Characterisation of the equine macrophage/monocyte

Karagianni, Anna Eleonora

January 2015

Inflammatory airway disease (IAD) is a common performance limiting pulmonary disorder in young racehorses in training. Although the precise aetiopathogenesis is poorly understood, proposed mechanisms include opportunistic bacterial infections and/or suboptimal air-hygiene. Since alveolar macrophages (AMs) are the first line defence in the lungs of mammalian species, they may constitute an appropriate therapeutic target cell in the treatment and the prevention of opportunistic airway infections. This thesis aimed to investigate the basic biology of the equine AM. A series of experiments were conducted to investigate the function and phenotype of this cell and comparisons made with equine macrophages derived from other anatomical sites and macrophage datasets derived from other species. The lung environment is unique, and may direct a unique phenotype and function compared with macrophages derived from other sites. Macrophages were isolated from the lungs, peritoneal cavity and other regions of healthy horses. Excellent cell recovery was demonstrated and associated with good viability, RNA yield and a demonstrable response to several stimuli, both when fresh and following cryopreservation. AMs produced tumor necrosis factor alpha (TNFα) when stimulated with lipopolysaccharide (LPS), polyinosinic-polycytidylic acid (Poly IC) and heat-killed Salmonella typhimurium and were actively phagocytic. By comparison, peritoneal macrophages (PMs) did not respond to these inducers and lacked phagocytic activity. In contrast to AMs, which showed high expression of the specific macrophage markers cluster of differentiation (CD) 14, CD163 and toll-like receptor 4 (TLR4), PMs lacked CD14. Moreover, gene expression analysis revealed an alternative macrophage activation for AMs, whereas PM showed a hybrid macrophage activation potentially attributed to the phenomenon of endotoxin tolerance. The response of equine AMs to LPS was analysed using microarrays. There was significant change in the expression of 240 genes. Those that were upregulated included well known inflammatory genes such as TNFα, IL1A and CXCL6. The pattern of response more closely resembled human and pig macrophages than mouse, including the LPS-induced expression of STAT4, IDO, IL7R genes and the failure to produce nitrite in response to LPS. These data suggest that the horse may represent a suitable animal model for human macrophage-associated lung inflammation, and conversely that data from humans may translate to horses. A final aim of this study was to investigate the effect of exercise on equine AM function. Therefore, AMs were isolated from bronchoalveolar lavage samples obtained from Standardbred racehorses at rest and during the training period and microarray analysis performed. Despite important limitations of the study, a few mechanisms at the molecular level were detected which may be involved in the development of either training-associated symptoms of, or susceptibility to IAD. Overall, this thesis aims to improve our understanding of equine macrophage biology and to provide useful information regarding the role of AMs in exercise-associated inflammation. Moreover, the findings presented here may help to inform future preventative pharmacological and/or managemental interventions for IAD.

636.1

A (1→3)-β-D-Linked Heptasaccharide Is the Unit Ligand for Glucan Pattern Recognition Receptors on Human Monocytes

Lowe, Elizabeth, Rice, Peter, Ha, Tuanzhu, Li, Chuanfu, Kelley, Jim, Ensley, Harry, Lopez-Perez, Jose, Kalbfleisch, John, Lowman, Douglas, Margl, Peter, Browder, William, Williams, David

01 January 2001

Glucans are fungal cell wall polysaccharides which stimulate innate immune responses. We determined the minimum unit ligand that would bind to glucan receptors on human U937 cells using laminarin-derived pentaose, hexaose, and heptaose glucan polymers. When U937 membranes were pretreated with the oligosaccharides and passed over a glucan surface, only the heptasaccharide inhibited the interaction of glucan with membrane receptors at a Kd of 31 μM (95% CI 20-48 μM) and 100% inhibition. However, the glucan heptasaccharide did not stimulate U937 monocyte NFκB signaling, nor did it increase survival in a murine model of polymicrobial sepsis. Laminarin, a larger and more complex glucan polymer (Mw=7700 g/mol), only partially inhibited binding (61±4%) at a Kd of 2.6 μM (99% CI 1.7-4.2 μM) with characteristics of a single binding site. These results indicate that a heptasaccharide is the smallest unit ligand recognized by macrophage glucan receptors. The data also indicate the presence of at least two glucan-binding sites on U937 cells and that the binding sites on human monocyte/macrophages can discriminate between glucan polymers. The heptasaccharide and laminarin were receptor antagonists, but they were not receptor agonists with respect to activation of NFκB-dependent signaling pathways or protection against experimental sepsis.

