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Survivin,which is the smallest member of the inhibitor of apoptosis protein (IAP) family,is a chromosomal passenger protein that mediates the spindle assembly checkpoint and cytokinesis,and also functions as an inhibitor of apoptosis. Frequently overexpressed in human cancers and not expressed in most adult tissues,survivin has been proposed as an attractive target for anticancer therapies and,in some cases,has even been touted as a cancer-specific gene. Survivin is,however,expressed in proliferating adult cells,including human hematopoietic stem cells,T-lymphocytes,and erythroid cells throughout their maturation. Therefore,it is unclear how survivin-targeted anticancer therapies would impact steady-state blood development. To address this question,we used a conditional gene-targeting strategy and abolished survivin expression from the hematopoietic compartment of mice. We show that inducible deletion of survivin leads to ablation of the bone marrow,with widespread loss of hematopoietic progenitors and rapid mortality. Surprisingly,heterozygous deletion of survivin causes defects in erythropoiesis in a subset of the animals,with a dramatic reduction in enucleated erythrocytes and the presence of immature megaloblastic erythroblasts. Our studies demonstrate that survivin is essential for steady-state hematopoiesis and survival of the adult,and further,that a high level of survivin expression is critical for proper erythroid differentiation. View Publication

A newly recognized link between the complement system and adaptive immunity is that decay accelerating factor (DAF),a cell surface C3/C5 convertase regulator,exerts control over T cell responses. Extending these results,we show that cultures of Marilyn TCR-transgenic T cells stimulated with DAF-deficient (Daf1(-/-)) APCs produce significantly more IL-12,C5a,and IFN-gamma compared with cultures containing wild-type APCs. DAF-regulated IL-12 production and subsequent T cell differentiation into IFN-gamma-producing effectors was prevented by the deficiency of either C3 or C5a receptor (C5aR) in the APC,demonstrating a link between DAF,local complement activation,IL-12,and T cell-produced IFN-gamma. Bone marrow chimera experiments verified that bone marrow cell-expressed C5aR is required for optimal differentiation into IFN-gamma-producing effector T cells. Overall,our results indicate that APC-expressed DAF regulates local production/activation of C5a following cognate T cell/APC interactions. Through binding to its receptor on APCs the C5a up-regulates IL-12 production,this in turn,contributes to directing T cell differentiation toward an IFN-gamma-producing phenotype. The findings have implications for design of therapies aimed at altering pathologic T cell immunity. View Publication

BACKGROUND The inhibition of Janus kinases (JAKs) and subsequent signal transducers and activators of transcription (STATs) by tofacitinib represents a new therapeutic strategy in inflammatory bowel diseases (IBD) as clinical trials have led to approval of tofacitinib for ulcerative colitis (UC) and hint at a possible efficacy for Crohn`s disease (CD). However,the impact of tofacitinib on cellular response of monocytes,which are key players in inflammatory responses,has not been investigated so far. We aimed to analyze JAK/STAT-inhibition by tofacitinib in monocytes of IBD patients and healthy controls. METHODS Primary monocytes of IBD patients with active disease and healthy controls (n = 18) were analyzed for cytokine expression and phenotype after granulocyte macrophage colony-stimulating factor (GM-CSF)/interferon (IFN)$\gamma$-stimulation and tofacitinib pretreatment (1-1000 nM) and capacity to induce Foxp3+-regulatory T cells (Tregs) in cocultures. In total,20 UC patients and 21 CD patients were included. Additionally,dose-dependent inhibition of JAK/STAT-phosphorylation was analyzed in controls. RESULTS Pro-inflammatory costimulation with GM-CSF/IFN$\gamma$ resulted in significant tumor necrosis factor (TNF$\alpha$) and interleukin (IL)-6 increase,whereas IL-10 expression decreased in monocytes. Tofacitinib modulated the responses of activated monocytes toward a regulatory phenotype through reduced TNF$\alpha$ and IL-6 secretion and enhanced Treg induction in cocultures. However,in monocytes from active IBD patients,higher tofacitinib dosages were needed for blockade of pro-inflammatory cytokines. Tofacitinib induced stronger regulatory phenotypes in monocytes of UC patients,including more effective inhibition of pro-inflammatory pathways and better restoration of anti-inflammatory mechanisms as compared with CD-derived monocytes. CONCLUSION Tofacitinib dose-dependently reprograms monocytes toward a more regulatory cell type. This beneficial effect possibly results from selective JAK/STAT-blockade by adequate tofacitinib dosage with inhibition of pro-inflammatory responses and permission of a balance-shift toward regulatory pathways. View Publication

