Effects of Anti-IL-17 on Inflammation, Remodeling, and Oxidative Stress in an Experimental Model of Asthma Exacerbated by LPS

Inflammation plays a central role in the development of asthma, which is considered an allergic disease with a classic Th2 inflammatory profile. However, cytokine IL-17 has been examined to better understand the pathophysiology of this disease. Severe asthmatic patients experience frequent exacerbations, leading to infection, and subsequently show altered levels of inflammation that are unlikely to be due to the Th2 immune response alone. This study estimates the effects of anti-IL-17 therapy in the pulmonary parenchyma in a murine asthma model exacerbated by LPS. BALB/c mice were sensitized with intraperitoneal ovalbumin and repeatedly exposed to inhalation with ovalbumin, followed by treatment with or without anti-IL-17. Twenty-four hours prior to the end of the 29-day experimental protocol, the two groups received LPS (0.1 mg/ml intratracheal OVA-LPS and OVA-LPS IL-17). We subsequently evaluated bronchoalveolar lavage fluid, performed a lung tissue morphometric analysis, and measured IL-6 gene expression. OVA-LPS-treated animals treated with anti-IL-17 showed decreased pulmonary inflammation, edema, oxidative stress, and extracellular matrix remodeling compared to the non-treated OVA and OVA-LPS groups (p < 0.05). The anti-IL-17 treatment also decreased the numbers of dendritic cells, FOXP3, NF-kappa B, and Rho kinase 1-and 2-positive cells compared to the non-treated OVA and OVA-LPS groups (p < 0.05). In conclusion, these data suggest that inhibition of IL-17 is a promising therapeutic avenue, even in exacerbated asthmatic patients, and significantly contributes to the control of Th1/Th2/Th17 inflammation, chemokine expression, extracellular matrix remodeling, and oxidative stress in a murine experimental asthma model exacerbated by LPS.Fundacao de Amparo a Pesquisa do Estado de Sao Paulo (FAPESP)National Council of Scientific and the Technological Development (CNPq)Laboratory of Medical InvestigationsUniv Sao Paulo, Sch Med, Dept Med Sci, Sao Paulo, Brazil|Hosp Sirio Libanes, Sao Paulo, BrazilUniv Fed Sao Paulo, Inst Biomed Sci, Dept Biol Sci, Sao Paulo, BrazilUniv Fed Sao Paulo, Dept Biol Sci, Sao Paulo, BrazilUniv Fed Sao Paulo, Inst Biomed Sci, Dept Biol Sci, Sao Paulo, BrazilUniv Fed Sao Paulo, Dept Biol Sci, Sao Paulo, BrazilFAPESP: 2013/17944-1Laboratory of Medical Investigations: LIM-20 FMUSPWeb of Scienc

Effects of plant protease inhibitors (Pep-3-EcTI, Pep-BbKI, and Pep-BrTI) versus corticosteroids on inflammation, remodeling, and oxidative stress in an asthma–COPD (ACO) model

The peptide derived from E. contortisiliquum trypsin inhibitor (Pep-3-EcTI), peptide derived from kallikrein inhibitor isolated from B. bauhinioides (Pep-BbKI), and B. rufa peptide modified from B. bauhinioides (Pep-BrTI) peptides exhibit anti-inflammatory and antioxidant activities, suggesting their potential for treating asthma–chronic obstructive pulmonary disease (COPD) overlap (ACO). We compared the effects of these peptides with dexamethasone (DX) treatment in an ACO model. In this study, 11 groups of male BALB/c mice were pre-treated under different conditions, including sensitization with intraperitoneal injection and inhalation of ovalbumin (OVA), intratracheal instillation of porcine pancreatic elastase (ELA), sensitization with intraperitoneal injection, and various combinations of peptide treatments with Pep-3-EcTI, Pep-BbKI, Pep-BrTI, dexamethasone, and non-treated controls (SAL-saline). Respiratory system resistance, airway resistance, lung tissue resistance, exhaled nitric oxide, linear mean intercept, immune cell counts in the bronchoalveolar lavage fluid, cytokine expression, extracellular matrix remodeling, and oxidative stress in the airways and alveolar septa were evaluated on day 28. Results showed increased respiratory parameters, inflammatory markers, and tissue remodeling in the ACO group compared to controls. Treatment with the peptides or DX attenuated or reversed these responses, with the peptides showing effectiveness in controlling hyperresponsiveness, inflammation, remodeling, and oxidative stress markers. These peptides demonstrated an efficacy comparable to that of corticosteroids in the ACO model. However, this study highlights the need for further research to assess their safety, mechanisms of action, and potential translation to clinical studies before considering these peptides for human use