glucan

heptasaccharide

macrophage

monocyte

NFκB

receptors

sepsis

Investigating the Impact of Cigarette Smoke on Myeloid Cell Function and Kinetics During the Pathogenesis of Atherosclerosis and Aortic Aneurysm / MYELOID CELL FUNCTION AND KINETICS IN ARTERIAL DISEASE

Thayaparan, Dharneya

January 2021

Rationale. Cigarette smoking is a well-known risk factor for cardiovascular disease, including arterial diseases such as atherosclerosis and abdominal aortic aneurysm. However, our understanding of how exposure to cigarette smoke impacts arterial disease pathogenesis is not well known. Consequently, this doctoral thesis focuses on understanding the development of atherosclerosis and aortic aneurysm in the context of exposure to cigarette smoke. In particular, since monocytes and macrophage are key immune cells implicated in arterial pathology, this work concentrates on understanding the impact of cigarette smoke exposure on the function and kinetics of monocytes and arterial macrophages. Main Findings. Using a mouse model that combines two clinically relevant risk factors, hyperlipidemia and cigarette smoke, we showed that smoke exposure increases atherosclerosis and induces the spontaneous formation, progression, and rupture of abdominal aneurysms. We also provide experimental evidence that atherosclerosis strongly associates with regions of elastin damage and arterial dilation, suggesting atherogenesis may directly contribute to abdominal aneurysm formation. Given the importance of macrophages in arterial disease, we investigated arterial macrophage heterogeneity and function following exposure to cigarette smoke. We report that cigarette smoke exposure increased the abundance of arterial monocytes and macrophages, whereas heterogeneity was primarily driven by hypercholesterolemia in aneurysmal tissue. Specifically, hypercholesterolemia is associated with an increase in macrophage populations with putative functions in inflammation and tissue remodelling including Trem2 foamy macrophages, inflammatory macrophages, and interferon-inducible macrophages. Moreover, we demonstrated that arterial macrophages play a critical role in elastin fragmentation within the arterial wall of smoke exposed mice. Finally, we investigated the impact of cigarette smoke on kinetic factors that can contribute to arterial macrophage accumulation. We found that, despite increased development of arterial disease, exposure to cigarette smoke is associated with an overall suppression of circulating monocytes and pro-inflammatory cytokines. Using a parabiosis model, we show monocyte recruitment is significantly increased and is likely a key factor contributing to accumulation of arterial macrophages following exposure to cigarette smoke. We also present evidence suggesting that endothelial dysfunction, related to a loss of endothelial nitric oxide synthase, contributes to increased arterial monocyte recruitment following exposure to cigarette smoke. Conclusions and Significance. Overall, we provide evidence that atherosclerosis likely contributes to abdominal aneurysm pathology in a model of cigarette smoke-induced aneurysm formation. We further provide insight into how tobacco smoke promotes arterial disease development through increased local accumulation of arterial macrophages despite suppressed monopoiesis and systemic inflammation. We identify monocyte recruitment and endothelial dysfunction as key factors contributing to the increased accumulation of arterial macrophages, with no overall differences in macrophage heterogeneity, following smoke exposure. In addition to providing insight into the increased risk of arterial disease following exposure to cigarette smoke, this study also provides experimental evidence that atherogenesis can contribute to abdominal aneurysm pathology. Overall, this thesis furthers our understanding of arterial disease pathogenesis and can provide a foundation for further mechanistic or therapeutic focused research aimed at reducing the burden of cardiovascular disease. / Thesis / Doctor of Philosophy (PhD) / Diseases that affect the heart and major blood vessels are one of the leading causes of illness and death worldwide. Atherosclerosis is one such disease caused by the buildup of fatty deposits in the walls of major blood vessels called arteries. This buildup can eventually block the artery and lead to a heart attack or stroke. Abdominal aortic aneurysms are another type of disease that affects arteries. In this case, the walls of the artery grow weak and begin to balloon out until the artery eventually breaks causing severe internal bleeding and death. One of the most important cells involved in the development of atherosclerosis and aneurysms is the macrophage, a type of white blood cell that is an important part of the immune system and found in diseased arteries. Although we know that cigarette smoking is one of the most significant risk factors for developing atherosclerosis and abdominal aneurysms, we do not fully understand why. Therefore, the goal of this thesis project was to investigate how cigarette smoke affects the development of arterial disease with a focus on understanding how it impacts the movement and function of macrophages. Using a mouse model, we found that the development of atherosclerosis and aneurysm are likely related, and also identified ways that exposure to cigarette smoke increases the numbers of macrophages in arteries. This work advances our understanding of how arterial diseases may be related and provides insight into how smoking can increase the risk of developing arterial disease.

