Funktionelle Charakterisierung der Casein Kinase 2 in der Etablierung und Aufrechterhaltung peripherer Toleranz durch dendritische Zellen

Dendritische Zellen (DCs) nehmen eine Schlüsselrolle in unserem Immunsystem ein, indem DCs sowohl Immunität, als auch Toleranz induzieren können. Im Falle der Immunität sind DCs in der Lage die Differenzierung der verschiedenen T-Helferzellen, wie Th1-, Th2- und Th17-Zellen zu steuern und tragen so zu der Qualität einer Immunantwort bei. Auf der anderen Seite können DCs in Gegenwart von TGF-β, IDO und Retinsäure die Differenzierung von regulatorischen T-Zellen induzieren und tragen somit zur Aufrechterhaltung der peripheren Toleranz bei. Insbesondere in den Darm-assoziierten lymphatischen Geweben (GALT) müssen DCs unverhältnismäßige Immunantworten gegen harmlose Antigene aus der Nahrung und kommensale Bakterien verhindern, während gegen Pathogene schützende Immunantworten induziert werden müssen. Auf Grund dieser entgegengesetzten Funktionen der DCs wollten wir die molekularen Mechanismen der DCs untersuchen, die der Regulation von Immunität und Toleranz zu Grunde liegen. Insbesondere der Wnt-Signalweg ist für die Aufrechterhaltung der peripheren Toleranz im GALT von Bedeutung. Da die Casein Kinase 2 in diesem Signalweg entscheidend beteiligt ist, haben wir die CK2-Funktion konditionell, unter der Kontrolle des CD11c-Promotors, deletiert. Hierfür haben wir CD11c-cre Mäuse mit Mäusen verpaart, welche ein von loxP-Signalsequenzen flankiertes Ck2β Gen (CK2β-fl/fl) tragen. Die konditionelle Deletion der CK2-Funktion in DCs, führte zu einer verstärkten Expression der kostimulatorischen Moleküle (wie CD40, CD80, CD86) und der Zytokine IL-6 und IL-12 unter „steady-state“ Bedingungen. Detaillierte Untersuchungen der T-Zellen in CD11c-cre x CK2β-fl/fl Mäusen zeigte eine deutlich reduzierte naive T-Zellpopulation, einhergehend mit einer erhöhten Th1- und Th17-Differenzierung. Speziell in den mesenterialen Lymphknoten konnte eine höhere Frequenz von T-bet+ und Rorγt+ CD4+ T-Zellen gefunden werden, welche große Mengen der Zytokine IFN-γ und IL-17 nach ex vivo Stimulation produzierten. Weiterführende in vivo Versuche, hier wurde das Modell der oralen Toleranz gewählt, zeigten das eine CK2-Deletion in DCs die Induktion einer oralen Toleranz verhindert. Unsere Daten zeigen eindeutig, dass die CK2 entscheidend in der Regulation der DC Homöostase und der Aufrechterhaltung der peripheren Toleranz beteiligt ist.

In vitro characterization of human AML-reactive CTL clones generated from the naive subset of healthy donors and adoptive transfer into leukemia-engrafted NSG mice