Protective Effects of Anti-IL17 on Acute Lung Injury Induced by LPS in Mice

Introduction: T helper 17 (Th17) has been implicated in a variety of inflammatory lung and immune system diseases. However, little is known about the expression and biological role of IL-17 in acute lung injury (ALI). We investigated the mechanisms involved in the effect of anti-IL17 in a model of lipopolysaccharide (LPS)-induced acute lung injury (ALI) in mice.Methods: Mice were pre-treated with anti-IL17, 1h before saline/LPS intratracheal administration alongside non-treated controls and levels of exhaled nitric oxide (eNO), cytokine expression, extracellular matrix remodeling and oxidative stress, as well as immune cell counts in bronchoalveolar lavage fluid (BALF), and respiratory mechanics were assessed in lung tissue.Results: LPS instillation led to an increase in multiple cytokines, proteases, nuclear factor-κB, and Forkhead box P3 (FOXP3), eNO and regulators of the actomyosin cytoskeleton, the number of CD4+ and iNOS-positive cells as well as the number of neutrophils and macrophages in BALF, resistance and elastance of the respiratory system, ARG-1 gene expression, collagen fibers, and actin and 8-iso-PGF2α volume fractions. Pre-treatment with anti-IL17 led to a significant reduction in the level of all assessed factors.Conclusions: Anti-IL17 can protect the lungs from the inflammatory effects of LPS-induced ALI, primarily mediated by the reduced expression of cytokines and oxidative stress. This suggests that further studies using anti-IL17 in a treatment regime would be highly worthwhile

Preventive and therapeutic effect of anti IL-17 in experimental model of pulmonary lesion induced by elastase in C57Bl6 mice

