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Normal density granulocytes (NDGs) can suppress T-cell responses in a similar way as myeloid-derived suppressor cells (MDSCs). In this study,we tested the hypothesis that NDGs from healthy donors preferentially inhibit T helper 1 (Th1) cells and investigated the myeloid-derived suppressive effect in different T-cell populations. We found that NDG-induced suppression of T-cell proliferation was contact dependent,mediated by integrin CD11b,and dependent on NDG-production of reactive oxygen species (ROS). The suppression was rapid and occurred within the first few hours of coculture. The suppression did not influence the CD8+/CD4+ ratio indicating an equal sensitivity in these populations. We further analyzed the CD4+ T helper subsets and found that NDGs induced a loss of Th1 surface marker,CD183,that was unrelated to ligand-binding to CD183. In addition,we analyzed the Th1,Th2,and Th17 cytokine production and found that all cytokine groups were suppressed when T-cells were incubated with NDGs. We therefore concluded that NDGs do not preferentially suppress Th1-cells. Instead,NDGs generally suppress Th cells and cytotoxic T-cells but specifically downregulate the Th1 marker CD183. View Publication

Rationale: IgA can induce activation of neutrophils which are the most abundant cell type in blood,but the development of IgA as therapeutic has been confounded by its short half-life and a weak ability to recruit NK cells as effector cells. Therefore,we generated an X-shaped antibody (X-body) based on the principle of molecular self-assembly that combines the activities of both IgG and IgA,which can effectively recruit and activate NK cells,macrophages,and neutrophils to kill tumor cells. Methods: X-body was generated by using a self-assembly strategy. The affinity of the X-body with the antigen and Fc receptors was tested by surface plasmon resonance. The shape of X-body was examined using negative staining transmission electron microscopy. The tumor cell killing activity of X-body was assessed in vitro and in multiple syngeneic mouse models. To explore the mechanism of X-body,tumor-infiltrating immune cells were analyzed by single-cell RNA-seq and flow cytometry. The dependence of neutrophil,macrophage,and NK cells for the X-body efficacy was confirmed by in vivo depletion of immune cell subsets. Results: The X-body versions of rituximab and trastuzumab combined the full spectrum activity of IgG and IgA and recruited NK cells,macrophages,and neutrophils as effector cells for eradication of tumor cells. Treatment with anti-hCD20 and anti-hHER2 X-bodies leads to a greater reduction in tumor burden in tumor-bearing mice compared with the IgA or IgG counterpart,and no obvious adverse effect is observed upon X-body treatment. Moreover,the X-body has a serum half-life and drug stability comparable to IgG. Conclusions: The X-body,as a myeloid-cell-centered therapeutic strategy,holds promise for the development of more effective cancer-targeting therapies than the current state of the art. View Publication

INTRODUCTION Based on the immunologic effects of anti-cancer treatment and their therapeutic implications,we evaluated radiotherapy (RT)-induced dynamic alterations in programmed death-1 (PD-1)/PD ligand-1 (PD-L1) expression profiles. METHODS Local RT with 2 Gy ?— 5 or 7.5 Gy ?— 1 was administered to the CT26 mouse model. Thereafter,tumors were resected and evaluated at the following predefined timepoints according to radiation response status: baseline,early (immediately after RT),middle (beginning of tumor shrinkage),late (stable status with RT effect),and progression (tumor regrowth). PD-1/PD-L1 activity and related immune cell profiles were quantitatively assessed. RESULTS RT upregulated PD-L1 expression in tumor cells from the middle to late phase; however,the levels subsequently decreased to levels comparable to baseline in the progression phase. RT with 2 Gy ?— 5 induced a higher frequency of PD-L1+ myeloid-derived suppressor cells,with a lesser degree of tumor regression,compared to 7.5 Gy. The proportion of PD-1+ and interferon (IFN)-$\gamma$+CD8$\alpha$ T cells continued to increase. The frequency of splenic PD-1+CD8+ T cells was markedly elevated,and was sustained longer with 2 Gy ?— 5. Based on the transcriptomic data,RT stimulated the transcription of immune-related genes,leading to sequentially altered patterns. DISCUSSION The dynamic alterations in PD-1/PD-L1 expression level were observed according to the time phases of tumor regression. This study suggests the influence of tumor cell killing and radiation dosing strategy on the tumor immune microenvironment. View Publication

