Circulating neutrophil activation and recruitment during the systemic inflammatory response to cardiac surgery with extracorporeal circulation

Orr, Yishay, Medical Sciences, Faculty of Medicine, UNSW

January 2008

Circulating neutrophil activation occurs during cardiac surgery with extracorporeal circulation (ECC) and is implicated in the pathophysiology of inflammatory tissue injury and peri-operative organ dysfunction. However, neutrophil directed antiinflammatory strategies have failed to demonstrate consistent therapeutic benefit indicating that the nature and significance of peri-operative circulating neutrophil activation remains incompletely defined. In particular, conformational activation of the b2 integrin Mac-1 (CD11b/CD18), which is required for neutrophil adhesion competence and facilitation of effector functions, has not previously been investigated during cardiac surgery, and the relative contribution of cellular activation and bone marrow neutrophil recruitment to peri-operative changes in circulating neutrophil phenotype and function is unknown. A novel whole blood flow cytometric technique was used to analyze circulating neutrophil phenotype (total Mac-1, conformationally-active CD11b, CD10, CD16, L-selectin and P-selectin glycoprotein ligand-1) and function in cardiac surgery patients to characterize the nature of changes in Mac-1 expression and activation status, and the effects of relative neutrophil immaturity on circulating neutrophil phenotype and function. The effect of heparin, a known CD11b ligand, on Mac-1 epitope expression was also investigated. Circulating neutrophil numbers observed during ECC were mathematically modeled to determine the acute response of the bone marrow neutrophil reserve to an inflammatory stimulus. Plasma cytokine, chemokine and acute phase mediators were measured in cardiac and lung surgery patients to determine potential regulators of systemic neutrophil recruitment. Neutrophils newlyemergent from the bone marrow were characterized as CD10-/CD16low and exhibited distinct changes in cell surface markers and enhanced functional responses, relative to their more mature CD10+ counterparts. Conformational activation of CD11b occurred peri-operatively and provided a more sensitive measure of circulating neutrophil activation status than changes in total Mac-1 or L-selectin expression, although detection of Mac-1 epitopes was reduced in the presence of heparin. Modeling of circulating neutrophil numbers predicted that post-mitotic maturation time was acutely abbreviated by 8.4 hours during 71 minutes of ECC. Systemic chemokine release occurred with cardiac but not non-cardiac thoracic surgery indicating some specificity of the acute inflammatory response. These findings expand the understanding of peri-operative circulating neutrophil activation and recruitment, and identify potential therapeutic targets to limit neutrophil injurious potential during cardiac surgery with ECC.

Integrins

Neutrophils

Extracorporeal circulation

Bone marrow

Inflammation

Heart -- Surgery

Innate immunity to Rhodococcus equi: the response of adult and juvenile equine neutrophils

Nerren, Jessica Rachel

15 May 2009

Blood was obtained from 5 adult horses and 16 juvenile horses (foals) at the time of birth and subsequently at 2-, 4-, and 8-weeks of age. Neutrophils from adult horses were purified and incubated for 2 h and 4 h with media, avirulent R. equi, virulent R. equi, or recombinant-human granulocyte-macrophage colony stimulating factor (rhGM-CSF). Neutrophils from foals were purified and incubated for 2 h and 4 h with media or virulent R. equi. Total RNA was extracted from both adult and foal neutrophils immediately after purification to measure baseline expression levels (0 h), and immediately after each of the prescribed incubation times. For each sample, 1 µg of total RNA was reverse-transcribed and analyzed for differential gene expression using real-time PCR. After 2 h and 4 h incubation with virulent or avirulent R. equi, neutrophils from adult horses expressed significantly (P< 0.05) greater TNFα, IL-12p40, IL-6, IL-8, and IL-23p19 mRNA relative to expression by unstimulated neutrophils, but not IFNγ or IL-12p35 mRNA. Furthermore, virulent R. equi induced significantly greater IL-23p19 mRNA expression than avirulent R. equi. Stimulation with rhGM-CSF of adult equine neutrophils failed to induce significant changes in cytokine expression. In foal neutrophils, stimulation with virulent R. equi induced significantly greater expression of IFNγ, TNFα, IL-6, IL-8, IL-12p40, and IL-12p35 mRNA relative to expression by unstimulated neutrophils. Furthermore, there were significant effects of age on expression of IL-6, IL-8 and IL-12p40 mRNA. Neutrophil mRNA expression of IL-6 and IL-8 in newborn foals was significantly greater than expression at 2-, 4-, and 8-weeks of age. There was no significant difference between unstimulated and R. equi-stimulated neutrophils from newborn and 2-week-old foals in expression of IL-12p40; however, expression of IL-12p40 by R. equi-stimulated neutrophils from 4- and 8-week-old foals was significantly greater than expression by unstimulated neutrophils. These results demonstrate that R. equi-stimulated neutrophils are a source of many pro-inflammatory cytokines, and that the magnitude of this expression with respect to IL-6, IL-8, and IL-12p40 mRNA expression was influenced by age. Collectively, the data presented indicate a non-phagocytic role for neutrophils that may influence the type of adaptive immune response to R. equi.