Introdução: As citocinas desenvolvem papel importante na fisiopatologia da DPOC. Estudos sugerem que a IL-17 modula respostas inflamatórias e infecciosas, podendo ser alvo para o tratamento da inflamação pulmonar. Objetivos: Avaliar os efeitos preventivos e terapêuticos do anti IL-17 num modelo de lesão pulmonar induzida pela elastase em camundongos C57Bl6. Métodos: Foram utilizados 32 camundongos C57Bl6, machos, com idade entre 6 e 8 semanas e peso médio de 20-28 gramas, divididos em 4 grupos: 1. GRUPO SAL: os animais receberam solução salina intra-peritoneal (IP) 3 horas antes de serem submetidos à instilação intra-traqueal (IT) de salina, e salina IP nos dias 25, 26 27 e 28 pós instilação IT de salina; 2. GRUPO ELASTASE CONTROLE (EC): receberam salina IP 3 horas antes de receberem elastase IT, e salina IP nos dias 25, 26, 27 e 28 pós instilação de elastase; 3. GRUPO ELASTASE + ANTI IL-17 PREVENTIVO (EP): receberam anti IL-17 IP 3 horas antes de receberem elastase IT, e salina IP nos dias 25, 26, 27 e 28 pós instilação de elastase; 4. GRUPO ELASTASE + ANTI IL-17 TERAPÊUTICO (ET): receberam salina IP 3 horas antes de receberem elastase IT, e anti IL-17 IP nos dias 25, 26, 27 e 28 pós instilação de elastase. No 29º dia, os animais foram anestesiados, traqueostomizados, conectados ao aparelho FlexiVent (Scireq, Montreal, Canadá), e foram avaliados: resistência do sistema respiratório (Rrs), elastância do sistema respiratório (Ers), resistência de vias aéreas (Raw), resistência do parênquima pulmonar (Gtis), elastância do parênquima pulmonar (Htis), óxido nítrico exalado (NOex), e obtida a contagem das células totais do fluido do lavado broncoalveolar (FLBA). Depois, os animais foram exsanguinados, coração e pulmão foram retirados em bloco. Os pulmões foram fixados com formaldeído 4% a uma pressão constante de 20 cmH2O, por 24 horas. Após esse período, os pulmões foram mantidos em álcool 70% por até 36 horas, e em seguida foram preparados para o processamento histológico para avaliação de MMP9, MMP12, TIMP-1, TGF-beta, lumican, biglicano, decorina, fibronectina, iNOS, eNOS, isoprostano 8-iso-PGF-2alfa, NF-Kb, IL-17, IL-1beta, IL-8, TNF-alfa, neutrófilos, e fibras colágenas e elásticas em vias aéreas e septos alveolares. Foi analisado também o intercepto linear médio (Lm). Resultados: Em relação aos parâmetros Rrs, Ers, Raw, Htis, NOex e número de células totais no FLBA houve aumento no grupo EC em comparação ao grupo SAL (p < 0,05). O tratamento preventivo e terapêutico com anti IL-17 diminuiu os valores de Rrs, Ers, Raw e Htis (p < 0,05). Não houve diferença entre os grupos em relação ao Gtis. Em ambos os tratamentos houve redução do NOex comparados ao grupo EC (p < 0,05). Quanto ao número de células totais no FLBA, houve redução no grupo ET em relação ao EC e EP (p < 0,05), porém não houve diferença entre os grupos EC e EP. Ao realizar a contagem do diferencial de células do FLBA, houve redução apenas no número de macrófagos no grupo ET (p < 0,05). O tratamento preventivo e terapêutico com anti IL-17 também diminuiu o número de células positivas para NF-kb, iNOS, MMP9, MMP12, TGF-beta, isoprostano 8-iso-PGF-2alfa, TNF-alfa,IL-8, IL-1beta e IL-17, e contagem de neutrófilos em vias aéreas e nos septos alveolares quando comparados do grupo EC (p < 0,05), assim como a fração de volume de fibras colágenas, decorina e lumican em vias aéreas, e fibras elásticas e fibronectina no parênquima pulmonar (p < 0,05). Houve aumento do intercepto linear médio no grupo EC comparado ao SAL, e o tratamento com anti IL-17 diminuiu esses valores nos grupos EP e ET (p < 0,05). Houve redução de fibras colágenas em septos alveolares e biglicano em vias aéreas no grupo EP, e redução de células positivas para eNOS em vias aéreas somente no grupo ET em relação ao grupo EC (p < 0,05). Não houve diferença entre os grupos EC, EP e ET nos resultados de TIMP-1, fibronectina em vias aéreas e lumican nos septos alveolares. Conclusão: O anticorpo monoclonal anti IL-17 neste modelo de tratamento, tanto administrado de forma preventiva (atuando no bloqueio imediato da ação da elastase) quanto de forma terapêutica (depois das alterações estabelecidas pelas lesões iniciais), contribuiu para melhora da maioria dos parâmetros funcionais avaliados na mecânica pulmonar, inflamação, remodelamento da matriz extracelular e a resposta ao estresse oxidativo nos