Identification of human peripheral blood monocyte derived pro-inflammatory dendritic cells

Toschka, Robert

02 December 2014

Dendritische Zellen (DZ) sind essentiell für die Aktivierung von Immunantworten. Drei Flt3-abhängige DZ Populationen aus dem Blut bestehend aus konventionellen (kDZ) BDCA1+ DZs und BDCA3+ DZs und plasmazytoide DZs wurden bereits beschrieben. Hier wurden zum ersten Mal sich aus Monozyten entwickelnde DZ (moDZ), genauer BDCA1+CD14+ pro-inflammatorische DZ (pro-iDZ) aus periphärem Blut unter homöostatischen Bedingungen identifiziert. Isolierte pro-iDZ sekretierten spontan große Mengen an pro-inflammatorischen Zytokinen, die kDZ reifen ließen und T Zell Proliferation unterstützten. Sie waren BDCA1+CD14- DZ und CD14+CD16- Monozyten in der TH17 Zell Induktion überlegen. Pro-iDZ ähnliche BDCA1+CD14+ Zellen konnten durch imaging cycler microscopy in Geweben von Patienten die an Psoriasis, Dermatomyositis oder entzündetem Halonävus erkrankt waren identifiziert werden. Ihr Fehlen in gesunder Haut deutete eine Rekrutierung von pro-iDZs in entzündetes Gewebe an. Eine Verwandtschaftsanalyse von pro-iDZ zwischen Monozyten, kDZ des Blutes und in vitro generierten moDZ auf genomweiter Ebene wies auf einen monozytären Ursprung hin. Anylse mittels funktioneller Annotation auf differentiell exprimierten Genen zwischen pro-iDZ und Monozyten zeigte eine DZ spezifische Gensignatur auf. Diese Gene waren insgesamt in der gleichen Weise wie in kDZ und moDZ reguliert, das eine Entwicklung von Monozyten nach DZ nahelegte. Dieses Entwicklungskonzept wurde insofern unterstützt, indem unter entzündlichen Bedingungen kultivierte CD14+CD16- Monozyten BDCA1 Expression und DZ Funktion erlangten. Da pro-iDZ sehr ähnlich zu BDCA1+CD14+ Zellen aus entzündeter Haut waren und beide große Konvergenz mit zuvor beschriebenen BDCA1+CD14+ inflammatorischen DZ (infDZ) aus entzündeten Geweben aufwiesen, können pro-iDZ als direkte infDZ Vorläufer angesehen werden. Dadurch und wegen ihrer monozytären Herkunft können pro-iDZ als Beweis für die humane Differenzierung von Monozyten nach DZ in vivo betrachtet werden. / Dendritic cells (DCs) are critical for the activation of immune responses. Three Flt3-dependent blood DC populations including conventional BDCA1+ DCs and BDCA3+ DCs (cDCs) and plasmacytoid DCs were described previously. This work identifies for the first time human peripheral blood monocyte derived BDCA1+CD14+ pro-inflammatory DCs (pro-iDCs) during steady state. Isolated pro-iDCs spontaneously secreted high amounts of pro-inflammatory cytokines, which matured cDCs and promoted T cell proliferation. They were superior in priming TH17 cells when compared to BDCA1+CD14- DCs and CD14+CD16- monocytes. BDCA1+CD14+ cells resembling blood pro-iDCs as identified by imaging cycler microscopy were found in samples from patients suffering from psoriasis, dermatomyositosis and inflamed halo nevus. Their absence in healthy donor’s skin indicated a recruitment of pro-iDCs to sites of inflammation. Analysis of the developmental relationship of pro-iDCs between monocytes, blood cDCs and in vitro generated monocyte derived DCs (moDCs) on whole genome level strongly suggested a monocytic origin. Functional annotation analysis of differentially regulated genes between monocytes and pro-iDCs revealed a DC specific gene signature. In addition, these genes were overall regulated in the same way in blood cDCs and moDCs, indicating an ongoing development of pro-iDCs from monocytes towards DCs. This developmental concept was supported as CD14+CD16- monocytes cultured under inflammatory conditions gained BDCA1 expression and DC function. Since pro-iDCs were highly similar to BDCA1+CD14+ cells found in inflamed skin and as both showed a marked convergence with BDCA1+CD14+ inflammatory DCs (infDCs) present in inflamed tissues described previously, pro-iDCs can be regarded as immediate precursors of infDCs. Thus, in respect of a monocytic origin and a presumably inflammatory DC fate, pro-iDCs may constitute a missing link to prove human moDC differentiation in vivo.