Atherosclerosis

Aneurysm

Macrophage

Monocyte

Cigarette smoke

Immunology

Differenzielle Expression proatherogener Zellmarker auf Monozytensubpopulationen bei Patienten mit stabiler koronarer Herzkrankheit / Differential expression of proatherogenic cell markers on monocyte subpopulations of patients with stable coronary artery disease

Kuschicke, Hendrik

30 March 2017

No description available.

610

coronary artery disease

monocyte subsets

monocyte subpopulations

MPA

OPN

CCR5

CCL5

RANTES

Kardiologie (PPN619875755)

Origine et fonction des cellules dendritiques, des monocytes et des macrophages de la peau et de l'intestin / Origin and funtion of dendritic cells, monocytes and macrophages of skin and intestine

Tamoutounour, Samira

11 June 2013

Les plus grandes interfaces avec l'environnement extérieur sont la peau, et les muqueuses gastro-intestinales. Ces barrières, sont constamment menacées par des attaques physico-chimiques ou par des tentatives d'invasion de micro-organismes. Les phagocytes mononucléés qui comprennent les DCs, les monocytes et les macrophages et sont issus de la lignée myéloïde possèdent des propriétés distinctes de phagocytose de pathogènes et de cellules apoptotiques, d'apprêtement des antigènes et de présentation de ces derniers aux lymphocytes T. d'activation. La distinction de ces différentes cellules est un enjeu majeur pour la compréhension des mécanismes de la réponse immune et pour sa modulation dans des buts thérapeutiques. En utilisant des marqueurs cellulaires Ly-6C, CD64 et ainsi que le fait que les monocytes dépendent du récepteur de chimiomokine CCR2 pour émigrer de la moelle osseuse et les DCs de l'engagement du récepteur Flt3, nous avons montré pour la première fois qu'il existe dans la peau et l'intestin une cascade de différenciation qui conduit à des monocytes et des macrophages tissulaires et est distincte de celle donnant naissance aux DCs. Nous avons ensuite étudié le comportement de ces cellules dans une inflammation stérile dans la peau médiée par le DNFB (dinitrofluorobenzène) et dans une maladie inflammatoire de l'intestin (IBD) et montré que leurs capacités de migration vers les ganglions lymphatiques et de présentation antigénique à des lymphocytes T sont dépendantes du modèle utilisé. Cette déconvolution des populations tissulaires de cellules monuclées nous permet ainsi de disséquer le rôle de chacun de ces acteurs lors de la réponse immune. / The skin and the gastrointestinal mucosa that are the largest interfaces with the external environment. These barriers are the guardians of the body's integrity and are constantly threatened by physicochemical or microorganisms attacks. They have a dense network of effector cells dedicated to the defense of the body. Among them, mononuclear phagocytes which include DCs, monocytes and macrophages are all derived from the myeloid lineage and possess distinct properties of pathogens and apoptotic cells phagocytosis, antigens processing and presentation to T cells. However, DCs, monocytes and macrophages share common ancestry and functions and are hard to differentiate from each other in tissues and lymphoid organs. The distinction of these cells is a major challenge for understanding immune response's mechanisms and its modulation for therapeutic purposes.Using Ly-6C, CD64 and CCR2 as cell markers, as well as the CCR2 dependent emigration from bone marrow of monocytes and DCs dependency to Flt3-L, we have shown for the first time a cascade of monocytes differentiation, and separate populations of tissue monocytes, macrophages and DCs within the skin and the intestine. We then studied the behavior of these cells in a sterile skin inflammation mediated by DNFB (dinitrofluorobenzène) and in an inflammatory bowel disease (IBD) and showed that their ability to migrate to lymph nodes and to present antigens to naïve T lymphocytes are model dependent. Disentangling those tissue populations allows us to dissect the role of each of these actors in the immune response.

