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5. Critical role of interferons in gastrointestinal injury repair

Author

McElrath, Constance, Espinosa, Vanessa, Lin, Jian-Da, Peng, Jianya, Sridhar, Raghavendra, Dutta, Orchi, Tseng, Hsiang-Chi, Smirnov, Sergey V., Risman, Heidi, Sandoval, Marvin J., Davra, Viralkumar, Chang, Yun-Juan, Pollack, Brian P., Birge, Raymond B., Galan, Mark, Rivera, Amariliz, Durbin, Joan E., and Kotenko, Sergei V.

Published
2021
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8. MDA5 is an essential vita-PAMP sensor necessary for host resistance against Aspergillus fumigatus

Author

Wang, Xi, Caffrey-Carr, Alayna K., Liu, Ko-wei, Espinosa, Vanessa, Croteau, Walburga, Dhingra, Sourabh, Rivera, Amariliz, Cramer, Robert A., and Obar, Joshua J.

Subjects
Male, Interferon-Induced Helicase, IFIH1, Aspergillus fumigatus, Pathogen-Associated Molecular Pattern Molecules, Article, Chemokine CXCL10, Mice, Inbred C57BL, Mice, Receptors, Pattern Recognition, Animals, Female, Interferons, Adaptor Proteins, Signal Transducing, Signal Transduction
Abstract

RIG-I like receptors (RLR) are cytosolic RNA sensors that signal through the MAVS adaptor to activate interferon responses against viruses. Whether the RLR family has broader effects on host immunity against other pathogen families remains to be fully explored. Herein we demonstrate that MDA5/MAVS signaling was essential for host resistance against pulmonary Aspergillus fumigatus challenge through the regulation of antifungal leukocyte responses in mice. Activation of MDA5/MAVS signaling was driven by dsRNA from live A. fumigatus serving as a key vitality-sensing pattern-recognition receptor. Interestingly, induction of type I interferons after A. fumigatus challenge was only partially dependent on MDA5/MAVS signaling, whereas type III interferon expression was entirely dependent on MDA5/MAVS signaling. Ultimately, type I and III interferon signaling drove the expression of CXCL10. Furthermore, the MDA5/MAVS-dependent interferon response was critical for the induction of optimal antifungal neutrophil killing of A. fumigatus spores. In conclusion, our data broaden the role of the RLR family to include a role in regulating antifungal immunity against A. fumigatus.

Published
2020

11. First Line of Defense: Innate Cell-Mediated Control of Pulmonary Aspergillosis.

Author

Espinosa, Vanessa and Rivera, Amariliz

Subjects
ASPERGILLUS fumigatus, NATURAL immunity, PULMONARY aspergillosis
Abstract

Mycotic infections and their effect on the human condition have been widely overlooked and poorly surveilled by many health organizations even though mortality rates have increased in recent years. The increased usage of immunosuppressive and myeloablative therapies for the treatment of malignant as well as non-malignant diseases has contributed significantly to the increased incidence of fungal infections. Invasive fungal infections have been found to be responsible for at least 1.5 million deaths worldwide. About 90% of these deaths can be attributed to Cryptococcus, Candida, Aspergillus, and Pneumocystis. A better understanding of how the host immune system contains fungal infection is likely to facilitate the development of much needed novel antifungal therapies. Innate cells are responsible for the rapid recognition and containment of fungal infections and have been found to play essential roles in defense against multiple fungal pathogens. In this review we summarize our current understanding of host-fungi interactions with a focus on mechanisms of innate cell-mediated recognition and control of pulmonary aspergillosis. [ABSTRACT FROM AUTHOR]

Published
2016
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12. IL-1α Signaling Is Critical for Leukocyte Recruitment after Pulmonary Aspergillus fumigatus Challenge.

Author

Caffrey, Alayna K., Lehmann, Margaret M., Zickovich, Julianne M., Espinosa, Vanessa, Shepardson, Kelly M., Watschke, Christopher P., Hilmer, Kimberly M., Thammahong, Arsa, Barker, Bridget M., Rivera, Amariliz, Cramer, Robert A., and Obar, Joshua J.