foal pneumonia

cytokines

infectious disease

intracellular bacteria

innate immunity

neutrophils

Molecular mechanisms of neutrophil and monocyte recruitment in acute lung inflammation

Janardhan, Kyathanahalli Sampath Iyengar

05 July 2006

Neutrophils are implicated in many inflammatory lung disorders. However, the mechanisms regulating neutrophil migration in acute lung inflammation are incompletely understood. Although, integrin β2 mediates neutrophil migration in lungs in response to many stimuli such as E. coli, integrin involved in <i>S. pneumoniae</i> induced neutrophil migration is not known. Therefore, the role of integrin αvβ3 in neutrophil recruitment was tested. First, it was found that the number of neutrophils expressing the integrin subunits αv and β3 is reduced or remains in lung inflammation induced by E. coli or <i>S. pneumoniae</i>, respectively. Next, the role of integrin αvβ3 using β3 knockout mice (β3-/-) and function blocking antibodies was addressed. Neutrophil recruitment did not vary between wild type and β3-/- mice. Although β3 antibodies reduced neutrophil recruitment, similar effect was observed with isotype antibodies. Therefore, one can conclude that integrin αvβ3 is not critical for neutrophil recruitment in <i>S. pneumoniae</i> induced pneumonia. <p>Apart from integrins, TLR4 also regulate neutrophil migration. Because, the pattern of TLR4 expression at various times of lung inflammation is not known, TLR4 expression during different phases of lung inflammation in a rat model of LPS-induced inflammation was studied. TLR4 expression in the septum increased and decreased at 6h and 12-36h of inflammation, respectively. Since these correlate with the time of increase and decline of neutrophil recruitment, the findings support previously observed requirement for TLR4 in neutrophil recruitment. <p>Neutrophils recruited into the lungs regulate the inflammatory process by controlling subsequent monocyte/macrophage recruitment. The mechanisms involved and the pattern of monocyte/macrophage recruitment in lungs are not completely understood. Therefore, the possible involvement of monocyte chemoattractant protein (MCP)-1, which is a premier chemokine in monocyte/macrophage migration and produced by neutrophils and other cells was tested. This was addressed by quantification of monocytes/macrophages at various times and using neutrophil depletion experiments in LPS-induced lung inflammation in rats. It was found that monocytes/macrophages migrate very early and before neutrophils in addition to their migration in the late phase of acute lung inflammation. Neutrophil depletion abrogated both early as well as the late monocyte/macrophage recruitment without altering the expression of MCP-1. Therefore, possibly other chemokines and not MCP-1 are involved in neutrophil dependent monocyte/macrophage recruitment. <p>To conclude, the experiments further the understanding on acute lung inflammation by ruling-out the involvement of integrin αvβ3 and MCP-1 in β2-independent neutrophil migration and neutrophil dependent monocyte/macrophage recruitment, respectively. Further studies are essential to find the integrins and chemokines operating in the above situations. Equally important will be to understand the functional significance of early recruited monocytes/macrophages in the lung.

electron microscopy

neutrophils

immunohistochemistry

nucleus

macrophage

integrin

monocyte

TLR

Lung

Rac2 is Required for Formation of Extracellular Traps in Neutrophils

Lim, Byung Hyun

25 August 2011

Recently, it was found that pathogens are trapped and killed by neutrophil extracellular traps (NETs). The role of Rac small GTPases is explored in the formation of NET using neutrophils lacking Rac1, Rac2 or both isoforms. NET formation was observed in both wild-type and Rac1-null neutrophils. In contrast, NET formation was markedly impaired in cells lacking either Rac2 or both Rac2 and Rac1. The defect in NET formation in Rac2-null cells was rescued in the presence of exogenous reactive oxygen species sources, suggesting that Rac2-mediated ROS generation is required. In addition, the role of nitric oxide in NET formation is assessed. Blocking NO production with the nitric oxide synthase inhibitor L-NAME significantly reduced NET formation. Moreover, Rac2-null cells produced significantly less NO than Rac1-null cells or their wild type counterparts. Our data suggest that Rac2 is essential for NET formation via pathways involving both ROS and NO.