Cellule dendritique

Monocyte

Macrophage

Peau

Intestin

Inflammation

Dendritic cells

Monocyte

Macrophage

Skin

Intestine

Inflammation

571

Role of DNA methyltransferase 3a (Dnmt3a) in the adaptation of atherogenesis key players to proatherogenic environment. / Rôle de l'ADN méthyltransférase 3a (Dnmt3a) dans l'adaptation des joueurs clés de l'athérogenèse à l'environnement proathérogène

Nabulsi, Maisa

30 September 2016

L’ADN méthyltransférase 3a (DNMT3A) relie environnement et phénotype par la méthylation des dinucléotides CpG, qu’on les trouve en particulier dans les régions promotrices des gènes. Hypométhylation de ces CpG est associée à l’activation de la transcription, qui permet le contrôle de l'expression génique dans des états physiologiques et pathologiques. La plupart de nos connaissances sur l’implication de Dnmt3a en pathologie concernent le cancer, quelques données montrent sa contribution à d’autres pathologies. L’athérosclérose est la maladie cardiovasculaire la plus fréquente. Plusieurs facteurs de risque contribuant à son apparition, sont liés à L’environnement. En particulier, les dyslipidémies, largement influencées par le régime alimentaire. Par ailleurs, d’abondantes données décrivent la contribution des cellules inflammatoires à la physiopathologie de cette maladie. Jusqu'à présent, un nombre croissant de données suggère un rôle de la méthylation de l’ADN dans l'athérosclérose, mais à ce jour, le rôle de Dnmt3a dans la régulation du cholestérol et le développement initial des plaques n'a pas été étudié.Nos résultats suggèrent que l’inactivation de Dnmt3a dans les monocytes/macrophages ne modifie pas le développement initial des plaques d’athérome et n’a pas d’influence sur la polarisation des macrophages in vitro. En parallèle, nous avons démontré que l’inactivation de Dnmt3a dans les hépatocytes conduit à une différence significative de cholestérolémie plasmatique qui n’est pas liée à une dérégulation des gènes majeurs impliqués dans le métabolisme du cholestérol. En revanche, nous avons mis en évidence une activation des réponses inflammatoires. / DNA methyltransferase 3a (DNMT3A) links environment to phenotypes via catalysis of CpG dinucleotides, notably found in genes promoter regions, methylation and whose hypomethylation is associated with gene transcriptional activation thus enabling the control of gene expression in physiologic and pathologic states. Most of our knowledge about its’ role in disease occurrence are based on articles demonstrating its’ implication in human cancers. Limited data from mouse studies illustrates its’ contribution to certain pathologies. Atherosclerosis constitutes the single most important contributor to the growing burden of cardiovascular disease. Risk factors contribute to disease occurrence, where most are related to environmental influences, notably Dyslipidaemia, a key initiator of atherosclerosis. Abundant data link hypercholesterolemia to atherogenesis, on the other hand, contribution of inflammatory mechanisms that couple dyslipidaemia to atheroma formation has been also appreciated. So far, a growing number of data suggests a role of Dnmt3a in atherosclerosis but to date, its role in cholesterol regulation and early plaque formation has not been clearly elucidated. Our results suggested that deletion of Dnmt3a in monocyte/macrophages does not affect the formation of early atherosclerostic plaque nor does it impact the polarization of macrophages in vitro. In parallel, we have also demonstrated that the deletion of Dnmt3a in hepatocytes leads to significant elevation in TC levels. We were not able to relate this elevation to dysregulation of major genes involved in Cholesterol regulation. On the other hand, we noticed activation of hepatic inflammatory responses.

Dnmt3a

Environnement

Régulation du cholésterol

Monocyte/macrophage

Inflammation

Athérosclérose

Dnmt3a

Atherosclerosis

Monocyte/macrophages

612.1

Etude de l'interaction de dendrimères phosphorés avec les monocytes humains : recherche de récepteur (s) / Interaction of phosphorus dendrimers with human monocytes : research of receptor (s)