Subjects
INTERLEUKIN-1, LEUCOCYTES, ASPERGILLUS fumigatus, LUNG infections, MACROPHAGES
Abstract

Aspergillus fumigatus is a mold that causes severe pulmonary infections. Our knowledge of how A. fumigatus growth is controlled in the respiratory tract is developing, but still limited. Alveolar macrophages, lung resident macrophages, and airway epithelial cells constitute the first lines of defense against inhaled A. fumigatus conidia. Subsequently, neutrophils and inflammatory CCR2+ monocytes are recruited to the respiratory tract to prevent fungal growth. However, the mechanism of neutrophil and macrophage recruitment to the respiratory tract after A. fumigatus exposure remains an area of ongoing investigation. Here we show that A. fumigatus pulmonary challenge induces expression of the inflammasome-dependent cytokines IL-1β and IL-18 within the first 12 hours, while IL-1α expression continually increases over at least the first 48 hours. Strikingly, Il1r1-deficient mice are highly susceptible to pulmonary A. fumigatus challenge exemplified by robust fungal proliferation in the lung parenchyma. Enhanced susceptibility of Il1r1-deficient mice correlated with defects in leukocyte recruitment and anti-fungal activity. Importantly, IL-1α rather than IL-1β was crucial for optimal leukocyte recruitment. IL-1α signaling enhanced the production of CXCL1. Moreover, CCR2+ monocytes are required for optimal early IL-1α and CXCL1 expression in the lungs, as selective depletion of these cells resulted in their diminished expression, which in turn regulated the early accumulation of neutrophils in the lung after A. fumigatus challenge. Enhancement of pulmonary neutrophil recruitment and anti-fungal activity by CXCL1 treatment could limit fungal growth in the absence of IL-1α signaling. In contrast to the role of IL-1α in neutrophil recruitment, the inflammasome and IL-1β were only essential for optimal activation of anti-fungal activity of macrophages. As such, Pycard-deficient mice are mildly susceptible to A. fumigatus infection. Taken together, our data reveal central, non-redundant roles for IL-1α and IL-1β in controlling A. fumigatus infection in the murine lung. [ABSTRACT FROM AUTHOR]

Published
2015
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13. Inflammatory Monocytes Orchestrate Innate Antifungal Immunity in the Lung.

Author

Espinosa, Vanessa, Jhingran, Anupam, Dutta, Orchi, Kasahara, Shinji, Donnelly, Robert, Du, Peicheng, Rosenfeld, Jeffrey, Leiner, Ingrid, Chen, Chiann-Chyi, Ron, Yacov, Hohl, Tobias M., and Rivera, Amariliz

Subjects
*MONOCYTES, *ANTIFUNGAL agents, *ASPERGILLUS fumigatus, *IMMUNOCOMPROMISED patients, *CHEMOKINE receptors, *DENDRITIC cells, *LUNG diseases
Abstract

Aspergillus fumigatus is an environmental fungus that causes invasive aspergillosis (IA) in immunocompromised patients. Although -CC-chemokine receptor-2 (CCR2) and Ly6C-expressing inflammatory monocytes (CCR2+Mo) and their derivatives initiate adaptive pulmonary immune responses, their role in coordinating innate immune responses in the lung remain poorly defined. Using conditional and antibody-mediated cell ablation strategies, we found that CCR2+Mo and monocyte-derived dendritic cells (Mo-DCs) are essential for innate defense against inhaled conidia. By harnessing fluorescent Aspergillus reporter (FLARE) conidia that report fungal cell association and viability in vivo, we identify two mechanisms by which CCR2+Mo and Mo-DCs exert innate antifungal activity. First, CCR2+Mo and Mo-DCs condition the lung inflammatory milieu to augment neutrophil conidiacidal activity. Second, conidial uptake by CCR2+Mo temporally coincided with their differentiation into Mo-DCs, a process that resulted in direct conidial killing. Our findings illustrate both indirect and direct functions for CCR2+Mo and their derivatives in innate antifungal immunity in the lung. [ABSTRACT FROM AUTHOR]

Published
2014
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14. Carbonic anhydrase enzymes regulate mast cell–mediated inflammation

Author

Henry, Everett K., Sy, Chandler B., Inclan-Rico, Juan M., Espinosa, Vanessa, Ghanny, Saleena S., Dwyer, Daniel F., Soteropoulos, Patricia, Rivera, Amariliz, and Siracusa, Mark C.

