Dynamics of IL-4 and IL-13 expression in the airways of sheep following allergen challenge
- Liravi, Bahar, Piedrafita, David, Nguyen, Gary, Bischof, Robert
- Authors: Liravi, Bahar , Piedrafita, David , Nguyen, Gary , Bischof, Robert
- Date: 2015
- Type: Text , Journal article
- Relation: BMC Pulmonary Medicine Vol. 15, no. 1 (2015), p. 1-11
- Full Text:
- Reviewed:
- Description:
Background: IL-4 and IL-13 play a critical yet poorly understood role in orchestrating the recruitment and activation of effector cells of the asthmatic response and driving the pathophysiology of allergic asthma. The house dust mite (HDM) sheep asthma model displays many features of the human condition and is an ideal model to further elucidate the involvement of these critical Th
2 cytokines. We hypothesized that airway exposure to HDM allergen would induce or elevate the expression profile of IL-4 and IL-13 during the allergic airway response in this large animal model of asthma. Methods: Bronchoalveolar lavage (BAL) samples were collected from saline-and house dust mite (HDM)-challenged lung lobes of sensitized sheep from 0 to 48h post-challenge. BAL cytokines (IL-4, IL-13, IL-6, IL-10, TNF-aα) were each measured by ELISA. IL-4 and IL-13 expression was assessed in BAL leukocytes by flow cytometry and in airway tissue sections by immunohistology. Results: IL-4 and IL-13 were increased in BAL samples following airway allergen challenge. HDM challenge resulted in a significant increase in BAL IL-4 levels at 4h compared to saline-challenged airways, while BAL IL-13 levels were elevated at all time-points after allergen challenge. IL-6 levels were maintained following HDM challenge but declined after saline challenge, while HDM administration resulted in an acute elevation in IL-10 at 4h but no change in TNF-aα levels over time. Lymphocytes were the main early source of IL-4, with IL-4 release by alveolar macrophages (AMs) prominent from 24h post-allergen challenge. IL-13 producing AMs were increased at 4 and 24h following HDM compared to saline challenge, and tissue staining provided evidence of IL-13 expression in airway epithelium as well as immune cells in airway tissue. Conclusion: In a sheep model of allergic asthma, airway inflammation is accompanied by the temporal release of key cytokines following allergen exposure that primarily reflects the Th2 -driven nature of the immune response in asthma. The present study demonstrates for the first time the involvement of IL-4 and IL-13 in a relevant large animal model of allergic airways disease. © 2015 Liravi et al.
- Authors: Liravi, Bahar , Piedrafita, David , Nguyen, Gary , Bischof, Robert
- Date: 2015
- Type: Text , Journal article
- Relation: BMC Pulmonary Medicine Vol. 15, no. 1 (2015), p. 1-11
- Full Text:
- Reviewed:
- Description:
Background: IL-4 and IL-13 play a critical yet poorly understood role in orchestrating the recruitment and activation of effector cells of the asthmatic response and driving the pathophysiology of allergic asthma. The house dust mite (HDM) sheep asthma model displays many features of the human condition and is an ideal model to further elucidate the involvement of these critical Th
2 cytokines. We hypothesized that airway exposure to HDM allergen would induce or elevate the expression profile of IL-4 and IL-13 during the allergic airway response in this large animal model of asthma. Methods: Bronchoalveolar lavage (BAL) samples were collected from saline-and house dust mite (HDM)-challenged lung lobes of sensitized sheep from 0 to 48h post-challenge. BAL cytokines (IL-4, IL-13, IL-6, IL-10, TNF-aα) were each measured by ELISA. IL-4 and IL-13 expression was assessed in BAL leukocytes by flow cytometry and in airway tissue sections by immunohistology. Results: IL-4 and IL-13 were increased in BAL samples following airway allergen challenge. HDM challenge resulted in a significant increase in BAL IL-4 levels at 4h compared to saline-challenged airways, while BAL IL-13 levels were elevated at all time-points after allergen challenge. IL-6 levels were maintained following HDM challenge but declined after saline challenge, while HDM administration resulted in an acute elevation in IL-10 at 4h but no change in TNF-aα levels over time. Lymphocytes were the main early source of IL-4, with IL-4 release by alveolar macrophages (AMs) prominent from 24h post-allergen challenge. IL-13 producing AMs were increased at 4 and 24h following HDM compared to saline challenge, and tissue staining provided evidence of IL-13 expression in airway epithelium as well as immune cells in airway tissue. Conclusion: In a sheep model of allergic asthma, airway inflammation is accompanied by the temporal release of key cytokines following allergen exposure that primarily reflects the Th2 -driven nature of the immune response in asthma. The present study demonstrates for the first time the involvement of IL-4 and IL-13 in a relevant large animal model of allergic airways disease. © 2015 Liravi et al.