Microarray

human

periphäres Blut

BDCA1 CD14

CD1c CD14

inflammatorische DZ

ex vivo

in situ

MELC

image cycler microscopy

Sauerstoffradikale

IL-23

TH17

CD14+ CD16- Monozyten

human

Reactive oxygen species

Microarray

Monocyte derived dendritic cells

moDC

peripheral blood

BDCA1 CD14

CD1c CD14

inflammatory DC

ex vivo

in situ

MELC

image cycler microscopy

IL-23

TH17

CD14+ CD16- monocytes

570 Biowissenschaften, Biologie

32 Biologie

WW 9900

ddc:570

Vaccinia Virus Binding and Infection of Primary Human Leukocytes

Byrd, Daniel James

January 2014

Indiana University-Purdue University Indianapolis (IUPUI) / Vaccinia virus (VV) is the prototypical member of the orthopoxvirus genus of the Poxviridae family, and is currently being evaluated as a vector for vaccine development and cancer cell-targeting therapy. Despite the importance of studying poxvirus effects on the human immune system, reports of the direct interactions between poxviruses and primary human leukocytes (PHLs) are limited. We studied the specific molecular events that determine the VV tropism for major PHL subsets including monocytes, B cells, neutrophils, NK cells, and T cells. We found that VV exhibited an extremely strong bias towards binding and infecting monocytes among PHLs. VV binding strongly co-localized with lipid rafts on the surface of these cell types, even when lipid rafts were relocated to the cell uropods upon cell polarization. In humans, monocytic and professional antigen-presenting cells (APCs) have so far only been reported to exhibit abortive infections with VV. We found that monocyte-derived macrophages (MDMs), including granulocyte macrophage colony-stimulating factor (GM-CSF)-polarized M1 and macrophage colony-stimulating factor (M-CSF)-polarized M2, were permissive to VV replication. The majority of virions produced in MDMs were extracellular enveloped virions (EEV). Visualization of infected MDMs revealed the formation of VV factories, actin tails, virion-associated branching structures and cell linkages, indicating that infected MDMs are able to initiate de novo synthesis of viral DNA and promote virus release. Classical activation of MDMs by LPS plus IFN-γ stimulation caused no effect on VV replication, whereas alternative activation of MDMs by IL-10 or LPS plus IL-1β treatment significantly decreased VV production. The IL-10-mediated suppression of VV replication was largely due to STAT3 activation, as a STAT3 inhibitor restored virus production to levels observed without IL-10 stimulation. In conclusion, our data indicate that PHL subsets express and share VV protein receptors enriched in lipid rafts. We also demonstrate that primary human macrophages are permissive to VV replication. After infection, MDMs produced EEV for long-range dissemination and also form structures associated with virions which may contribute to cell-cell spread.

Vaccinia virus

Virus binding

Primary human leukocytes

Macrophages

Orthopoxviruses -- Research -- Analysis

Recombinant poxviruses -- Research

Viral vaccines -- Research

Leucocytes -- Physiology

Neutrophils -- Immunology -- Research

B cells -- Immunology -- Research

T cells -- Immunology -- Research

Killer cells -- Immunology -- Research

Immunospecificity -- Research

Host-virus relationships -- Pathogenesis

Virus diseases -- Pathogenesis

The spatial and temporal characterization of hepatic macrophages during acute liver injury