Subjects
Brief Definitive Report
Abstract

Type 2 cytokine responses are necessary for the development of protective immunity to helminth parasites but also cause the inflammation associated with allergies and asthma. Recent studies have found that peripheral hematopoietic progenitor cells contribute to type 2 cytokine–mediated inflammation through their enhanced ability to develop into mast cells. In this study, we show that carbonic anhydrase (Car) enzymes are up-regulated in type 2–associated progenitor cells and demonstrate that Car enzyme inhibition is sufficient to prevent mouse mast cell responses and inflammation after Trichinella spiralis infection or the induction of food allergy–like disease. Further, we used CRISPR/Cas9 technology and illustrate that genetically editing Car1 is sufficient to selectively reduce mast cell development. Finally, we demonstrate that Car enzymes can be targeted to prevent human mast cell development. Collectively, these experiments identify a previously unrecognized role for Car enzymes in regulating mast cell lineage commitment and suggest that Car enzyme inhibitors may possess therapeutic potential that can be used to treat mast cell–mediated inflammation.

Published
2016
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15. MDA5 Is an Essential Sensor of a Pathogen-Associated Molecular Pattern Associated with Vitality That Is Necessary for Host Resistance against Aspergillus fumigatus.

Author

Xi Wang, Caffrey-Carr, Alayna K., Ko-wei Liu, Espinosa, Vanessa, Walburga Croteau, Dhingra, Sourabh, Rivera, Amariliz, Cramer, Robert A., and Obar, Joshua J.

Subjects
*ASPERGILLUS fumigatus, *DISEASE resistance of plants, *PATTERN perception receptors, *FAMILY roles
Abstract

RIG-I-like receptors (RLR) are cytosolic RNA sensors that signal through the MAVS adaptor to activate IFN responses against viruses. Whether the RLR family has broader effects on host immunity against other pathogen families remains to be fully explored. In this study, we demonstrate that MDA5/MAVS signaling was essential for host resistance against pulmonary Aspergillus fumigatus challenge through the regulation of antifungal leukocyte responses in mice. Activation of MDA5/MAVS signaling was driven by dsRNA from live A. fumigatus serving as a key vitality-sensing pattern recognition receptor. Interestingly, induction of type I IFNs after A. fumigatus challenge was only partially dependent on MDA5/MAVS signaling, whereas type III IFN expression was entirely dependent on MDA5/MAVS signaling. Ultimately, type I and III IFN signaling drove the expression of CXCL10. Furthermore, the MDA5/MAVS-dependent IFN response was critical for the induction of optimal antifungal neutrophil killing of A. fumigatus spores. In conclusion, our data broaden the role of the RLR family to include a role in regulating antifungal immunity against A. fumigatus. [ABSTRACT FROM AUTHOR]

Published
2020
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16. Innate cells and STAT1-dependent signals orchestrate vaccine-induced protection against invasive Cryptococcus infection.

Author

Wang K, Espinosa V, Wang Y, Lemenze A, Kumamoto Y, Xue C, and Rivera A

Subjects
Animals, Female, Mice, Dendritic Cells immunology, Interferon-gamma immunology, Interferon-gamma metabolism, Mice, Inbred C57BL, Mice, Knockout, Monocytes immunology, Neutrophils immunology, STAT1 Transcription Factor genetics, STAT1 Transcription Factor metabolism, STAT1 Transcription Factor immunology, Cryptococcosis immunology, Cryptococcosis prevention & control, Cryptococcosis microbiology, Cryptococcus neoformans immunology, Cryptococcus neoformans genetics, Fungal Vaccines immunology, Fungal Vaccines administration & dosage, Immunity, Innate
Abstract

