HIF-1a pathway.Increased levels of p-PI3K, p-Akt, and HIF-1a were observed in the lungs of the asthma models, substantiating that the PI3K-Akt/HIF-1a pathway is tightly correlated with the development of asthma.As expected, Lok treatment significantly reduced p-PI3K, p-Akt and HIF-1a levels (Figure 9).

Discussion
Airway remodelling is a structural change characterized by airway wall thickening, subepithelial collagen deposition and excessive mucus secretion (Bullone and Lavoie 2020).It has been established that airway epithelial cells are the primary targets of inhaled environmental allergens, causing the production of innate cytokines by Th2 cells that trigger allergic reactions (Sheih et al. 2017).Chronic exposure to environmental factors may lead to persistent activation of pathways involved in airway epithelial repair, such as EMT, changes in progenitor cell migration and proliferation, and abnormal redifferentiation causing airway remodelling (Ganesan and Sajjan 2013).No study has hitherto assessed the effect of Loke zupa on the changes in airway epithelial cell function induced by allergens.A previous study reported that airway remodelling might occur in the early stages of asthma and is associated with EMT dysfunction (Yao et al. 2019).Although the protective role of Lok against airway inflammation has been reported, its role in EMT in asthma remains unclear.E-cadherin is an important intercellular adhesion protein whose downregulation is a hallmark of EMT and is accompanied by the upregulation of mesenchymal markers, including fibronectin, wave protein, a-smooth muscle actin (a-SMA) and N-cadherin (Pei et al. 2019;Riemma et al. 2022;Kalluri and Weinberg 2009).In the present study, cellular experiments demonstrated that Lok treatment effectively reversed the TGF-b1-induced EMT process.In our OVA-induced asthma model, the levels of the mesenchymal marker N-Cadherin and a-SMA were increased.We observed that Lok treatment increased E-Cadherin levels and decreased N-Cadherin and a-SMA expression, indicating that EMT progression was delayed.
It is highly conceivable that Lok's antagonistic effect on airway remodelling is not only due to its anti-inflammatory properties but also to its anti-EMT properties.
Ovalbumin is one of the most abundant glycoprotein allergens responsible for Th2 immune responses in patients with asthma (Wang et al. 2014).Asthmatic airway remodelling is usually associated with chronic inflammation (Dong et al. 2021).Although the exact pathogenesis underlying airway remodelling remains unclear, it has been established that chronic inflammatory responses in the airways play an important role (Fehrenbach et al. 2017).The present study established a mouse model of OVA-induced asthma to further explore the relationship between Lok and airway remodelling.We found that airway inflammatory cell infiltration was significantly increased in the lungs of the mice model.Additionally, severe airway remodelling and changes in collagen deposition were observed.To assess the impact of remodelling inhibition on cytokines and growth factors in BALF, we examined their levels.It is widely acknowledged that chronic allergic inflammation is a driver of remodelling and pathological changes, with significant goblet cell proliferation and mucus plug formation, airway basement membrane thickening observed in the airways of mice overexpressing IL-4, IL-5 and IL-13 in the lungs (Samitas et al. 2018;Wang et al. 2020).Interestingly, IL-4 reportedly increases the expression of a-SMA, suggesting IL-4 may influence airway inflammation and collagen deposition (Bergeron et al. 2003).In contrast, it has been shown that IL-13 induces the differentiation of fibroblasts into myofibroblasts and enhances the release of type III collagen, leading to collagen deposition in the lung (Lee et al. 2001).IL-13 induces the release of TGF-b1 leading to airway fibrosis (Ingram and Kraft 2012).Our experimental results showed that Lok treatment reduced the infiltration of airway inflammatory cells in chronic asthmatic mice and decreased IL-4, IL-13 and TGF-b1 levels in BALF.In chronic asthmatic mice, mitigating these inflammatory factors reduced airway goblet cell proliferation, smooth muscle thickening, and collagen deposition.
There is an increasing consensus suggesting that EMT transformation can be regulated directly or indirectly through various molecular mechanisms, including growth factors and cytokines, such as TGF-b1, and signaling pathways, such as the PI3K signaling pathway (Ye et al. 2022;Zhou et al. 2023).PIP3 interacts with the PH structural domain of Akt, leading to the aggregation of Akt on the membrane.With the help of 3-phosphatidylinositol-dependent protein kinase1 (PDK1), Akt is activated after phosphorylation, which further phosphorylates a range of substrates, thereby affecting various cellular and physiological processes, including cell cycle, cell growth, angiogenesis, and migration, and these changes induce EMT (Ye et al. 2012).Numerous clinical trials suggest that blocking the phosphatidylinositol-3-kinase/protein kinase B signaling pathway can inhibit airway remodelling in mice through multiple mechanisms.It is widely thought that asthma activates hypoxia-responsive pathways in the body.Hypoxia-inducible factor-1a (HIF-1a) is an important factor mediating the hypoxic response, which promotes inflammation and induces activation of genes associated with airway remodelling, leading to increased inflammatory cell infiltration and fibrosis (Dahlin et al. 2018).It has been shown that dephosphorylating AKT to block the PI3K/AKT pathway reduces the expression of hypoxia-inducible factor HIF-a and vascular endothelial growth factor VEGF, thereby decreasing airway mucosal permeability, inhibiting airway edema and constriction, resulting in reduced vascular mucus secretion and decreased ovalbumin-induced airway remodelling (Zhao et al.