neutrophils

neutrophil extracellular traps

Rac

NETs

0567

0306

Rac2 is Required for Formation of Extracellular Traps in Neutrophils

Lim, Byung Hyun

25 August 2011

Recently, it was found that pathogens are trapped and killed by neutrophil extracellular traps (NETs). The role of Rac small GTPases is explored in the formation of NET using neutrophils lacking Rac1, Rac2 or both isoforms. NET formation was observed in both wild-type and Rac1-null neutrophils. In contrast, NET formation was markedly impaired in cells lacking either Rac2 or both Rac2 and Rac1. The defect in NET formation in Rac2-null cells was rescued in the presence of exogenous reactive oxygen species sources, suggesting that Rac2-mediated ROS generation is required. In addition, the role of nitric oxide in NET formation is assessed. Blocking NO production with the nitric oxide synthase inhibitor L-NAME significantly reduced NET formation. Moreover, Rac2-null cells produced significantly less NO than Rac1-null cells or their wild type counterparts. Our data suggest that Rac2 is essential for NET formation via pathways involving both ROS and NO.

neutrophils

neutrophil extracellular traps

Rac

NETs

0567

0306

The mechanism and functional consequences of passive acquistion of membrane and integral membrane protein by bovine polymorphonuclear neutrophils

Whale, Tyler

04 November 2005

<p>In this Ph.D. dissertation, the capacity of cultured bovine polymorphonuclear neutrophils (PMNs) to passively acquire functional membrane proteins from apoptotic or necrotic cells was examined. The rapid transfer of membrane proteins from a variety of syngeneic, allogeneic and xenogeneic donor cells to PMNs was observed. In contrast to PMNs from other species, bovine PMNs did not express endogenous major histocompatability class II (MHC II) protein, either constitutively or inducibly. The entire bovine PMN population was, however, able to acquire detectable levels of surface MHC II or cluster of differentiation (CD) 3 protein following PMN co-culture with cells in conditions which permitted close contact with dieing cells. Therefore, it was hypothesized that membrane lipids and proteins were acquired by bovine PMN following fusion with microparticles (MPs) shed from either apoptotic or necrotic cells. </p> <p>It was then determined whether the lifespan of bovine PMNs could be sufficient to provide an opportunity for PMNs to interact with T cells. Lymphocyte recruitment to sites of inflammation often occurs 3-5 days after the initial PMN recruitment. PMN survival would need to span this interval to provide an opportunity for an interaction between PMNs and lymphocytes. Pro-inflammatory cytokines, such as interferon (IFN)-ã and granulocyte macrophage colony stimulating factor (GM-CSF), and bacterial lipopolysaccharide (LPS) were observed to prolong the lifespan of cultured PMNs beyond 96 hours. These observations supported the conclusion that it was biologically possible for PMNs and T cells to interact at sites of inflammation.</p> <p>Using confocal microscopy, direct evidence was provided for the formation and release of MPs from peripheral blood mononuclear cells (PBMCs) and the attachment of these MPs to bovine PMNs. A time-dependent integration of both MP membranes and integral membrane proteins into the PMN plasma membrane was also observed. The passively acquired membrane lipids and proteins then diffused throughout the PMN plasma membrane. Another observation was the formation of MPs which contained donor cell cytoplasmic proteins and subsequent transfer this cytoplasmic protein to recipient PMNs. These observations raised the possibility that MPs could also transfer genetic material. Thus, confocal microscopy provided direct evidence that MPs were one mechanism by which bovine PMNs could passively acquire membrane lipids and integral membrane proteins.</p> <p>Finally, the functional consequences of passive acquisition of membrane proteins were examined using two different approaches. A significant increase in green fluorescent protein (GFP) transgene expression was observed following PMN infection using the GFP expressing bovine adenovirus vector (BAV304). These PMNs had passively acquired membranes from an adenovirus permissive cell line. This observation provided indirect evidence for the passive acquisition of a functional viral receptor protein. Direct evidence that PMNs passively acquired functional membrane proteins was provided by the observation that the passive transfer of ovine MHC II molecules to bovine PMNs enabled these cells to induce antigen-specific proliferation and cytokine expression by xenoreactive T cell lines. Despite a reduction in amplitude and duration, T cell responses induced by PMNs were qualitatively similar to those observed following activation by the stimulator B cell line. These observations supported the conclusion that PMNs could function as antigen presenting cells (APCs) following the passive acquisition of MHC II protein.</p> <p>In conclusion, this research project provided evidence that bovine PMNs have an impressive ability to acquire membranes and functional integral membrane proteins from dead or dying cells. The implications of this transfer of immunological information are discussed within the context of the role which PMNs might play in both innate and adaptive immune responses. </p>