Discovery of novel Schistosoma japonicum antigens using a targeted protein microarray approach
- McWilliam, Hamish, Driguez, Patrick, Piedrafita, David, McManus, Donald, Meeusen, Els
- Authors: McWilliam, Hamish , Driguez, Patrick , Piedrafita, David , McManus, Donald , Meeusen, Els
- Date: 2014
- Type: Text , Journal article
- Relation: Parasites and Vectors Vol. 7, no. 1 (2014), p. 1-11
- Full Text:
- Reviewed:
- Description: Background: Novel vaccine candidates against Schistosoma japonicum are required, and antigens present in the vulnerable larval developmental stage are attractive targets. Post-genomic technologies are now available which can contribute to such antigen discovery. Methods. A schistosome-specific protein microarray was probed using the local antibody response against migrating larvae. Antigens were assessed for their novelty and predicted larval expression and host-exposed features. One antigen was further characterised and its sequence and structure were analysed in silico. Real-time polymerase chain reaction was used to analyse transcript expression throughout development, and immunoblotting and enzyme-linked immunosorbent assays employed to determine antigen recognition by antibody samples. Results: Several known and novel antigens were discovered, two of which showed up-regulated transcription in schistosomula. One novel antigen, termed S. japonicum Ly-6-like protein 1 (Sj-L6L-1), was further characterised and shown to share structural and sequence features with the Ly-6 protein family. It was found to be present in the worm tegument and expressed in both the larval and adult worms, but was found to be antigenic only in the lungs that the larvae migrate to and traverse. Conclusions: This study represents a novel approach to vaccine antigen discovery and may contribute to schistosome vaccine development against this important group of human and veterinary pathogens. © 2014 McWilliam et al.; licensee BioMed Central Ltd.
- Authors: McWilliam, Hamish , Driguez, Patrick , Piedrafita, David , McManus, Donald , Meeusen, Els
- Date: 2014
- Type: Text , Journal article
- Relation: Parasites and Vectors Vol. 7, no. 1 (2014), p. 1-11
- Full Text:
- Reviewed:
- Description: Background: Novel vaccine candidates against Schistosoma japonicum are required, and antigens present in the vulnerable larval developmental stage are attractive targets. Post-genomic technologies are now available which can contribute to such antigen discovery. Methods. A schistosome-specific protein microarray was probed using the local antibody response against migrating larvae. Antigens were assessed for their novelty and predicted larval expression and host-exposed features. One antigen was further characterised and its sequence and structure were analysed in silico. Real-time polymerase chain reaction was used to analyse transcript expression throughout development, and immunoblotting and enzyme-linked immunosorbent assays employed to determine antigen recognition by antibody samples. Results: Several known and novel antigens were discovered, two of which showed up-regulated transcription in schistosomula. One novel antigen, termed S. japonicum Ly-6-like protein 1 (Sj-L6L-1), was further characterised and shown to share structural and sequence features with the Ly-6 protein family. It was found to be present in the worm tegument and expressed in both the larval and adult worms, but was found to be antigenic only in the lungs that the larvae migrate to and traverse. Conclusions: This study represents a novel approach to vaccine antigen discovery and may contribute to schistosome vaccine development against this important group of human and veterinary pathogens. © 2014 McWilliam et al.; licensee BioMed Central Ltd.