Acute myeloid leukemia (AML) is a very aggressive cancer of the hematopoietic system. Chemotherapy and immunotherapeutical approaches including hematopoietic stem cell transplantation (HSCT) and donor lymphocyte infusion (DLI) are the only curative options available. The beneficial graft-versus-leukemia (GVL) effect of cellular immunotherapy is mostly mediated by donor-derived CD8+ T lymphocytes that recognize minor histocompatibility antigens (mHags) and leukemia-associated antigens (LAAs) presented on the surface of AML blasts (Falkenburg et al. 2008; Kolb 2008). A main complication is graft-versus-host disease (GVHD) that can be induced when cytotoxic T lymphocytes (CTLs) recognize broadly expressed antigens. To reduce the risk of GVHD, specific allogeneic T-cell therapy inducing selective GVL responses could be an option (Barrett & Le Blanc 2010; Parmar et al. 2011; Smits et al. 2011). This requires efficient in vitro strategies to generate AML-reactive T cells with an early differentiation phenotype as well as vigorous effector functions and humanized mouse models to analyze the anti-leukemic potential of adoptively transferred T cells in vivo. In this study, AML-reactive CTL clones and oligoclonal T-cell lines could be reliably generated from the naive subset of healthy HLA-class I-identical donors by stimulation with primary AML blasts in mini-mixed-lymphocyte / leukemia cultures (MLLCs) in eight different patient / donor pairs. These CTLs were promising candidates for cellular immunotherapy because of their relatively early differentiation phenotype and strong proliferative and lytic capabilities. The addition of the common γ-chain cytokine IL-21 to the stimulation protocol enabled more precursors to develop into potent leukemia-reactive CTLs, presumably by its beneficial effects on cell survival and antigen-specific proliferation during the first weeks of cultures. It also strengthened the early-stage phenotype. Three long-term cultured CTLs exemplarily transferred into leukemia-engrafted immunodeficient NSG mice mediated a significant reduction of the leukemic burden after a single transfusion. These results demonstrate that CTL clones with reactivity to patient-derived AML blasts can be isolated from the naive compartment of healthy donors and show potent anti-leukemic effects in vivo. The herein described allo-MLLC approach with in vitro “programmed” naive CTL precursors independent of a HSCT setting is a valuable alternative to the conventional method of isolating in vivo primed donor CTLs out of patients after transplantation (Kloosterboer et al. 2004; Warren et al. 2010). This would make leukemia-reactive CTLs already available at the time point of HSCT, when residual leukemia disease is minimal and the chances for complete leukemia eradication are high. Furthermore, leukemia-reactive CTLs effectively expanded by this in vitro protocol can be used as screening populations to identify novel candidate LAAs and mHags for antigen-specific immunotherapy.

Etablierung eines Triple-Kultur-Modells der oberen Atemwege unter Einbeziehung immunkompetenter Zellen

Organophosphate können chronische Lungenerkrankungen und Vergiftungen hervorrufen. Bei der Vergiftung erfolgt eine Immunreaktion, welche noch nicht erforscht ist. In dieser Arbeit wurden Toxizitätsstudien an dendritischen Zellen und einem bronchialen Triple-Kultur-Modell durchgeführt. Dendritische Zellen spielen bei der ersten Immunabwehr in der Lunge eine große Rolle. Aus der Zell-Linie THP-1 und primären Monozyten wurden reife dendritische Zellen differenziert und mittels Durchflusszytometrie und Immunfluoreszenz auf spezifische Zellmarker, wie zum Beispiel CD11c, CD83 oder auch CD209, charakterisiert und etabliert. Durch die Vergiftung der Zellen mit Dimethoat und Chlorpyrifos konnte eine Erhöhung des Zelltodes, die Sekretion von proinflammatorischen Mediatoren, Veränderungen in der Morphologie der Zellen und ein Effekt auf den Proteinkinase-Signalweg festgestellt werden. Spezifische dendritische Zellmarker (CD83, CD209) wurden inhibiert und die Dendriten der Dendritischen Zellen kürzer und beschädigt. Die Schädigung von Chlorpyrifos war erheblich größer, als die bei Dimethoat.rnDie weiteren Toxizitätsstudien wurden an einem bronchialen Triple-Kultur-Modell durchgeführt. Hierzu wurden auf Transwell-Filtermembranen bronchiale Epithelzellen, Fibroblastenzellen und Dendritische Zellen verwendet. Die bronchialen Epithelzellen und Fibroblastenzellen waren hier physiologisch voneinander getrennt, konnten aber durch Poren in der Membran miteinander interagieren. Die Etablierung des Triple-Kultur-Modells erfolgte durch die Untersuchung von Entzündungsprozessen, durch Stimulation mit LPS, TNF-alpha und Interferon-gamma. In der Ko-Kultur konnten Zell-Zell-Kontakt Schädigungen und Erhöhung von proinflammatorischen Markern, wie zum Beispiel IL-1ß, IL-6 oder auch IL-8 gemessen werden. Versuche in der Triple-Kultur zeigten den positiven Effekt von Dendritischen Zellen. Bei höheren Konzentrationsbereichen von Dimethoat und Chlorpyrifos konnte ein Wandern der Zellen zu den geschädigten Zell-Zell-Kontakten nachgewiesen werden. Die Ausschüttung der proinflammatorischen Mediatoren wurde inhibiert, vor allem bei IL-10 war eine deutliche Reduktion, um mehr als 70% messbar. Ebenso konnten Veränderungen in dem Apoptose-Signalblick festgestellt werden. Vor allem anti-apoptotische Proteine wurden nach einer Vergiftung der Triple-Kultur induziert. Interventionsstudien mit Vitamin C zeigten allerdings keinen positiven Effekt.