septos alveolares e nas paredes das vias aéreas neste modelo de lesão pulmonar induzida pela elastase administrada por via intra-traquealIntroduction: Cytokines play an important role in the pathophysiology of COPD. Studies suggest that IL-17 modulates inflammatory and infectious responses and may be targeted for treatment of pulmonary inflammation. Objectives: To evaluate preventive and therapeutic effects of antiIL-17 in a model of lung injury induced by elastase in C57Bl6 mice. Methods: Thirtytwo male C57Bl6 mice, aged 6 to 8 weeks and mean weight of 20-28 grams, were divided into 4 groups: 1. SAL GROUP: animals received intra-peritoneal saline (IP) 3 hours before being submitted to intra tracheal (IT) instillation of saline, and IP saline on days 25, 26, 27 and 28 after saline IT instillation; 2. ELASTASE CONTROL (EC) GROUP: received IP saline 3 hours prior to IT elastase, and IP saline on days 25, 26, 27 and 28 post elastase instillation; 3. ELASTASE + PREVENTIVE ANTI IL-17 (EP) GROUP: received anti IL-17 IP 3 hours before receiving IT elastase, and IP saline on days 25, 26, 27 and 28 post elastase instillation; 4. ELASTASE + THERAPEUTIC ANTI IL-17 (ET) GROUP: received IP saline 3 hours before receiving elastase IT, and anti IL- 17 IP on days 25, 26, 27 and 28 post elastase instillation. On 29th day, the animals were anesthetized, tracheostomized, connected to FlexiVent apparatus (Scireq, Montreal, Canada), and evaluated: respiratory system resistance (Rrs), respiratory system elastance (Ers), airway resistance (Raw), pulmonary parenchyma resistance (Gtis), pulmonary parenchyma elastance (Htis), exhaled nitric oxide (NOex), and total bronchoalveolar lavage fluid (FLBA) cell count. Afterwards, the animals were exsanguinated, heart and lung were removed in block. The lungs were fixed with 4% formaldehyde at a constant pressure of 20 cmH2O for 24 hours, maintained in 70% alcohol for up to 36 hours and then prepared for histological processing for MMP9, MMP12, TIMP-1, TGF-Beta, lumican, biglycan, decorin, fibronectin, iNOS, eNOS, isoprostane 8-iso-PGF-2Alpha, NF-kb, IL-17, IL-1Beta, IL- 8, TNF-Alpha, neutrophils, and collagen and elastic fibers in airways and alveolar septa. The mean linear intercept (Lm) was also analyzed. Results: In relation to the parameters Rrs, Ers, Raw, Htis, NOex and number of total cells in FLBA, there was an increase in EC group compared to SAL group (p < 0.05). Preventive and therapeutic treatment with anti IL-17 decreased the values of Rrs, Ers, Raw and Htis (p < 0.05). There was no difference between groups regarding to Gtis. In both treatments there was NOex reduction compared to EC group (p < 0.05). Regarding the number of total cells in FLBA, there was reduction in ET group in relation to EC and EP (p < 0.05), but there was no difference between EC and EP groups. When counting the FLBA cell differential, there was reduction only in number of macrophages in ET group (p < 0.05). Preventive and therapeutic treatment with anti IL-17 also decreased the number of positive cells for NF-kb, iNOS, MMP9, MMP12, TGF-Beta, isoprostane 8-iso-PGF-2Alpha, TNF-Alfa, IL-8 , IL-1Beta and IL-17, and number of neutrophils, in airways and alveolar septa when compared to EC group (p < 0.05), as well as the volume fraction of collagen fibers, decorin and lumican in airways, and elastic fibers and fibronectin in alveolar septa (p < 0.05). There was increase in mean linear intercept in EC group compared to SAL, and treatment with anti IL-17 decreased the values of Lm in EP and ET groups (p < 0.05). There was reduction of collagen fibers in alveolar septa and biglycan in airways in EP group, and reduction of positive cells for eNOS in airways only in ET group in relation to EC group (p < 0.05). There was no difference between EC, EP and ET groups in results of TIMP-1, fibronectin in airways and lumican in alveolar septa. Conclusion: Anti IL-17 monoclonal antibody in this treatment model, both administered as a preventive way (acting on the immediate block of elastase action) and therapeutically (after changes established by the initial lesions), contributed to improvement of most functional parameters evaluated in pulmonary mechanics, inflammation, remodeling of extracellular matrix and response to oxidative stress in alveolar septa and airways in this model of lung injury induced by intratracheal elastase