microparticles

Protein Transfer

Antigen Presentation

MHC II

Neutrophils

Bovine

CD3

Regulation of the high affinity receptor for IgE (FcepsilonRI) in human neutrophils

Alphonse, Martin Prince

31 March 2006

Polymorphonuclear neutrophils (PMNs) are important effector cells in host defense and the inflammatory response to antigen. The involvement of PMNs in inflammation is mainly mediated by the Fc receptor family, including IgE receptors. Recently, we have shown that human PMNs from allergic asthmatic subjects express the high affinity receptor, FceRI. In this study, we have examined the regulation of FceRI by human PMNs in vitro and in vivo during the allergic pollen season. First we studied the pattern of expression of FceRI in PMNs during the pollen allergic and outside the pollen season. Peripheral blood neutrophils were isolated from adult atopic asthmatics (AA) (n=17), allergic non asthmatics (ANA) (n=15) and healthy donors (n=16) by dextran, ficoll gradient centrifugation and magnetic cell sorting (MACS). Surface, total protein and mRNA expression of FceRI were investigated in the three groups by FACS, immunocytochemistry (ICC) and fluorescent in situ hybridization (FISH) respectively. Secondly, we investigated the effect of Th-2 cytokines which are known to regulate IgE receptor expression. PMNs from atopic asthmatic subjects were stimulated in vitro with Th-2 cytokines (IL-4, IL-9, GM-CSF) and Th-1 cytokine IFN-gamma. Finally we determined whether the expression of FceRIbeta chain correlated with the surface expression of FceRIalpha chain in PMNs. Irrespective of the season, PMNs from atopic asthmatic subjects showed increased expression of FceRIalpha chain in surface, total protein and mRNA compared to atopic non asthmatics and healthy donors (n=20). Interestingly, FceRIalpha chain surface and mRNA expression increased significantly during pollen season compared to non pollen season (P=0.001) in PMNs isolated from AA (n=9) in contrast to healthy donors and ANA (n=8). Furthermore similar pattern of FceRI expression were observed in vitro when PMNs were stimulated with Th2 cytokines. IL-4, IL-9 and GM-CSF showed increased protein and mRNA expression of FceRIalpha chain at 6 and 18hrs (n=6) whereas IFN-gamma down regulated the mRNA expression of FceRIalpha chain at 6hrs. Also, irrespective of season AA (n=11) subjects showed increased expression of FceRI beta chain when compared to ANA (n=10) and healthy donors (n=9). Western blot analysis showed increased FceRI beta protein in atopic asthmatic subjects (n=4). Interestingly irrespective of the groups, there was a positive correlation r = 0.8054 between total protein expression of beta chain with surface expression of alpha chain of FceRI in neutrophils. Our data suggest that the expression of FceRI in neutrophils of atopic asthmatic patients is highly regulated. Our in vitro studies provide evidence that Th-2 cytokines such as IL-9, IL-4 and GM-CSF up-regulate the expression of FceRI. Furthermore we show evidence of increased expression of FceRIbeta chain in neutrophils of atopic asthmatic subjects. Collectively these results suggest that FceRI mediated neutrophil dependent activation may play a key role in allergic diseases. / May 2005

Fc epsilon RI

allergy and asthma

neutrophils

immune regulation

IgE receptors

The mechanism and functional consequences of passive acquistion of membrane and integral membrane protein by bovine polymorphonuclear neutrophils