Skin-infiltrating T cells and cytokine expression in Icelandic horses affected with insect bite hypersensitivity: a possible role for regulatory T cells

Equine insect bite hypersensitivity (IBH) is a seasonally recurrent, pruritic skin disorder caused by an IgE-mediated reaction to salivary proteins of biting flies, predominantly of the genus Culicoides. The aim of this study was to define T cell subsets and cytokine profile in the skin of IBH-affected Icelandic horses with particular focus on the balance between T helper (Th) 1, Th2 and T regulatory (Treg) cells. Distribution and number of CD4+, CD8+ and Forkhead box P3 (FoxP3)+ T cells were characterized by immunohistochemical staining in lesional and non-lesional skin of moderately and severely IBH-affected horses (n=14) and in the skin of healthy control horses (n=10). Using real-time quantitative reverse transcription-polymerase chain reaction, mRNA expression levels of Th2 cytokines (Interleukin (IL)-4, IL-5, IL-13), Th1 cytokines (Interferon-gamma), regulatory cytokines (Transforming Growth Factor beta1, IL-10) and the Treg transcription factor FoxP3 were measured in skin and blood samples. Furthermore, Culicoides nubeculosus specific serum IgE levels were assessed. Lesions of IBH-affected horses contained significantly higher numbers of CD4+ cells than skin of healthy control horses. Furthermore, the total number of T cells (CD4+ and CD8+) was significantly increased in lesional compared to non-lesional skin and there was a tendency (p=0.07) for higher numbers of CD4+ cells in lesional compared to non-lesional skin. While the number of FoxP3+ T cells did not differ significantly between the groups, the ratio of Foxp3 to CD4+ cells was significantly lower in lesions of severely IBH-affected horses than in moderately affected or control horses. Interestingly, differences in FoxP3 expression were more striking at the mRNA level. FoxP3 mRNA levels were significantly reduced in lesional skin, compared both to non-lesional and to healthy skin and were also significantly lower in non-lesional compared to healthy skin. Expression levels of IL-13, but not IL-4 or IL-5, were significantly elevated in lesional and non-lesional skin of IBH-affected horses. IL-10 levels were lower in lesional compared to non-lesional skin (p=0.06) and also lower (p=0.06) in the blood of IBH-affected than of healthy horses. No significant changes were observed regarding blood expression levels of Th1 and Th2 cytokines or FoxP3. Finally, IBH-affected horses had significantly higher Culicoides nubeculosus specific serum IgE levels than control horses. The presented data suggest that an imbalance between Th2 and Treg cells is a characteristic feature in IBH. Treatment strategies for IBH should thus aim at restoring the balance between Th2 and Treg cells.

Maternal tobacco smoking and decreased leukocytes, including dendritic cells, in neonates

Maternal smoking in pregnancy is associated with respiratory diseases in the offspring, possibly due to prenatal influences on the developing immune system. We investigated whether maternal smoking in pregnancy was associated with cord blood leukocyte numbers, including precursor dendritic cells, adjusting for concomitant factors. In a prospective healthy birth cohort study, total leukocyte counts were reduced in neonates of smoking mothers [10.7 (8.4-13.0), n=14] compared with nonexposed infants [14.7 (13.7-15.7), n=74, p=0.002] [geometric mean cells x 10(3)/microL (95% confidence interval)]. All leukocyte subsets were decreased, most prominently segmented neutrophils [4.3 (2.8-5.7) versus 6.2 (5.5-6.8), p=0.021], lymphocytes [3.8 (2.9-4.8) versus 5.0 (4.5-5.6), p=0.036], and myeloid precursor dendritic cells [12.7 cells/microL (9.1-17.8) versus 18.3 (15.8-21.2), p=0.055]. These differences persisted after adjustment for possible confounders. Predictors of myeloid precursor dendritic cell numbers in multivariable models were maternal smoking (-5.1 cells/microL, p=0.042), age (-0.5 cells/microL/y, p=0.035), and, marginally, asthma (+8.1 cells/microL, p=0.075). The decrease of all leukocytes in neonates of smoking mothers could be clinically significant and suggests a decreased cell production, increased peripheral recruitment, or retention in bone marrow. Given the importance of dendritic cells in early immune responses, their decrease might reflect an impact of maternal smoking on the developing fetal immune system.