Fungal pathogens are underappreciated causes of significant morbidity and mortality worldwide. In previous studies, we determined that a heat-killed, Cryptococcus neoformans fbp1-deficient strain (HK-fbp1) is a potent vaccine candidate. We determined that vaccination with HK-fbp1 confers protective immunity against lethal Cryptococcosis in an interferon γ (IFNγ)-dependent manner. In this study, we set out to uncover cellular sources and relevant targets of the protective effects of IFNγ in response to the HK-fbp1 vaccine. We found that early IFNγ production peaks at day 3 and that monocytes and neutrophils are important sources of this cytokine after vaccination. Neutralization of IFNγ at day 3 results in impaired CCR2 + monocyte recruitment and reduced differentiation into monocyte-derived dendritic cells (Mo-DC). In turn, depletion of CCR2 + cells prior to immunization results in impaired activation of IFNγ-producing CD4 and CD8 T cells. Thus, monocytes are important targets of innate IFNγ and help promote further IFNγ production by lymphocytes. We employed monocyte-fate mapper and conditional STAT1 knockout mice to uncover that STAT1 activation in CD11c + cells, including alveolar macrophages, Mo-DCs, and monocyte-derived macrophages (Mo-Mac) is essential for HK-fbp1 vaccine-induced protection. Altogether, our aggregate findings suggest critical roles for innate cells as orchestrators of vaccine-induced protection against Cryptococcus infection.IMPORTANCEThe number of patients susceptible to invasive fungal infections across the world continues to rise at an alarming pace yet current antifungal drugs are often inadequate. Immune-based interventions and novel antifungal vaccines hold the promise of significantly improving patient outcomes. In previous studies, we identified a Cryptococcus neoformans mutant strain (Fbp1-deficient) as a potent, heat-inactivated vaccine candidate capable of inducing homologous and heterologous antifungal protection. In this study, we used a combination of methods together with a cohort of conditional knockout mouse strains to interrogate the roles of innate cells in the orchestration of vaccine-induced antifungal protection. We uncovered novel roles for neutrophils and monocytes as coordinators of a STAT1-dependent cascade of responses that mediate vaccine-induced protection against invasive cryptococcosis. This new knowledge will help guide the future development of much-needed antifungal vaccines., Competing Interests: The authors declare no conflict of interest.

Published
2024
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17. GM-CSF-mediated epithelial-immune cell crosstalk orchestrates pulmonary immunity to Aspergillus fumigatus .

Author

Mills KAM, Westermann F, Espinosa V, Rosiek E, Desai JV, Aufiero MA, Guo Y, Mitchell KA, Tuzlak S, De Feo D, Lionakis MS, Rivera A, Becher B, and Hohl TM

Abstract

Aspergillus fumigatus causes life-threatening mold pneumonia in immune compromised patients, particularly in those with quantitative or qualitative defects in neutrophils. While innate immune cell crosstalk licenses neutrophil antifungal activity in the lung, the role of epithelial cells in this process is unknown. Here, we find that that surfactant protein C (SPC)-expressing lung epithelial cells integrate infection-induced IL-1 and type III interferon signaling to produce granulocyte-macrophage colony-stimulating factor (GM-CSF) preferentially at local sites of fungal infection and neutrophil influx. Using in vivo models that distinguish the role of GM-CSF during acute infection from its homeostatic function in alveolar macrophage survival and surfactant catabolism, we demonstrate that epithelial-derived GM-CSF increases the accumulation and fungicidal activity of GM-CSF-responsive neutrophils, with the latter being essential for host survival. Our findings establish SPC + epithelial cells as a central player in regulating the quality and strength of neutrophil-dependent immunity against inhaled mold pathogens., Highlights: GM-CSF is essential for host defense against A. fumigatus in the lung IL-1 and IFN-λ promote GM-CSF production by lung epithelial cells in parallelEpithelial cell-derived GM-CSF increases neutrophil accumulation and fungal killing capacityEpithelial cells preferentially upregulate GM-CSF in local sites of inflammation.

Published
2024
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18. Cutting Edge: Neutrophils License the Maturation of Monocytes into Effective Antifungal Effectors.