Whale, Tyler

04 November 2005

<p>In this Ph.D. dissertation, the capacity of cultured bovine polymorphonuclear neutrophils (PMNs) to passively acquire functional membrane proteins from apoptotic or necrotic cells was examined. The rapid transfer of membrane proteins from a variety of syngeneic, allogeneic and xenogeneic donor cells to PMNs was observed. In contrast to PMNs from other species, bovine PMNs did not express endogenous major histocompatability class II (MHC II) protein, either constitutively or inducibly. The entire bovine PMN population was, however, able to acquire detectable levels of surface MHC II or cluster of differentiation (CD) 3 protein following PMN co-culture with cells in conditions which permitted close contact with dieing cells. Therefore, it was hypothesized that membrane lipids and proteins were acquired by bovine PMN following fusion with microparticles (MPs) shed from either apoptotic or necrotic cells. </p> <p>It was then determined whether the lifespan of bovine PMNs could be sufficient to provide an opportunity for PMNs to interact with T cells. Lymphocyte recruitment to sites of inflammation often occurs 3-5 days after the initial PMN recruitment. PMN survival would need to span this interval to provide an opportunity for an interaction between PMNs and lymphocytes. Pro-inflammatory cytokines, such as interferon (IFN)-ã and granulocyte macrophage colony stimulating factor (GM-CSF), and bacterial lipopolysaccharide (LPS) were observed to prolong the lifespan of cultured PMNs beyond 96 hours. These observations supported the conclusion that it was biologically possible for PMNs and T cells to interact at sites of inflammation.</p> <p>Using confocal microscopy, direct evidence was provided for the formation and release of MPs from peripheral blood mononuclear cells (PBMCs) and the attachment of these MPs to bovine PMNs. A time-dependent integration of both MP membranes and integral membrane proteins into the PMN plasma membrane was also observed. The passively acquired membrane lipids and proteins then diffused throughout the PMN plasma membrane. Another observation was the formation of MPs which contained donor cell cytoplasmic proteins and subsequent transfer this cytoplasmic protein to recipient PMNs. These observations raised the possibility that MPs could also transfer genetic material. Thus, confocal microscopy provided direct evidence that MPs were one mechanism by which bovine PMNs could passively acquire membrane lipids and integral membrane proteins.</p> <p>Finally, the functional consequences of passive acquisition of membrane proteins were examined using two different approaches. A significant increase in green fluorescent protein (GFP) transgene expression was observed following PMN infection using the GFP expressing bovine adenovirus vector (BAV304). These PMNs had passively acquired membranes from an adenovirus permissive cell line. This observation provided indirect evidence for the passive acquisition of a functional viral receptor protein. Direct evidence that PMNs passively acquired functional membrane proteins was provided by the observation that the passive transfer of ovine MHC II molecules to bovine PMNs enabled these cells to induce antigen-specific proliferation and cytokine expression by xenoreactive T cell lines. Despite a reduction in amplitude and duration, T cell responses induced by PMNs were qualitatively similar to those observed following activation by the stimulator B cell line. These observations supported the conclusion that PMNs could function as antigen presenting cells (APCs) following the passive acquisition of MHC II protein.</p> <p>In conclusion, this research project provided evidence that bovine PMNs have an impressive ability to acquire membranes and functional integral membrane proteins from dead or dying cells. The implications of this transfer of immunological information are discussed within the context of the role which PMNs might play in both innate and adaptive immune responses. </p>

microparticles

Protein Transfer

Antigen Presentation

MHC II

Neutrophils

Bovine

CD3

Molecular mechanisms of neutrophil and monocyte recruitment in acute lung inflammation