Flores Molina, Manuel

08 1900

La réponse immunitaire est régulée spatialement et temporellement. Les cellules immunitaires font partie d’une plus grande communauté de populations cellulaires interconnectées qui coordonnent leurs actions par la signalisation intercellulaire. Suivant une blessure hépatique, la distribution et la composition du compartiment immunitaire évoluent rapidement au fil du temps. Par conséquent, l’information sur la position des cellules immunitaires dans le tissu hépatique est essentielle à la bonne compréhension de leurs fonctions dans la santé et la maladie. Cependant, l’organisation spatiale des cellules immunitaires en réponse à une atteinte hépatique aiguë, ainsi que les conséquences fonctionnelles de leur distribution topographique spécifique, restent mal comprises. Les macrophages hépatiques sont des cellules effectrices clés pendant l’homéostasie et en réponse à des blessures, et sont impliqués dans la pathogenèse de plusieurs maladies du foie. L’hétérogénéité et plasticité des macrophages dans le foie a été exposée avec l’émergence du séquençage de l’ARN, la cytométrie en flux et la cytométrie de masse. Ces techniques ont sensiblement contribué à la compréhension de l’origine, et fonctions des macrophages dans le foie. Cependant, ces technologies impliquent la destruction du tissu pour la préparation de suspension cellulaires ce qui entraîne une perte d’information spatiale et de contexte tissulaire. Par conséquent, la caractérisation spatiale et temporelle des macrophages dans le tissu hépatique pendant l’homéostasie tissulaire, et en réponse à une blessure, fournit une nouvelle information sur la façon dont les macrophages se rapportent aux cellules voisines et leur comportement pendant les réponses immunitaires. Dans la première partie de cette étude, nous avons conçu une stratégie pour le phénotypage spatial des cellules immunitaires hépatiques dans des échantillons de tissus. Cette stratégie combine techniques d'imagerie et l’alignement numérique des images pour surmonter les limitations actuelles du nombre de marqueurs pouvant être visualisés simultanément. En outre, nous avons généré des protocoles pour la quantification automatisée des cellules d’intérêt dans des sections de tissus pour réduire la subjectivité associée à la quantification par inspection visuelle, et pour augmenter la surface et la vitesse de l’analyse. Par conséquent, un plus grand nombre de populations de cellules immunitaires ont été visualisées, quantifiées et cartographiées, et leurs relations spatiales ont été déterminées. Dans la deuxième partie de l’étude, nous avons déterminé la cinétique et la dynamique spatiale des cellules de Kupffer (KCs) et des macrophages dérivés de monocytes (MoMFs) en réponse à une atteinte hépatique aiguë au CCl4, afin de mieux comprendre leurs rôles fonctionnels, et la répartition du travail entre eux. Nous avons constaté que les KC et les MoMFs présentent des différences au niveau de la distribution tissulaire, la morphologie, et la cinétique. En plus, seulement les KCs ont proliféré pour repeupler la population de macrophages résidents pendant la réparation tissulaire. Finalement, nous avons montré que le degré de colocalization de KCs et des MoMFs avec les cellules stellaires est différent. En plus, cette colocalisation varie avec la progression de la réponse immunitaire. Dans l’ensemble, nous avons montré que les KCs et les MoMFs ont des profils spatiaux et temporels différents en réponse à une atteinte hépatique aiguë. Dans l’ensemble, les observations faites dans cette étude suggèrent que le comportement spatial et temporel d’une sous-population donnée de cellules immunitaires est distinct et sous-tend sa capacité à remplir ses fonctions spécifiques pendant la