Le Dall, Jérémy

18 September 2015

Les dendrimères sont des entités chimiques "arborescentes" multi-ramifiées. Cette famille de polymères non linéaires comporte des applications dans différents domaines. Un dendrimère nommé ABP a montré des propriétés immuno-modulatrices sur le système immunitaire humain in vitro. Ce dendrimère comporte le profil d'un nouvel agent thérapeutique pour être utilisé dans le traitement de maladies inflammatoires chez l'homme. Parmi les cellules mononucléaires du sang humain, le dendrimère ABP cible principalement les monocytes et induit une activation anti-inflammatoire de ces cellules. Cette nouvelle étude a visé à comprendre l'interaction entre le dendrimère ABP et les monocytes humains. De manière intéressante, une interaction spécifique a été observée. En utilisant des expériences de modélisation, de physico-chimie et de biologie moléculaire, nous démontrons que le dendrimère ABP induit une activation anti-inflammatoire des monocytes humains par l'intermédiaire d'un ou de récepteur (s). / Dendrimers are multi-branched "tree-like" chemical entities. This family of non-linear polymers has already been applied in different fields. A dendrimer named ABP has shown some immuno-modulatory properties toward the Human immune system in vitro. This dendrimer is at the dawn to become a new therapeutic agent by itself for the treatment of inflammatory diseases in Human. Among human Peripheral Blood Mononuclear Cells (PBMC), the ABP dendrimer selectively targets human monocytes and induces an anti-inflammatory activation of these cells. This new study aims at understanding the interaction between the ABP dendrimer and human monocytes. Interestingly, a specific interaction was observed. Using, biological, physico-chemical and molecular modelling experiments we demonstrated that the ABP dendrimer triggers monocyte activation through receptor(s) recognition.

Dendrimère

Monocyte

Récepteur

Interaction spécifique

Activation cellulaire

Dendrimer

Monocyte

Receptor

Specific interaction

Cell activation

Monocyte / Macrophage Activation and Traffic Mediates HIV and SIV – Associated Peripheral Neuropathy

Lakritz, Jessica Robyn

January 2016

Thesis advisor: Tricia H. Burdo / Human immunodeficiency virus-associated peripheral neuropathy (HIVPN) continues to be a prevalent comorbidity of HIV infection, despite virologic control due to effective antiretroviral therapy (ART). Symptoms include bilateral tingling, numbness, and pain in distal extremities. Severity of symptoms is associated with a loss of intraepidermal nerve fiber density (IENFD) in the feet. Damage to the dorsal root ganglia (DRG) has also been observed in postmortem tissue analysis from patients with HIV-PN. Treatment options are limited due to a lack of understanding of the disease pathogenesis. Chronic monocyte activation and accumulation of macrophages in peripheral nervous system (PNS) tissues has been reported but few studies have directly demonstrated the role of monocyte/macrophage activation and traffic in the pathogenesis of HIV-PN. The central hypothesis of this thesis is that monocyte activation and traffic mediates PNS neuronal damage. We addressed this hypothesis in several ways. In chapter 2, we describe pathology seen in a rapid disease progression animal model of HIV-PN. We found that an early loss of IENFD preceded a loss of small diameter DRG neurons. In chapter 3, we associated DRG pathology with an accumulation of inflammatory macrophages surrounding DRG neurons. Increased monocyte traffic to the DRG was associated with severity of DRG pathology and with a loss of IENFD. In chapter 4, we directly tested the impact of monocyte traffic on DRG pathology by blocking leukocyte traffic with an anti-VLA-4 antibody, natalizumab. Blocking cell traffic reduced accumulation of macrophages in the DRG and improved pathology. Next we treated animals with methylglyoxal-bisguanylhydrazone (MGBG) to specifically target myeloid cells and reduce their activation. MGBG treatment improved DRG pathology and reduced accumulation of macrophages in tissues. Having demonstrated the role of monocyte traffic and activation, we aimed to identify signaling proteins and inflammatory proteins associated with PNS pathology. We found elevated monocyte chemoattractants in DRG tissue and elevated markers of monocyte activation in plasma that were associated with a loss of IENFD. Together, these studies demonstrate that systemic monocyte activation, macrophage accumulation in DRG tissue, and monocyte traffic plays a major role in SIV-PN pathogenesis. These studies provide novel insight into immune mechanisms that impact neuronal loss during SIV infection. Thus, modulating macrophage activation and reducing monocyte traffic may have therapeutic benefits to patients suffering from or at risk of developing HIV-PN. / Thesis (PhD) — Boston College, 2016. / Submitted to: Boston College. Graduate School of Arts and Sciences. / Discipline: Biology.

SIV-PN

HIV-PN

Monocyte activation

Monocyte traffic

Macrophage activation

Les monocytes CCR7+ comme outil de transport des nanoantirétroviraux vers le système nerveux central