Effect of Anti-IL17 Antibody Treatment Alone and in Combination With Rho-Kinase Inhibitor in a Murine Model of Asthma

Background: Interleukin-17 (IL-17) and Rho-kinase (ROCK) play an important role in regulating the expression of inflammatory mediators, immune cell recruitment, hyper-responsiveness, tissue remodeling, and oxidative stress. Modulation of IL-17 and ROCK proteins may represent a promising approach for the treatment of this disease.Objective: To study the effects of an anti-IL17 neutralizing antibody and ROCK inhibitor treatments, separately and in combination, in a murine model of chronic allergy-induced lung inflammation.Methods: Sixty-four BALBc mice, were divided into eight groups (n = 8): SAL (saline-instilled); OVA (exposed-ovalbumin); SAL-RHOi (saline and ROCK inhibitor), OVA-RHOi (exposed-ovalbumin and ROCK inhibitor); SAL-anti-IL17 (saline and anti-IL17); OVA-anti-IL17 (exposed-ovalbumin and anti-IL17); SAL-RHOi-anti-IL17 (saline, ROCK inhibitor and anti-IL17); and OVA-RHOi-anti-IL17 (exposed-ovalbumin, anti-IL17, and ROCK inhibitor). A 28-day protocol of albumin treatment was used for sensitization and induction of pulmonary inflammation. The anti-IL17A neutralizing antibody (7.5 μg per treatment) was administered by intraperitoneal injection and ROCK inhibitor (Y-27632) intranasally (10 mg/kg), 1 h prior to each ovalbumin challenge (days 22, 24, 26, and 28).Results: Treatment with the anti-IL17 neutralizing antibody and ROCK inhibitor attenuated the percentage of maximal increase of respiratory system resistance and respiratory system elastance after challenge with methacholine and the inflammatory response markers evaluated (CD4+, CD8+, ROCK1, ROCK2, IL-4, IL-5, IL-6, IL-10 IL-13, IL-17, TNF-α, TGF-β, NF-κB, dendritic cells, iNOS, MMP-9, MMP-12, TIMP-1, FOXP3, isoprostane, biglycan, decorin, fibronectin, collagen fibers content and gene expression of IL-17, VAChT, and arginase) compared to the OVA group (p &lt; 0.05). Treatment with anti-IL17 and the ROCK inhibitor together resulted in potentiation in decreasing the percentage of resistance increase after challenge with methacholine, decreased the number of IL-5 positive cells in the airway, and reduced, IL-5, TGF-β, FOXP3, ROCK1 and ROCK2 positive cells in the alveolar septa compared to the OVA-RHOi and OVA-anti-IL17 groups (p &lt; 0.05).Conclusion: Anti-IL17 treatment alone or in conjunction with the ROCK inhibitor, modulates airway responsiveness, inflammation, tissue remodeling, and oxidative stress in mice with chronic allergic lung inflammation

Effect of VAChT reduction on lung alterations induced by exposure to iron particles in an asthma model

Abstract Introduction Pollution harms the health of people with asthma. The effect of the anti-inflammatory cholinergic pathway in chronic allergic inflammation associated to pollution is poorly understood. Methods One hundred eight animals were divided into 18 groups (6 animals). Groups included: wild type mice (WT), genetically modified with reduced VAChT (VAChTKD), and those sensitized with ovalbumin (VAChTKDA), exposed to metal powder due to iron pelletizing in mining company (Local1) or 3.21 miles away from a mining company (Local2) in their locations for 2 weeks during summer and winter seasons. It was analyzed for hyperresponsivity, inflammation, remodeling, oxidative stress responses and the cholinergic system. Results During summer, animals without changes in the cholinergic system revealed that Local1 exposure increased the hyperresponsiveness (%Rrs, %Raw), and inflammation (IL-17) relative to vivarium animals, while animals exposed to Local2 also exhibited elevated IL-17. During winter, animals without changes in the cholinergic system revealed that Local2 exposure increased the hyperresponsiveness (%Rrs) relative to vivarium animals. Comparing the exposure local of these animals during summer, animals exposed to Local1 showed elevated %Rrs, Raw, and IL-5 compared to Local 2, while in winter, Local2 exposure led to more IL-17 than Local1. Animals with VAChT attenuation displayed increased %Rrs, NFkappaB, IL-5, and IL-13 but reduced alpha-7 compared to animals without changes in the cholinergic system WT. Animals with VAChT attenuation and asthma showed increased the hyperresponsiveness, all inflammatory markers, remodeling and oxidative stress compared to animals without chronic lung inflammation. Exposure to Local1 exacerbated the hyperresponsiveness, oxidative stressand inflammation in animals with VAChT attenuation associated asthma, while Local2 exposure led to increased inflammation, remodeling and oxidative stress. Conclusions Reduced cholinergic signaling amplifies lung inflammation in a model of chronic allergic lung inflammation. Furthermore, when associated with pollution, it can aggravate specific responses related to inflammation, oxidative stress, and remodeling