Janardhan, Kyathanahalli Sampath Iyengar

05 July 2006

Neutrophils are implicated in many inflammatory lung disorders. However, the mechanisms regulating neutrophil migration in acute lung inflammation are incompletely understood. Although, integrin β2 mediates neutrophil migration in lungs in response to many stimuli such as E. coli, integrin involved in <i>S. pneumoniae</i> induced neutrophil migration is not known. Therefore, the role of integrin αvβ3 in neutrophil recruitment was tested. First, it was found that the number of neutrophils expressing the integrin subunits αv and β3 is reduced or remains in lung inflammation induced by E. coli or <i>S. pneumoniae</i>, respectively. Next, the role of integrin αvβ3 using β3 knockout mice (β3-/-) and function blocking antibodies was addressed. Neutrophil recruitment did not vary between wild type and β3-/- mice. Although β3 antibodies reduced neutrophil recruitment, similar effect was observed with isotype antibodies. Therefore, one can conclude that integrin αvβ3 is not critical for neutrophil recruitment in <i>S. pneumoniae</i> induced pneumonia. <p>Apart from integrins, TLR4 also regulate neutrophil migration. Because, the pattern of TLR4 expression at various times of lung inflammation is not known, TLR4 expression during different phases of lung inflammation in a rat model of LPS-induced inflammation was studied. TLR4 expression in the septum increased and decreased at 6h and 12-36h of inflammation, respectively. Since these correlate with the time of increase and decline of neutrophil recruitment, the findings support previously observed requirement for TLR4 in neutrophil recruitment. <p>Neutrophils recruited into the lungs regulate the inflammatory process by controlling subsequent monocyte/macrophage recruitment. The mechanisms involved and the pattern of monocyte/macrophage recruitment in lungs are not completely understood. Therefore, the possible involvement of monocyte chemoattractant protein (MCP)-1, which is a premier chemokine in monocyte/macrophage migration and produced by neutrophils and other cells was tested. This was addressed by quantification of monocytes/macrophages at various times and using neutrophil depletion experiments in LPS-induced lung inflammation in rats. It was found that monocytes/macrophages migrate very early and before neutrophils in addition to their migration in the late phase of acute lung inflammation. Neutrophil depletion abrogated both early as well as the late monocyte/macrophage recruitment without altering the expression of MCP-1. Therefore, possibly other chemokines and not MCP-1 are involved in neutrophil dependent monocyte/macrophage recruitment. <p>To conclude, the experiments further the understanding on acute lung inflammation by ruling-out the involvement of integrin αvβ3 and MCP-1 in β2-independent neutrophil migration and neutrophil dependent monocyte/macrophage recruitment, respectively. Further studies are essential to find the integrins and chemokines operating in the above situations. Equally important will be to understand the functional significance of early recruited monocytes/macrophages in the lung.

electron microscopy

neutrophils

immunohistochemistry

nucleus

macrophage

integrin

monocyte

TLR

Lung

Innate immunity to Rhodococcus equi: the response of adult and juvenile equine neutrophils

Nerren, Jessica Rachel

15 May 2009

Blood was obtained from 5 adult horses and 16 juvenile horses (foals) at the time of birth and subsequently at 2-, 4-, and 8-weeks of age. Neutrophils from adult horses were purified and incubated for 2 h and 4 h with media, avirulent R. equi, virulent R. equi, or recombinant-human granulocyte-macrophage colony stimulating factor (rhGM-CSF). Neutrophils from foals were purified and incubated for 2 h and 4 h with media or virulent R. equi. Total RNA was extracted from both adult and foal neutrophils immediately after purification to measure baseline expression levels (0 h), and immediately after each of the prescribed incubation times. For each sample, 1 µg of total RNA was reverse-transcribed and analyzed for differential gene expression using real-time PCR. After 2 h and 4 h incubation with virulent or avirulent R. equi, neutrophils from adult horses expressed significantly (P< 0.05) greater TNFα, IL-12p40, IL-6, IL-8, and IL-23p19 mRNA relative to expression by unstimulated neutrophils, but not IFNγ or IL-12p35 mRNA. Furthermore, virulent R. equi induced significantly greater IL-23p19 mRNA expression than avirulent R. equi. Stimulation with rhGM-CSF of adult equine neutrophils failed to induce significant changes in cytokine expression. In foal neutrophils, stimulation with virulent R. equi induced significantly greater expression of IFNγ, TNFα, IL-6, IL-8, IL-12p40, and IL-12p35 mRNA relative to expression by unstimulated neutrophils. Furthermore, there were significant effects of age on expression of IL-6, IL-8 and IL-12p40 mRNA. Neutrophil mRNA expression of IL-6 and IL-8 in newborn foals was significantly greater than expression at 2-, 4-, and 8-weeks of age. There was no significant difference between unstimulated and R. equi-stimulated neutrophils from newborn and 2-week-old foals in expression of IL-12p40; however, expression of IL-12p40 by R. equi-stimulated neutrophils from 4- and 8-week-old foals was significantly greater than expression by unstimulated neutrophils. These results demonstrate that R. equi-stimulated neutrophils are a source of many pro-inflammatory cytokines, and that the magnitude of this expression with respect to IL-6, IL-8, and IL-12p40 mRNA expression was influenced by age. Collectively, the data presented indicate a non-phagocytic role for neutrophils that may influence the type of adaptive immune response to R. equi.

foal pneumonia

cytokines

infectious disease

intracellular bacteria

innate immunity

neutrophils