The higher-order architecture observed in biological systems,like viruses,is very effective in nucleic acid transport. The replications of this system has been attempted with both synthetic and naturally occurring polymers with mixed results. Here we describe a peptide/siRNA quaternary complex that functions as an siRNA delivery system. The rational design of a peptide assembly is inspired by the viral capsids,but not derived from them. We selected the collagen peptide (COL) to provide the structural stability and the folding framework,and hybridize it with the cell penetrating peptide (CPP) that allows for effective penetration of biological barriers. The peptide/siRNA quaternary complex forms stoichiometric,10 nm nanoparticles,that show fast cellular uptake ({\textless}30 min),effective siRNA release,and gene silencing. The complex provides capsid-like protection for siRNA against nucleases without being immunostimulatory,or cytotoxic. Our data suggests that delivery vehicles based on synthetic quaternary structures that exhibit higher-order architecture may be effective in improving delivery and release of nucleic acid cargo. View Publication

Parasitic helminths cause significant damage as they migrate through host tissues to complete their life cycle. While chronic helminth infections are characterized by a well-described Type 2 immune response,the early,tissue-invasive stages are not well understood. Here we investigate the immune pathways activated during the early stages of Heligmosomoides polygyrus bakeri (Hpb),a natural parasitic roundworm of mice. In contrast to the Type 2 immune response present at later stages of infection,a robust Type 1 immune signature including IFNg production was dominant at the time of parasite invasion and granuloma formation. This early response was associated with an accumulation of activated Natural Killer (NK) cells,with no increase of other innate lymphoid cell populations. Parabiosis and confocal microscopy studies indicated that NK cells were recruited from circulation to the small intestine,where they surrounded parasitic larvae. NK cell recruitment required IFN$\gamma$ receptor signaling,but was independent of CXCR3 expression. The depletion of tissue-infiltrating NK cells altered neither worm burden nor parasite fitness,but increased vascular injury,suggesting a role for NK cells in mediating tissue protection. Together,these data identify an unexpected role for NK cells in promoting disease tolerance during the invasive stage of an enteric helminth infection. View Publication

Human neutrophilic granulocytes form the largest pool of innate immune cells for host defense against bacterial and fungal pathogens. The dynamic changes that accompany the metamorphosis from a proliferating myeloid progenitor cell in the bone marrow into a mature non-dividing polymorphonuclear blood cell have remained poorly defined. Using mass spectrometry-based quantitative proteomics combined with transcriptomic data,we report on the dynamic changes of five developmental stages in the bone marrow and blood. Integration of transcriptomes and proteome unveils highly dynamic and differential interactions between RNA and protein kinetics during human neutrophil development,which can be linked to functional maturation of typical end-stage blood neutrophil killing activities. View Publication

Epitope-specific CD4+ T cells can be labeled in complex cell mixtures from secondary lymphoid organs with fluorophore-labeled peptide:major histocompatibility complex class II (p:MHCII) tetramers and then detected by flow cytometry. Magnetic enrichment of tetramer-bound cells before flow cytometry increases the sensitivity of detection to the point where epitope-specific cells can be studied even when very rare at early and late times after the host has been exposed to the epitope. This method is very useful for studying polyclonal epitope-specific CD4+ T cells under physiological conditions. {\textcopyright} 2019 by John Wiley {\&} Sons,Inc. View Publication

Abdominal aortic aneurysm (AAA) is a prevalent life-threatening disease,where aortic wall degradation is mediated by accumulated immune cells. Although cytokines regulate inflammation within the aorta,their contribution to AAA via distant alterations,particularly in the control of hematopoietic stem cell (HSC) differentiation,remains poorly defined. Here we report a pathogenic role for the interleukin-27 receptor (IL-27R) in AAA,as genetic ablation of IL-27R protects mice from the disease development. Mitigation of AAA is associated with a blunted accumulation of myeloid cells in the aorta due to the attenuation of Angiotensin II (Ang II)-induced HSC expansion. IL-27R signaling is required to induce transcriptional programming to overcome HSC quiescence and increase differentiation and output of mature myeloid cells in response to stress stimuli to promote their accumulation in the diseased aorta. Overall,our studies illuminate how a prominent vascular disease can be distantly driven by a cytokine-dependent regulation of bone marrow precursors. View Publication