Th17 cells and tissue remodeling in atopic and contact dermatitis

BACKGROUND: Eczematous skin lesions of atopic dermatitis (AD) as well as allergic and irritant contact dermatitis (ACD, ICD) are characterized by the same typical clinical signs, although due to different causes. In both AD and ACD, the presence of T helper 17 cells which play an important role in host defense, has been reported. Furthermore, IL-17 is involved in tissue repair and remodeling. This study aimed to investigate IL-17 expression in acute eczematous skin lesions and correlate it with markers of remodeling in AD, ACD, and ICD. METHODS: Skin specimens were taken from positive patch test reactions to aeroallergens, contact allergens, and irritants at days 2, 3, and 4. Inflammatory cells as well as the expression of cytokines and extracellular matrix proteins were evaluated by immunofluorescence staining and confocal microscopy. RESULTS: Allergic contact dermatitis and ICD were characterized by IFN-γ expression, whereas in AD lesions, IL-13 expression and high numbers of eosinophils were the prominent phenotype. Expression of IL-17, but also IL-21 and IL-22, was observed in all eczema subtypes. The number of IL-22+ T cells correlated with the number of eosinophils. Markers of remodeling such as MMP-9, procollagen-3, and tenascin C were observed in all acute eczematous lesions, while a correlation of IL-17+ T cell numbers with tenascin C-expressing cells and MMP-9+ eosinophils was apparent. CONCLUSION: The expression of IL-17 and related cytokines, such as IL-22, was demonstrated in acute eczematous lesions independent of their pathogenesis. Our results suggest a potential role for IL-17 in remodeling of the skin.

Characterization and optimization of antigen-specific T cell responses during ex vivo expansion of melanoma tumor-infiltrating lymphocytes

Treatment of metastatic melanoma with tumor reactive T cells (adoptive T cell therapy, ACT) is a promising approach associated with a high clinical response rate. However, further optimization of this treatment modality is required to increase the clinical response after this therapy. ACT in melanoma involves an initial phase (pre-REP) of tumor-infiltrating lymphocyte (TIL) expansion ex vivo from tumor isolates followed by a second phase, “rapid expansion protocol” (REP) generating the billions of cells used as the TIL infusion product. The main question addressed in this thesis was how the currently used REP affected the responsiveness of the CD8+ T cells to defined melanoma antigens. We hypothesized that the REP drives the TIL to further differentiate and become hyporesponsive to antigen restimulation, therefore, proper cytokine treatment or other ways to expand TIL is required to improve upon this outcome. We evaluated the response of CD8+ TIL to melanoma antigen restimulation using MART-1 peptide-pulsed mature DC in vitro. Post-REP TILs were mostly hypo-responsive with poor proliferation and higher apoptosis. Phenotypic analysis revealed that the expression of CD28 was significantly reduced in post-REP TILs. By sorting experiment and microarray analysis, we confirmed that the few CD28+ post-REP TILs had superior survival capacity and proliferated after restimulation. We then went on to investigate methods to maintain CD28 expression during the REP and improve TIL responsiveness. Firstly, IL-15 and IL-21 were found to synergize in maintaining TIL CD28 expression and antigenic responsiveness during REP. Secondly, we found IL-15 was superior as compared to IL-2 in supporting the long-term expansion of antigen-specific CD8+ TIL after restimulation. These results suggest that current expansion protocols used for adoptive T-cell therapy in melanoma yield largely hyporesponsive products containing CD8+ T cells unable to respond in vivo to re-stimulation with antigen. A modification of our current approaches by using IL-15+IL-21 as supporting cytokines in the REP, or/and administration of IL-15 instead of IL-2 after TIL infusion, may enhance the anti-tumor efficacy and long-term persistence of infused T cells in vivo.

TGF-βRI kinase activity mediates Emdogain-stimulated in vitro osteoclastogenesis.