2018
).These findings suggest that blocking the PI3K-Akt/HIF-1a pathway is a potential approach to hindering asthma airway remodelling, consistent with our results.Importantly, we found that Lok treatment significantly reduced p-PI3K, p-Akt, and HIF-1a in the lung tissue of chronically asthmatic mice.Thus, Lok may attenuate airway remodelling by inhibiting the PI3K-Akt/HIF-1a signaling pathway, thus alleviating chronic asthma airway epithelial EMT transformation.
Our findings suggest that Lok significantly prevents EMT progression by reducing TGF-b1 production in epithelial cells, alleviating airway inflammation and remodelling in experimental asthma models by suppressing EMT via downregulating PI3K-Akt and HIF-1a expression.However, the limitations of our study should be acknowledged.Since the direct target protein of Lok in the body has not been identified, we evaluated the effects of Lok on EMT through histopathology and cell function experiments.Indeed, more comprehensive basic and clinical studies are needed to evaluate the efficacy and mechanism of airway remodelling.Besides, we did not measure a known inhibitor of the PI3K-AKT and HIF-1a signaling pathways for comparison.It should be borne in mind that other related pathways may affect asthma pathophysiology and were not studied.These pathways should be acknowledged and addressed in future research studies.

Conclusions
In brief, this study yielded several conclusions.Firstly, Lok displayed a protective role in an in vitro BEAS-2B model and asthma mice, exhibiting notable anti-inflammatory effects and improvements in EMT.Besides, Lok may attenuate airway remodelling by inhibiting the PI3K-Akt/HIF-1a signalling pathway, thus alleviating chronic asthma airway epithelial EMT transformation.Our future studies will focus on the relevant mechanisms of Lok in asthma to better understand its therapeutic effect.The obtained data are expressed as mean ± SD. n = 6, Ã p < 0.05, ÃÃ p < 0.01, vs. con, # p < 0.05, ## p < 0.01, vs. Mod.

Figure 2 .
Figure 2. TGF-b1-induced EMT in BEAS-2B cells.(a) Morphological changes in BEAS-2B cells induced by different concentrations and duration of action of TGF-b1 (magnification Â 200); (b) Effects of different concentrations and duration of action of TGF-b1 on EMT-related proteins in BEAS-2B cells.Immunoblotting (upper panel) and quantitative analysis (lower panel) of E-cadherin and N-cadherin in BEAS-2B cells treated with different concentrations of TGF-b1 for different intervals.GAPDH was used as an internal standard.The obtained data were expressed as mean ± SD. n ¼ 3, Ã p < 0.05, ÃÃ p < 0.01, vs. con.

Figure 3 .
Figure 3. Lok inhibited cell migration and proliferation in TGF-b1-treated BEAS-2B cells.(a) Phase-contrast microscopy showed that cells stimulated with TGF-b1 exhibited a spindle-shaped fibroblast-like morphology with reduced cell-to-cell contact, while Lok and SB431542 improved cell morphology.(b) Cell proliferation capacity was analyzed by CCK-8 assay.(c) After the cells reached 90% confluence, they were scraped horizontally with a sterile 100 ll pipette tip.Images of the wound area were captured at 0 and 48 hours post-stimulation.(d) The migration area was measured to analyze cell migration.One-way ANOVA followed by Dunnett's multiple comparisons test was used.Ã p < 0.05, ÃÃ p < 0.01, vs. control group, # p < 0.05, ## p < 0.01, vs. TGF-b1 group.The data are presented as mean ± SD, n = 3.
(a)).Next, compared to normal control mice, mice subjected to OVA showed significant changes in Masson's trichrome stained area (p < 0.01) and mucus production score (p < 0.01) evaluated by Periodic Acid-Schiff (PAS) staining.However, DEX and Lok decoction treatment significantly reduced the Masson's trichrome stained area compared with OVA mice (p < 0.05), while DEX and Lok decoction treatment significantly decreased mucus production (p < 0.05) (Figure 7(b and c)).Higher hydroxyproline content in lung tissue was associated with more severe pulmonary fibrosis in mice.

Figure 7 .
Figure 7. Effect of Lok treatment on OVA-induced airway remodeling in chronic asthma.(a) Masson's trichrome and Periodic Acid-Schiff (PAS) staining in lung tissue.Yellow arrows indicate collagen deposition, and red arrows indicate goblet cell proliferation in each group.Bars, 200 mm.(b) We quantified and outlined the peribronchial area stained with Masson's trichrome.(c) Percentage of PAS staining.(d) The levels of HPY expression in lung tissue.The obtained data are expressed as mean ± SD. n = 6, Ã p < 0.05, ÃÃ p < 0.01, vs. con, # p < 0.05, ## p < 0.01, vs. Mod.