réponse immunitaire. / The immune response is spatially and temporally regulated. Immune cells are part of a larger community of interconnected immune and non-immune cell populations that coordinate their actions mostly through cell-cell intercellular signaling. In the liver, the distribution pattern, and the composition of the immune compartment evolve during an immune response to injury influencing disease pathology, progression, and response to treatment. Hence, information on the location and interacting partners of immune cells in the hepatic tissue is critical for the proper understanding of their functions in health and disease. However, the spatial organization of hepatic resident and infiltrating immune cells in response to acute injury, and the functional consequences of their specific topographical distribution, remain poorly defined. Hepatic macrophages are key effector cells during homeostasis and in response to injury and are involved in the pathogenesis of several liver diseases. The heterogeneity and plasticity of the macrophage compartment in the liver have only recently started to be appreciated with the emergence of RNA sequencing, flow cytometry, and mass cytometry. Detailed transcriptomic and phenotypic profiling have deeply expanded our understanding of macrophage biology. However, these technologies involve tissue disruption with loss of spatial information and tissue context. Therefore, the spatial and temporal profiling of liver macrophages in tissue samples during the steady state, and in response to injury, provide novel information on how the macrophages relate to neighboring cells and their behavior during immune responses. In the first part of this study, we designed a strategy for the spatial phenotyping of hepatic immune cells in tissue samples. This strategy combined serial and sequential labeling, and digital tissue alignment to overcome current limitations in the number of markers that can be simultaneously visualized. In addition, we generated protocols for automated quantification of cells of interest in whole tissue sections which removed the subjectivity associated with quantification by visual inspection and greatly increased the area and the speed of the analysis. As a result, a larger number of immune cell populations were visualized, quantified, and mapped, and their spatial relations were determined in an unbiased manner. In the second part of this study, we monitored the kinetics, and spatial dynamics of resident Kupffer cells (KCs) and infiltrating monocyte-derived macrophages (MoMFs) in response to acute liver injury with CCl4, to gain insight into their functional roles, and the distribution of labor between them. KCs and MoMFs exhibited different tissue distribution patterns and cell morphology, different kinetics, and occupied neighboring but unique microanatomical tissue locations. KCs and MoMFs displayed a different capacity to replenish the macrophage pool upon acute injury, and were differentially related to hepatic stellate cells. Different kinetics and spatial profiles revealed that KCs and MoMFs have distinct spatial signatures and suggest that they perform distinct functions during the wound-healing response to acute liver injury. In summary, we optimized techniques and put together a strategy for the spatial profiling of hepatic immune cells. Then, we used this methodology to profile resident and infiltrating macrophage subpopulations to gain insight into their biology and distinct contribution to healing in response to acute liver injury. Overall, the observations made in this study suggest that the spatial and temporal behavior of a given subpopulation of immune cells underlie its ability to perform its specific functions during the immune response.