OBJECTIVES Emdogain, containing an extract of fetal porcine enamel matrix proteins, is a potent stimulator of in vitro osteoclastogenesis. The underlying molecular mechanisms are, however, unclear. MATERIAL AND METHODS Here, we have addressed the role of transforming growth factor-beta receptor type 1 (TGF-βRI) kinase activity on osteoclastogenesis in murine bone marrow cultures. RESULTS Inhibition of TGF-βRI kinase activity with SB431542 abolished the effect of Emdogain on osteoclastogenesis induced by receptor activator of nuclear factor kappa-B ligand or tumor necrosis factor-alpha. SB431542 also suppressed the Emdogain-mediated increase of OSCAR, a co-stimulatory protein, and dendritic cell-specific transmembrane protein and Atp6v0d2, the latter two being involved in cell fusion. Similar to transforming growth factor-beta1 (TGF-β), Emdogain could not compensate for the inhibition of IL-4 and IFNγ on osteoclast formation. When using the murine macrophage cell line RAW246.7, SB431542 and the smad-3 inhibitor SIS3 blocked Emdogain-stimulated expression of the transcription factor NFATc1. CONCLUSIONS Taken together, the data suggest that TGF-βRI kinase activity is necessary to mediate in vitro effects of Emdogain on osteoclastogenesis. CLINICAL RELEVANCE Based on these in vitro data, we can speculate that at least part of the clinical effects of Emdogain on osteoclastogenesis is mediated via TGF-β signaling.

Inflammatory Breast Cancer: The Immune Perspective

Inflammatory breast cancer (IBC) is the most insidious form of locally advanced disease. Although rare and less than 2% of all breast cancer, IBC is responsible for up to 10% of all breast cancer deaths. Despite the name, very little is known about the role of inflammation or immune mediators in IBC. Therefore, we analyzed blood samples from IBC patients and non-IBC patients, as well as healthy donor controls to establish an IBC-specific profile of peripheral blood leukocyte phenotype and function of T cells and dendritic cells and serum inflammatory cytokines. Emerging evidence suggests that host factors in the microenviromement may interact with underlying IBC genetics to promote the aggressive nature of the tumor. An integral part of the metastatic process involves epithelial to mesenchymal transition (EMT) where primary breast cancer cells gain motility and stem cell-like features that allow distant seeding. Interestingly, the IBC consortium microarray data found no clear evidence for EMT in IBC tumor tissues. It is becoming increasingly evident that inflammatory factors can induce EMT. However, it is unknown if EMT-inducing soluble factors secreted by activated immune cells in the IBC microenvironment canπ account for the absence of EMT in studies of the tumor cells themselves. We hypothesized that soluble factors from immune cells are capable of inducing EMT in IBC. We tested the ability of immune conditioned media to induce EMT in IBC cells. We found that soluble factors from activated immune cells are able to induce the expression of EMT-related factors in IBC cells along with increased migration and invasion. Specifically, the pro-inflammatory cytokines TNF-α, IL-6 and TGF-β were able to induce EMT and blocking these factors in conditioned media abated the induction of EMT. Surprisingly, unique to IBC cells, this process was related to increased levels of E-cadherin expression and adhesion, reminiscent of the characteristic tightly packed tumor emboli seen in IBC samples. This data offers insight into the unique pathology of IBC by suggesting that tumor immune interactions in the tumor microenvironment contribute to the aggressive nature of IBC implying that immune induced inflammation can be a novel therapeutic target. Specifically, we showed that soluble factors secreted by activated immune cells are capable of inducing EMT in IBC cells and may mediate the persistent E-cadherin expression observed in IBC. This data suggests that immune mediated inflammation may contribute to the highly aggressive nature of IBC and represents a potential therapeutic target that warrants further investigation.

Linfoma renale del gatto:rilievi anatomopatologici, immunofenotipizzazione delle popolazioni linfocitarie ed espressione tissutale dell'antigene virale FeLV gp70.