(1) Background: The cannabinoid 2 receptor (CB2R) is a promising anti-inflammatory drug target and development of selective CB2R ligands may be useful for treating sight-threatening ocular inflammation. (2) Methods: This study examined the pharmacology of three novel chemically-diverse selective CB2R ligands: CB2R agonists,RO6871304,and RO6871085,as well as a CB2R inverse agonist,RO6851228. In silico molecular modelling and in vitro cell-based receptor assays were used to verify CB2R interactions,binding,cell signaling ({\ss}-arrestin and cAMP) and early absorption,distribution,metabolism,excretion,and toxicology (ADMET) profiling of these receptor ligands. All ligands were evaluated for their efficacy to modulate leukocyte-neutrophil activity,in comparison to the reported CB2R ligand,HU910,using an in vivo mouse model of endotoxin-induced uveitis (EIU) in wild-type (WT) and CB2R-/- mice. The actions of RO6871304 on neutrophil migration and adhesion were examined in vitro using isolated neutrophils from WT and CB2R-/- mice,and in vivo in WT mice with EIU using adoptive transfer of WT and CB2R-/- neutrophils,respectively. (3) Results: Molecular docking studies indicated that RO6871304 and RO6871085 bind to the orthosteric site of CB2R. Binding studies and cell signaling assays for RO6871304 and RO6871085 confirmed high-affinity binding to CB2R and selectivity for CB2R {\textgreater} CB1R,with both ligands acting as full agonists in cAMP and {\ss}-arrestin assays (EC50s in low nM range). When tested in EIU,topical application of RO6871304 and RO6871085 decreased leukocyte-endothelial adhesion and this effect was antagonized by the inverse agonist,RO6851228. The CB2R agonist,RO6871304,decreased in vitro neutrophil migration of WT neutrophils but not neutrophils from CB2R-/-,and attenuated adhesion of adoptively-transferred leukocytes in EIU. (4) Conclusions: These unique ligands are potent and selective for CB2R and have good immunomodulating actions in the eye. RO6871304 and RO6871085,as well as HU910,decreased leukocyte adhesion in EIU through inhibition of resident ocular immune cells. The data generated with these three structurally-diverse and highly-selective CB2R agonists support selective targeting of CB2R for treating ocular inflammatory diseases. View Publication

Hodgkin Lymphoma (HL) is a malignancy that frequently affects young adults. Although,there are effective treatments not every patient responds,necessitating the development of novel therapeutic approaches,especially for relapsed and refractory cases. The two TNF receptor family members CD30 and CD137 are expressed on Hodgkin and Reed Sternberg (HRS) cells,the malignant cells in HL. We found that this co-expression is specific for HRS cells. Based on this discovery we developed a bispecific antibody that binds preferentially to the CD30,CD137-double positive HRS cells. The CD30,CD137 bispecific antibody gets internalized into HRS cells opening up the possibility to use it as a carrier for a toxin. This antibody also induces antibody-dependent,cell-mediated cytotoxicity in CD30,CD137-double positive HRS cells. The enhances specificity of the CD30,CD137 bispecific antibody to HRS cells makes it a promising candidate for development as a novel HL treatment. View Publication

Thrombosis is a major cause of mortality in patients with myeloproliferative neoplasms (MPNs),though there is currently little to offer patients with MPN beyond aspirin and cytoreductive therapies such as hydroxyurea for primary prevention. Thrombogenesis in MPN involves multiple cellular mechanisms,including platelet activation and neutrophil-extracellular trap formation; therefore,an antithrombotic agent that targets one or more of these processes would be of therapeutic benefit in MPN. Here,we treated the JAK2V617F knockin mouse model of polycythemia vera with N-acetylcysteine (NAC),a sulfhydryl-containing compound with broad effects on glutathione replenishment,free radical scavenging,and reducing disulfide bonds,to investigate its antithrombotic effects in the context of MPN. Strikingly,NAC treatment extended the lifespan of JAK2V617F mice without impacting blood counts or splenomegaly. Using an acute pulmonary thrombosis model in vivo,we found that NAC reduced thrombus formation to a similar extent as the irreversible platelet inhibitor aspirin. In vitro analysis of platelet activation revealed that NAC reduced thrombin-induced platelet-leukocyte aggregate formation in JAK2V617F mice. Furthermore,NAC reduced neutrophil extracellular trap formation in primary human neutrophils from patients with MPN as well as healthy controls. These results provide evidence that N-acetylcysteine inhibits thrombosis in JAK2V617F mice and provide a pre-clinical rationale for investigating NAC as a therapeutic to reduce thrombotic risk in MPN. View Publication