Tumor microenvironment

Multiplex immunofluorescence

FFPE

Image analysis

Tissue alignment

Tissue heatmap

VIS software

Kupffer cells

Monocyte-derived macrophages

Hepatic stellate cells

CCl4-induced acute liver injury

Spatial phenotyping

Wound healing response

Microenvironnement tumoral

Immunofluorescence multiparamétrique

FFPE

Analyse d'images

Alignement tissulaire

Carte de chaleur tissulaire

Logiciel VIS

Cellules de Kupffer

Macrophages dérivés de monocytes

Cellules stellaires

Phénotypage spatial

Réponse de cicatrisation

Immunology / Immunologie (UMI : 0982)

Die Bedeutung voraktivierter Monozyten bei ihrer Adhäsion an humane Aorten-, Saphenavenen-, Umbilikalarterien- und Umbilikalvenenendothelzellen und die Untersuchung der Superoxidausschüttung von Endothel und Monozyten bei Patienten mit arterieller Hypertonie und gesunden Kontrollpersonen im Vergleich

Neumann, Gesa

19 October 2004

Einführung - Periphere Blutmonozyten spielen eine Rolle in der Pathogenese der Arteriosklerose. Bei spontan hypertensiven Ratten wurden im Vergleich zu normotonen Wistar-Kyoto-Ratten signifikant erhöhte Zahlen aktivierter Monozyten beobachtet [Liu 1996]. Wir untersuchten Monozyten von Patienten mit essentieller Hypertonie und von gesunden Probanden hinsichtlich möglicher Unterschiede in der Aktivierung anhand ihrer Adhäsion an von uns kultivierte (HAEC) und isolierte (HSVEC, HUVEC, HUAEC) humane Endothelzellen. Wir bestimmten die Adhäsionsmoleküle ICAM-1, VCAM-1 sowie E-Selektin und analysierten die Superoxidfreisetzung von humanem Endothel und Monozyten. Methoden - Humane periphere Blutmonozyten wurden mittels Dichtegradienten-zentrifugation und Plastikadhärenz isoliert und mit LPS, Angiotensin II (Ang II), und Ang II nach Vorinkubation mit dem AT1-Antagonisten Eprosartan stimuliert. Die Monozyten wurden auf einschichtigem Endothel ausgesät und die Adhäsion als Prozentsatz der initial gesäten Zellen erfasst. Die durch PMA induzierte Superoxidfreisetzung des Endothels oder der Monozyten wurde mittels Chemilumineszenz bestimmt. Ergebnisse - Monozyten von Patienten mit essentieller Hypertonie hefteten sich im Vergleich zu gesunden Probanden spontan und nach Stimulation mit Ang II signifikant verstärkt an HAEC und HUVEC-Monolayer an. Die Spiegel von ICAM-1 und VCAM-1 waren bei Patienten mit arterieller Hypertonie im Vergleich zu den gesunden Kontrollpersonen signifikant erhöht. Die Chemilumineszenzaktivität postkonfluenter Endothelzellen erhöhte sich nach Stimulation mit Ang II im Vergleich zur Messung ohne vorherige Stimulierung. Nach Stimulation mit PMA oder mit Ang II wurden bei Hypertonikern signifikant höhere Werte für die Chemilumineszenzaktivität der Monozyten gemessen als bei gesunden Kontrollpersonen. Schluss - Mit diesen Versuchen an humanen Monozyten und Endothelzellen wurde ein weiterer Beweis für die Aktivierung der Monozyten von Patienten mit essentieller Hypertonie erbracht. Meine Ergebnisse unterstützen die Sicht einer Monozytenbeteiligung an der Pathogenese atherosklerotischer Läsionen, die mit arterieller Hypertonie in Zusammenhang stehen. / Introduction - Peripheral blood monocytes are involved in the pathogenesis of atherosclerosis. Significantly elevated numbers of activated monocytes were observed in spontaneously hypertensive rats compared to those in normotensive Wistar-Kyoto rats [Liu 1996]. We isolated and cultivated human endothelial cells and examined monocytes from patients with arterial hypertension and healthy volunteers to identify possible differences in their adhesion behavior to human endothelial cells (HAEC, HSVEC, HUVEC, HUAEC). We determined the levels of ICAM-1, VCAM-1 and E-selectin, and we analyzed superoxide release by human endothelium and human monocytes. Methods - Peripheral blood monocytes were isolated by density gradient centrifugation and plastic adherence. Subsets of the samples were stimulated with LPS, Angiotensin II, Angiotensin II following preincubation with the AT1-antagonist eprosartan or left without a stimulant. After incubation, monocytes were seeded onto confluent monolayers of human aortic endothelial cells and the adhesion was determined as the percentage of the initially seeded cells. Oxygen species release induced by PMA was analyzed for endothelium and monocytes in suspension by chemiluminescence. Results - Peripheral blood monocytes of patients with essential hypertension performed a significantly increased spontaneous adhesion and adhesion following stimulation with Angiotensin II to HAEC- and HUVEC-monolayers. Levels of human soluble adhesion molecules ICAM-1 and VCAM-1 were significantly raised in hypertensive patients. Chemiluminescence activity of post confluent endothelial cells was increased after stimulation with Angiotensin II compared to the measurement before stimulation. Following stimulation with PMA or Angiotensin II, significantly higher chem-iluminescence levels were measured in hypertensive patients compared to healthy volunteers. Conclusion - These data indicate that monocytes of patients with essential hypertension may be preactivated. My results support the view of a monocyte involvement in the pathogenesis of atherosclerotic lesions that are related to arterial hypertension.

humane Monozyten

essentielle Hypertonie

humane Aortenendothelzellen (HAEC)

Zelladhäsion

humanes ICAM-1

humanes VCAM

humanes E-Selektin

Chemilumineszenz

human monocytes

essential hypertension

human aortic endothelial cells (HAEC)

cell adhesion

human ICAM-1

human VCAM-1

human E-Selectin

chemiluminescence

610 Medizin und Gesundheit

33 Medizin

YC 1104

YC 1118

YC 1404

ddc:610