Author

Espinosa V, Dutta O, Heung LJ, Wang K, Chang YJ, Soteropoulos P, Hohl TM, Siracusa MC, and Rivera A

Subjects
Mice, Animals, Antifungal Agents, Reactive Oxygen Species, Aspergillus fumigatus, Monocytes, Neutrophils
Abstract

Neutrophils are critical for the direct eradication of Aspergillus fumigatus conidia, but whether they mediate antifungal defense beyond their role as effectors is unclear. In this study, we demonstrate that neutrophil depletion impairs the activation of protective antifungal CCR2 + inflammatory monocytes. In the absence of neutrophils, monocytes displayed limited differentiation into monocyte-derived dendritic cells, reduced formation of reactive oxygen species, and diminished conidiacidal activity. Upstream regulator analysis of the transcriptional response in monocytes predicted a loss of STAT1-dependent signals as the potential basis for the dysfunction seen in neutrophil-depleted mice. We find that conditional removal of STAT1 on CCR2 + cells results in diminished antifungal monocyte responses, whereas exogenous administration of IFN-γ to neutrophil-depleted mice restores monocyte-derived dendritic cell maturation and reactive oxygen species production. Altogether, our findings support a critical role for neutrophils in antifungal immunity not only as effectors but also as important contributors to antifungal monocyte activation, in part by regulating STAT1-dependent functions., (Copyright © 2022 by The American Association of Immunologists, Inc.)

Published
2022
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19. Dectin-1 Promotes Type I and III Interferon Expression to Support Optimal Antifungal Immunity in the Lung.

Author

Dutta O, Espinosa V, Wang K, Avina S, and Rivera A

Subjects
Animals, Aspergillus fumigatus, Humans, Lectins, C-Type, Lung, Mice, Antifungal Agents, Interferons
Abstract

Pulmonary infections with Aspergillus fumigatus ( Af ) are a significant cause of invasive fungal disease and lead to high morbidity and mortality in diverse populations throughout the world. Currently available antifungal drugs are often ineffective, thus contributing to unacceptably high mortality rates in patients suffering from invasive fungal infections. The use of cytokines as adjunctive immune therapies holds the promise of significantly improving patient outcomes in the future. In recent studies, we identified an essential role for type I and III interferons as regulators of optimal antifungal responses by pulmonary neutrophils during infection with Af . Although various membrane and cytosolic nucleic acid sensors are known to regulate interferon production in response to viruses, the pathways that regulate the production of these cytokines during fungal infection remain uncovered. In the current study, we demonstrate that dectin-1-mediated recognition of β-glucan on the cell wall of the clinically relevant fungal pathogen Aspergillus fumigatus promotes the activation of a protective cascade of type I and III interferon expression. We further demonstrate that exogenous administration of type I and III interferons can rescue inadequate antifungal responses in dectin-1 -/- mice, suggesting the potential therapeutic benefit of these cytokines as activators of antifungal defense in the context of innate defects., (Copyright © 2020 Dutta, Espinosa, Wang, Avina and Rivera.)

Published
2020
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20. The F-Box Protein Fbp1 Shapes the Immunogenic Potential of Cryptococcus neoformans .

Author

Masso-Silva J, Espinosa V, Liu TB, Wang Y, Xue C, and Rivera A

Subjects
Animals, Cryptococcus neoformans genetics, Cryptococcus neoformans pathogenicity, Dendritic Cells immunology, Disease Models, Animal, F-Box Proteins genetics, Gene Deletion, Mice, Monocytes immunology, Survival Analysis, Virulence Factors genetics, Cryptococcus neoformans immunology, F-Box Proteins immunology, Immune Evasion, Meningitis, Cryptococcal microbiology, Meningitis, Cryptococcal pathology, Virulence Factors immunology
Abstract