Riassunto Il linfoma è una delle neoplasie più diffuse nel gatto. Questa neoplasia è stata classificata in base alla localizzazione anatomica nella forma Mediastinica (che interessa il timo e/o i linfonodi mediastinici), Alimentare, Multicentrica (che interessa diversi linfonodi e/o la milza e/o il fegato, Extranodale (che coinvolge i reni, SNC o la cute). Le cellule neoplastiche sono caratterizzate da diverse sottopopolazioni, che sono definite tramite immunofenotipizzazione ottenuta mediante tecniche immunoistochimiche (IHC), così che possano essere classificate come cellule B o T o non B/non T. I gatti infetti dal virus della leucemia felina (FeLV, Gammaretrovirus) presentano elevata incidenza di linfomi rispetto ai gatti non infetti. I meccanismi proposti di sviluppo neoplastico sono mutagenesi inserzionali o stimolazione persistente delle cellule immunitarie dell’ospite da parte di antigeni virali, i quali possono promuovere la trasformazione in senso maligno dei linfociti. Lo scopo di questo lavoro è stato esaminare i rilievi patologici, l’espressione di FeLV e l’immonofenotipo (B, T, nonB/nonT) nei reni felini affetti da linfoma. Abbiamo effettuato colorazione Ematossilina- Eosina ed Immunoistochimica per FeLV gp70, CD3 e CD79. Nello studio sono stati inclusi i tessuti di 49 gatti presentati all’Unità Operativa di Anatomia Patologica e Patologia Generale del Dipartimento di Scienze Medico Veterinarie dell’Università degli studi di Parma. Il 39% dei casi (19/49) sono caratterizzati dalla presenza di lesioni linfomatose a livello renale. Questa popolazione è costituita dal 52,6% 3 (10/19) maschi e dal 47,4% (9/19) femmine. L’età è compresa tra 8 mesi e 17 anni ed in particolare 26,6% (5/19) sono giovani (0-2 anni), 47,4% (9/19) sono adulti (2-10 anni) e 26,3% (5/19) sono anziani (>10 anni). Per quanto riguarda la classificazione anatomica la forma renale appare primitiva in 5 casi (25%), in 8 casi (42%) appare secondaria a linfomi multicentrici, in 3 casi (15,7%) a linfomi mediastinici e in altri 3 casi (15,7%) a linfomi gastrici e intestinali. Per quanto riguarda l’immunofenotipizzazione sono risultati CD3 positivi il 73,7% (14/19) e CD3 negativi il 27,3% (5/19); CD79 alpha positivi il 26,3% (5/19) e CD79 alpha negativi il 73,7% (14/19); l’espressione della proteina gp70 è stata individuata nel 78,9% (15/19) delle neoplasie renali, mentre il 21,1% (4/19) non presentava espressione della proteina. Nei 4 anni presi in considerazione nello studio si evince un’elevata incidenza della localizzazione anatomica renale sul totale di linfomi osservati. Non si è notata correlazione statistica tra linfomi renali, età e sesso dei soggetti presi in esame ma vi è un’elevata percentuale di animali adulti ed anziani affetti dalla patologia. Nella valutazione fenotipica dell’infiltrato neoplastico si è osservata l’elevata espressione di CD3, caratterizzando i linfociti come appartenenti alla sottopopolazione T. Inoltre si è evidenziato come un elevato numero di cellule neoplastiche esprimano gp70; ciò permette di affermare che i linfociti neoplastici sono infettati dal virus FeLV, il quale inoltre è in attiva replicazione. I marker CD3 e gp70 sono risultati fortemente correlati statisticamente; si può affermare perciò che l’espansione clonale dei linfociti T è correlata alla presenza e replicazione del virus.

Investigating the thymopoiesis stimulating property of interleukin-21 in aging mice

La vaccination est largement utilisée pour la génération de lymphocytes T spécifiques contre les tumeurs. Malheureusement, cette stratégie n'est pas adaptée aux personnes âgées car leur thymus régresse avec l'âge conduisant ainsi à une baisse dans la production de cellules T et à l'accumulation de cellules immunitaires âgées ayant des défauts liés à leurs stimulations. Comme il a été démontré auparavant que L’IL-21 est capable d’induire des fonctions thymiques, nous avons émis l’hypothèse que l’injection d’IL-21 à des souris âgées stimulera la thymopoïèse. Nos résultats montrent que l’administration de l’IL-21 augmente le nombre absolu de thymocytes chez les souris âgées et augmente la migration de ces cellules vers la périphérie ou ils contribuent à la diversité du TCR. De plus les cellules T en périphérie expriment un niveau plus élevé de miR181-a, et par conséquent moins de phosphatase comme SHP2, DUSP5/6 qui inhibent le TCR. En vaccinant des souris âgées avec le peptide Trp2, les souris traitées avec l’IL-21 montrent un retard dans la croissance des cellules B16 tumorales. Cette étude montre que l’IL-21 pourrait être utilisé comme stratégie pour le rétablissement du systeme immunitaire chez les personnes âgées.