Leblanc, David

January 2015

Actuellement, l'infection au virus de l'immunodéficience humaine de type 1 (VIH-1) est considérée comme une infection chronique contrôlable à moyen et long terme. En effet, l'utilisation appropriée de combinaisons d'antirétroviraux ainsi qu'un suivi du développement de la résistance chez le virus peut diminuer la charge virale pendant des décennies et retarder l'apparition du syndrome d'immunodéficience acquise (SIDA). Cependant, certains de ces médicaments, et tout particulièrement les inhibiteurs de protéase du VIH-1 pénètrent difficilement dans certains organes pouvant servir de réservoirs viraux comme c'est le cas pour le cerveau. Cette limitation favorise la persistance du virus permettant la réapparition rapide d'une forte virémie si les traitements sont interrompus. La réplication du VIH-1 dans le cerveau favorise le développement de déficits cognitifs, comportementaux et moteurs à long terme chez les personnes qui en sont atteintes. L'objectif principal de ce mémoire est de vérifier la possibilité d'utiliser les monocytes comme outil de transport des antirétroviraux sous forme de nanoparticules vers le réservoir du VIH-1 dans le système nerveux central (SNC). Cet objectif est vérifié à l'aide d'une reconstitution de la barrière hématoencéphalique (BHE), où la migration des monocytes chargés de nanoantirétroviraux est évaluée avec une lignée cellulaire monocytoïde, soit les Mono-Mac-1 (MM-1). Des particules de tailles nanométriques dans lesquelles la ritonavir est encapsulée (nanoRTV) ont été développées afin de faciliter leur chargement à l'intérieur des cellules. Des essais de cytotoxicité ont montré que la ritonavir encapsulée n'était pas plus toxique que la ritonavir seule. Par la suite, la capacité de chargement, de rétention ainsi que de relâchement de nanoRTV ont été mesurés dans le temps avec les cellules MM-1. Les résultats démontrent que les cellules MM-1 sont tout à fait capables de stocker des quantités importantes de ritonavir et de garder près de 40 % de la quantité initialement chargée sur une période de sept jours. Les essais de migration à travers la BHE reconstituée indiquent que les MM-1 chargées avec la nanoRTV perdent plus de la moitié de leur capacité de migration à travers la BHE en présence de chimiokines. Cependant, la pré-stimulation des cellules à la PGE[indice inférieur 2] avant le chargement des nanoRTV semble rétablir la capacité de la migration à travers cette barrière. Cette étude est complémentaire à d'autres travaux de recherche visant l'utilisation de cellules comme outil de transport pour la livraison de médicaments à des sites anatomiques ciblés. De plus, nos résultats suggèrent que les monocytes pourraient être des acteurs importants dans ce type de thérapie, étant des cellules avec une forte capacité de migration à travers la BHE.

BHE

VIH-1

Monocyte

PGE[indice inférieur 2]

PATHOGENESIS OF INFLUENZA A VIRUS: INHIBITION OF MONOCYTE DIFFERETIATION INTO DENDRITIC CELL

Boliar, Saikat

01 January 2009

Dendritic cells (DC) are a heterogeneous population of hematopoietic cells that play a versatile role in orchestrating immune responses against an array of invading pathogens, including influenza virus. These cells reside in lymphoid organs as well as in non-lymphoid tissues such as mucosal surfaces of respiratory and gastro-intestinal system. Recent investigations have suggested that in the steady state, dendritic cells are derived mainly from bone marrow precursor cells without a monocytic intermediate whereas during inflammation or infection, monocytes readily differentiate to generate monocyte derived dendritic cells (MoDC). The ability of virus infected monocytes to differentiate into MoDC was investigated and the results demonstrated that in vitro infection of monocytes with influenza virus impaired their development into MoDC. It was also observed that influenza infection of monocytes, pre-treated with GM-CSF and IL-4 for DC differentiation, was minimally-productive and non-cytopathic. In spite of successful viral genome transcription, viral protein synthesis was restricted at an early stage. However, despite of the limited replication, influenza virus infected monocytes failed to develop the distinctive DC- like morphology when cultured with GM-CSF and IL- 4 as compared to their mock infected counterparts. Infected cells, after 4 days in culture, expressed reduced amounts of CD11c, CD172a (myeloid marker), CD1w2 (CD1b) and CCR5. Influenza virus infected monocytes also retained substantial non-specific esterase activity, a characteristic for monocytes and macrophages. Antigen presentation capability of infected cells was also affected as indicated by decreased endocytosis. Production of IL-12, a pro-inflammatory cytokine and IL-10, a reciprocal inhibitory cytokine, was coordinately modified in influenza virus infected monocytes in order to arrest their differentiation into DCs. At least limited viral replication was necessary to impede the differentiation process completely. However, viral NS1 protein activity, as evidenced with a mutant influenza virus, was not essential for this inhibition. This identified a new strategy by influenza virus to interfere with DC differentiation and evade a virus specific immune response.

Veterinary Medicine