Cryptococcus neoformans is the main etiologic agent of cryptococcal meningitis and causes a significant number of deadly infections per year. Although it is well appreciated that host immune responses are crucial for defense against cryptococcosis, our understanding of factors that control the development of effective immunity to this fungus remains incomplete. In previous studies, we identified the F-box protein Fbp1 as a novel determinant of C. neoformans virulence. In this study, we found that the hypovirulence of the fbp1 Δ mutant is linked to the development of a robust host immune response. Infection with the fbp1 Δ mutant induces a rapid influx of CCR2 + monocytes and their differentiation into monocyte-derived dendritic cells (mo-DCs). Depletion of CCR2 + monocytes and their derivative mo-DCs resulted in impaired activation of a protective inflammatory response and the rapid death of mice infected with the fbp1 Δ mutant. Mice lacking B and T cells also developed fungal meningitis and succumbed to infection with the fbp1 Δ mutant, demonstrating that adaptive immune responses to the fbp1 Δ mutant help to maintain the long-term survival of the host. Adaptive immune responses to the fbp1 Δ mutant were characterized by enhanced differentiation of Th1 and Th17 CD4 + T cells together with diminished Th2 responses compared to the H99 parental strain. Importantly, we found that the enhanced immunogenicity of fbp1 Δ mutant yeast cells can be harnessed to confer protection against a subsequent infection with the virulent H99 parental strain. Altogether, our findings suggest that Fbp1 functions as a novel virulence factor that shapes the immunogenicity of C. neoformans IMPORTANCE Cryptococcus neoformans is the most common cause of deadly fungal meningitis, with over 270,000 infections per year. Immune responses are critically required for the prevention of cryptococcosis, and patients with impaired immunity and low CD4 + T cell numbers are at high risk of developing these deadly infections. Although it is well appreciated that the development of protective immunity is shaped by the interactions of the host immune system with fungal cells, our understanding of fungal products that influence this process remains poor. In this study, we found that the activity of F-box protein 1 (Fbp1) in highly virulent C. neoformans clinical strain H99 shapes its immunogenicity and thus affects the development of protective immune responses in the host. The identification of this new mechanism of virulence may facilitate the future development of therapeutic interventions aimed at boosting antifungal host immunity., (Copyright © 2018 Masso-Silva et al.)

Published
2018
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21. Expression and targeting of lymphocyte function-associated antigen 1 (LFA-1) on white blood cells for treatment of allergic asthma.

Author

Gupta A, Espinosa V, Galusha LE, Rahimian V, Miro KL, Rivera-Medina A, Kasinathan C, Capitle E, Aguila HA, and Kachlany SC

Subjects
Adolescent, Adult, Animals, Asthma pathology, Bacterial Proteins therapeutic use, Bronchoalveolar Lavage Fluid cytology, CD11a Antigen metabolism, Case-Control Studies, Child, Child, Preschool, Cytokines metabolism, Disease Models, Animal, Female, Humans, Lung pathology, Mice, Inbred BALB C, Middle Aged, Young Adult, Asthma drug therapy, Leukocytes metabolism, Lymphocyte Function-Associated Antigen-1 metabolism, Molecular Targeted Therapy
Abstract

Allergic asthma is a chronic respiratory disease that results from an exaggerated inflammatory response in the airways. Environment stimuli, such as pollen and HDM, cause activation and migration of inflammatory WBCs into the respiratory tract, where they cause lung damage. Migration of these WBCs is dependent on the active configuration of the β2 integrin LFA-1. The experimental therapeutic agent LtxA specifically targets active LFA-1 and causes cell death. We investigated the association between LFA-1 and allergic asthma and hypothesized that targeting LFA-1 with LtxA could be an attractive strategy for treatment of the condition. We examined LFA-1 (CD11a) levels on PBMCs from patients with allergic asthma compared with healthy controls. Patients exhibited a significantly higher percentage of PBMCs expressing LFA-1 than healthy controls. Furthermore, the level of LFA-1 expression on patient PBMCs was greater than on healthy PBMCs. We identified a unique cellular population in patients that consisted of CD4(-) CD11a(hi) cells. We also evaluated LtxA in a HDM extract-induced mouse model for allergic asthma. LtxA caused resolution of disease in mice, as demonstrated by a decrease in BALF WBCs, a reduction in pulmonary inflammation and tissue remodeling, and a decrease in proinflammatory cytokines IL-4, IL-5, IL-9, IL-17F, and IL-23α in lung tissue. LFA-1 may serve as an important marker in allergic asthma, and the elimination of activated WBCs by use of LtxA could be a viable therapeutic strategy for treating patients with this condition., (© Society for Leukocyte Biology.)

Published
2015
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