Oxygen tension modulates the cytokine response of oral epithelium to periodontal bacteria

Background: There is an inverse relationship between pocket depth and pocket oxygen tension with deep pockets being associated with anaerobic bacteria. However, little is known about how the host tissues respond to bacteria under differing oxygen tensions within the periodontal pocket. Aim: To investigate the effect of different oxygen tensions upon nuclear factor-kappa B (NF-?B) activation and the inflammatory cytokine response of oral epithelial cells when exposed to nine species of oral bacteria. Materials and Methods: H400 oral epithelial cells were equilibrated at 2%, 10% or 21% oxygen. Cells were stimulated with heat-killed oral bacteria at multiplicity of infection 10:1, Escherichia coli lipopolysaccharide (15 µg/ml) or vehicle control. Interleukin-8 (IL-8) and tumour necrosis factor-alpha (TNF-a) levels were measured by enzyme-linked immunosorbent assay and NF-?B activation was measured by reporter vector or by immunohistochemical analysis. Results: Tannerella forsythensis, Porphyromonas gingivalis and Prevotella intermedia elicited the greatest epithelial NF-?B activation and cytokine responses. An oxygen-tension-dependent trend in cytokine production was observed with the highest IL-8 and TNF-a production observed at 2% oxygen and lowest at 21% oxygen. Conclusions: These data demonstrate a greater pro-inflammatory host response and cell signalling response to bacteria present in more anaerobic conditions, and hypersensitivity of epithelial cells to pro-inflammatory stimuli at 2% oxygen, which may have implications for disease pathogenesis and/or therapy.

The Immunomodulatory Role of Alcohol on HIV-Infected Monocyte-Derived Dendritic Cells

Alcohol is known to induce inflammation in the presence of the human immunodeficiency virus (HIV). In our previous studies, we revealed that alcohol induces cannabinoid receptors which play a role in the regulation of inflammatory cytokine production in monocyte-derived dendritic cells (MDDC). However, the ability of alcohol to alter MDDC function during HIV infection has not been clearly elucidated yet. To study the potential impact of alcohol on HIV-infected MDDC (confirmed by p24 ELISA), monocytes were isolated from commercially available buffy coats and cultured for 7 days with GM-CSF and IL-4. MDDC were infected with HIV- 1Ba-L and treated with different concentrations of alcohol (0.1% band 0.2%) for 4-7 days. MDDC phenotype, endocytosis, cytokine production, and ability to transmit HIV to T cells were analyzed. Uninfected CD4+ T cells were co-cultured for 7 days with either infected/treated MDDC or the supernatants from infected/treated MDDC. Inflammatory cytokine arrays were performed using supernatants from HIV-infected MDDC treated with alcohol. Results showed that HIV positive MDDC treated with alcohol had higher levels of infection compared to untreated HIV positive controls. CD4+ T cells exposed to HIV-infected MDDC acquired 100-fold higher levels of p24 compared to CD4+ T cells exposed to only supernatants. CD4+ T cells exposed to HIV-infected and alcohol-treated MDDC had higher levels of infection compared to controls. Cytokine array data show dysregulation of cytokine production by alcohol. In addition, MDDC phenotype and endocytic capacity were altered in the alcohol treated MDDC. Our results indicate a crucial role of MDDC in HIV transmission to T cells and provide insights into the inflammatory role alcohol exerts on dendritic cell function in the context of HIV infection. Supported by the National Institute on Alcohol Abuse and Alcoholism award R00AA021264, the National Institute on Drug Abuse award R01DA034547, and the Institute on NeuroImmune Pharmacology at FIU.

Calcium/Calmodulin-Dependent Protein Kinase Kinase 2 (CaMKK2) Regulates Dendritic Cells and Myeloid Derived Suppressor Cells Development in the Lymphoma Microenvironment

Calcium (Ca2+) is a known important second messenger. Calcium/Calmodulin (CaM) dependent protein kinase kinase 2 (CaMKK2) is a crucial kinase in the calcium signaling cascade. Activated by Ca2+/CaM, CaMKK2 can phosphorylate other CaM kinases and AMP-activated protein kinase (AMPK) to regulate cell differentiation, energy balance, metabolism and inflammation. Outside of the brain, CaMKK2 can only be detected in hematopoietic stem cells and progenitors, and in the subsets of mature myeloid cells. CaMKK2 has been noted to facilitate tumor cell proliferation in prostate cancer, breast cancer, and hepatic cancer. However, whethter CaMKK2 impacts the tumor microenvironment especially in hematopoietic malignancies remains unknown. Due to the relevance of myeloid cells in tumor growth, we hypothesized that CaMKK2 has a critical role in the tumor microenvironment, and tested this hyopothesis in murine models of hematological and solid cancer malignancies.