Effective pulmonary delivery of an aerosolized plasmid DNA vaccine via surface acoustic wave nebulization
- Rajapaksa, Anushi, Ho, Jenny, Qi, Aaisha, Bischof, Robert, Nguyen, Tri-Hung, Tate, Michelle, Piedrafita, David, McIntosh, Michelle, Yeo, Leslie, Meeusen, Els, Coppel, Ross, Friend, James
- Authors: Rajapaksa, Anushi , Ho, Jenny , Qi, Aaisha , Bischof, Robert , Nguyen, Tri-Hung , Tate, Michelle , Piedrafita, David , McIntosh, Michelle , Yeo, Leslie , Meeusen, Els , Coppel, Ross , Friend, James
- Date: 2014
- Type: Text , Journal article
- Relation: Respiratory Research Vol. 15, no. 1 (2014), p. 1-12
- Full Text:
- Reviewed:
- Description: Background: Pulmonary-delivered gene therapy promises to mitigate vaccine safety issues and reduce the need for needles and skilled personnel to use them. While plasmid DNA (pDNA) offers a rapid route to vaccine production without side effects or reliance on cold chain storage, its delivery to the lung has proved challenging. Conventional methods, including jet and ultrasonic nebulizers, fail to deliver large biomolecules like pDNA intact due to the shear and cavitational stresses present during nebulization.Methods: In vitro structural analysis followed by in vivo protein expression studies served in assessing the integrity of the pDNA subjected to surface acoustic wave (SAW) nebulisation. In vivo immunization trials were then carried out in rats using SAW nebulized pDNA (influenza A, human hemagglutinin H1N1) condensate delivered via intratracheal instillation. Finally, in vivo pulmonary vaccinations using pDNA for influenza was nebulized and delivered via a respirator to sheep.Results: The SAW nebulizer was effective at generating pDNA aerosols with sizes optimal for deep lung delivery. Successful gene expression was observed in mouse lung epithelial cells, when SAW-nebulized pDNA was delivered to male Swiss mice via intratracheal instillation. Effective systemic and mucosal antibody responses were found in rats via post-nebulized, condensed fluid instillation. Significantly, we demonstrated the suitability of the SAW nebulizer to administer unprotected pDNA encoding an influenza A virus surface glycoprotein to respirated sheep via aerosolized inhalation.Conclusion: Given the difficulty of inducing functional antibody responses for DNA vaccination in large animals, we report here the first instance of successful aerosolized inhalation delivery of a pDNA vaccine in a large animal model relevant to human lung development, structure, physiology, and disease, using a novel, low-power (<1 W) surface acoustic wave (SAW) hand-held nebulizer to produce droplets of pDNA with a size range suitable for delivery to the lower respiratory airways. © 2014 Rajapaksa et al.; licensee BioMed Central Ltd.
- Authors: Rajapaksa, Anushi , Ho, Jenny , Qi, Aaisha , Bischof, Robert , Nguyen, Tri-Hung , Tate, Michelle , Piedrafita, David , McIntosh, Michelle , Yeo, Leslie , Meeusen, Els , Coppel, Ross , Friend, James
- Date: 2014
- Type: Text , Journal article
- Relation: Respiratory Research Vol. 15, no. 1 (2014), p. 1-12
- Full Text:
- Reviewed:
- Description: Background: Pulmonary-delivered gene therapy promises to mitigate vaccine safety issues and reduce the need for needles and skilled personnel to use them. While plasmid DNA (pDNA) offers a rapid route to vaccine production without side effects or reliance on cold chain storage, its delivery to the lung has proved challenging. Conventional methods, including jet and ultrasonic nebulizers, fail to deliver large biomolecules like pDNA intact due to the shear and cavitational stresses present during nebulization.Methods: In vitro structural analysis followed by in vivo protein expression studies served in assessing the integrity of the pDNA subjected to surface acoustic wave (SAW) nebulisation. In vivo immunization trials were then carried out in rats using SAW nebulized pDNA (influenza A, human hemagglutinin H1N1) condensate delivered via intratracheal instillation. Finally, in vivo pulmonary vaccinations using pDNA for influenza was nebulized and delivered via a respirator to sheep.Results: The SAW nebulizer was effective at generating pDNA aerosols with sizes optimal for deep lung delivery. Successful gene expression was observed in mouse lung epithelial cells, when SAW-nebulized pDNA was delivered to male Swiss mice via intratracheal instillation. Effective systemic and mucosal antibody responses were found in rats via post-nebulized, condensed fluid instillation. Significantly, we demonstrated the suitability of the SAW nebulizer to administer unprotected pDNA encoding an influenza A virus surface glycoprotein to respirated sheep via aerosolized inhalation.Conclusion: Given the difficulty of inducing functional antibody responses for DNA vaccination in large animals, we report here the first instance of successful aerosolized inhalation delivery of a pDNA vaccine in a large animal model relevant to human lung development, structure, physiology, and disease, using a novel, low-power (<1 W) surface acoustic wave (SAW) hand-held nebulizer to produce droplets of pDNA with a size range suitable for delivery to the lower respiratory airways. © 2014 Rajapaksa et al.; licensee BioMed Central Ltd.
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