We found that CaMKK2 ablation in the host suppressed the growth of E.G7 murine lymphoma, Vk*Myc myeloma and E0771 mammary cancer. The selective ablation of CaMKK2 in myeloid cells was sufficient to restrain tumor growth, of which could be reversed by CD8 cell depletion. In the lymphoma microenvironment, ablating CaMKK2 generated less myeloid-derived suppressor cells (MDSCs) in vitro and in vivo. Mechanistically, CaMKK2 deficient dendritic cells showed higher Major Histocompatibility Class II (MHC II) and costimulatory factor expression, higher chemokine and IL-12 secretion when stimulated by LPS, and have higher potent in stimulating T-cell activation. AMPK, an anti-inflammatory kinase, was found as the relevant downstream target of CaMKK2 in dendritic cells. Treatment with CaMKK2 selective inhibitor STO-609 efficiently suppressed E.G7 and E0771 tumor growth, and reshaped the tumor microenvironment by attracting more immunogenic myeloid cells and infiltrated T cells.

In conclusion, we demonstrate that CaMKK2 expressed in myeloid cells is an important checkpoint in tumor microenvironment. Ablating CaMKK2 suppresses lymphoma growth by promoting myeloid cells development thereby decreasing MDSCs while enhancing the anti-tumor immune response. CaMKK2 inhibition is an innovative strategy for cancer therapy through reprogramming the tumor microenvironment.

Antigen Drives Regulatory B10 Cell Development and Function

B cells mediate immune responses via the secretion of antibody and interactions with other immune cell populations through antigen presentation, costimulation, and cytokine secretion. Although B cells are primarily believed to promote immune responses using the mechanisms described above, some unique regulatory B cell populations that negatively influence inflammation have also been described. Among these is a rare interleukin (IL)-10-producing B lymphocyte subset termed “B10 cells.” B cell-derived IL-10 can inhibit various arms of the immune system, including polarization of Th1/Th2 cell subsets, antigen presentation and cytokine production by monocytes and macrophages, and activation of regulatory T cells. Further studies in numerous autoimmune and inflammatory models of disease have confirmed the ability of B10 cells to negatively regulate inflammation in an IL-10-dependent manner. Although IL-10 is indispensable to the effector functions of B10 cells, how this specialized B cell population is selected in vivo to produce IL-10 is unknown. Some studies have demonstrated a link between B cell receptor (BCR)-derived signals and the acquisition of IL-10 competence. Additionally, whether antigen-BCR interactions are required for B cell IL-10 production during homeostasis as well as active immune responses is a matter of debate. Therefore, the goal of this thesis is to determine the importance of antigen-driven signals during B10 cell development in vivo and during B10 cell-mediated immunosuppression.

Chapter 3 of the dissertation explored the BCR repertoire of spleen and peritoneal cavity B10 cells using single-cell sequencing to lay the foundation for studies to understand the full range of antigens that may be involved in B10 cell selection. In both the spleen and peritoneal cavity B10 cells studied, BCR gene utilization was diverse, and the expressed BCR transcripts were largely unmutated. Thus, B10 cells are likely capable of responding to a wide range of foreign and self-antigens in vivo.

Studies in Chapter 4 determined the predominant antigens that drive B cell IL-10 secretion during homeostasis. A novel in vitro B cell expansion system was used to isolate B cells actively expressing IL-10 in vivo and probe the reactivities of their secreted monoclonal antibodies. B10 cells were found to produce polyreactive antibodies that bound multiple self-antigens. Therefore, in the absence of overarching active immune responses, B cell IL-10 is secreted following interactions with self-antigens.

Chapter 5 of this dissertation investigated whether foreign antigens are capable of driving B10 cell expansion and effector activity during an active immune response. In a model of contact-induced hypersensitivity, in vitro B cell expansion was again used to isolate antigen-specific B10 clones, which were required for optimal immunosuppression.

The studies described in this dissertation shed light on the relative contributions of BCR-derived signals during B10 cell development and effector function. Furthermore, these investigations demonstrate that B10 cells respond to both foreign and self-antigens, which has important implications for the potential manipulation of B10 cells for human therapy. Therefore, B10 cells represent a polyreactive B cell population that provides antigen-specific regulation of immune responses via the production of IL-10.