BACKGROUND Suppression of cardiac iinflammasome,which can be inhibited by Farnesoid X receptor (FXR) agonist,can ameliorate cardiac inflammation and fibrosis. Increased cardiac inflammasome decrease the abundance of regulatory T (Treg) cells and exacerbate cardiac dysfunction. Interaction between cardiomyocytes and Treg cells is involved in the development of nonalcoholic steatohepatitis (NASH)-related cardiac dysfunction. AIMS This study evaluates whether the FXR agonist obeticholic acid (OCA) treatment improves NASH-associated cardiac dysfunction. METHODS The in vivo and in vitro mechanisms and effects of two weeks of OCA treatment on inflammasome and Treg dysregulation-related cardiac dysfunction in NASH mice (NASH-OCA) at systemic,tissue and cellular levels were investigated. RESULTS The OCA treatment suppressed the serum and cardiac inflammasome levels,reduced the cardiac infiltrated CD3+ T cells,increased the cardiac Treg-represented anti-inflammatory cytokines (IL-10/IL-10R) and improved cardiac inflammation,fibrosis and function [decreased left ventricle (LV) mass and increased fractional shortening (FS)] in NASH-OCA mice. The percentages of OCA-decreased cardiac fibrosis and OCA-increased FS were positively correlated with the percentage of OCA-increased levels of cardiac FXR and IL-10/IL-10R. In the Treg cells from NASH-OCA mice spleen,in comparison with the Treg cells of the NASH group,higher intracellular FXR but lower inflammasome levels,and more proliferative/active and less apoptotic cells were observed. Incubation of H9c2 cardiomyoblasts with Treg-NASHcm [supernatant of Treg from NASH mice as condition medium (cm)],increased inflammasome levels,decreased the proliferative/active cells,suppressed the intracellular FXR,and downregulated differentiation/contraction marker. The Treg-NASHcm-induced hypocontractility of H9c2 can be attenuated by co-incubation with OCA,and the OCA-related effects were abolished by siIL-10R pretreatment. CONCLUSIONS Chronic FXR activation with OCA is a potential strategy for activating IL-10/IL-10R signalling,reversing cardiac regulatory T cell dysfunction,and improving inflammasome-mediated NASH-related cardiac dysfunction. View Publication

Asthmatic women tend to develop severe airway disease in their reproductive years,and 30%-40% of asthmatic women have peri-menstrual worsening of asthma symptoms. This indicates that fluctuations in ovarian hormones are involved in advancement of asthmatic disease and exacerbation of symptoms. Group 2 innate lymphoid cells,or ILC2,are readily detected in allergic conditions,such as rhinosinusitis,in individuals that develop nasal polyps do to allergen exposures,and in allergic asthma. ILC2 are airway localized immune cells activated by IL-33,an innate cytokine that perpetuates allergic inflammation by driving the production of IL-5 and IL-13. We have previously shown that ILC2 are highly activated in na{\{i}}ve and ovalbumin (OVA) challenged female BALB/c mice in comparison to male mice following stimulation with IL-33. Here we investigated the effect of steady-state ovarian hormones on ILC2 and the NF-$\kappa$B signaling pathway following OVA sensitization and challenge. We found that estrogen-treated ovariectomized mice (OVX-E2) that had been challenged with OVA had reduced IL-5 and IL-13 production by lung ILC2 as compared to lung ILC2 isolated from intact male and female sham-operated controls that had been treated with OVA. ILC2 were isolated from untreated animals and co-cultured ex vivo with and without estrogen plus IL-33. Those estrogen-treated ILC2 similarly produced less IL-5 and IL-13 in comparison to untreated and had reduced NF-$\kappa$B activation. Single-cell RNA sequencing showed that 120 genes were differentially expressed in male and female ILC2 and Nfkb1 was found among top-ranked regulatory interactions. Together these results provide new insight into the suppressive effect of estrogen on ILC2 which may be protective in female asthmatics. Understanding further how estrogen modulates ILC2 may provide therapeutic targets for the treatment of allergic diseases." View Publication

There is an unmet need for novel therapies to treat acute myeloid leukemia (AML) and the associated relapse that involves persistent leukemia stem cells (LSCs). An experimental AML rodent model to test therapies based on successfully transplanting these cells via retro-orbital injections in recipient mice is fraught with challenges. The aim of this study was to develop an easy,reliable,and consistent method to generate a robust murine model of AML using an intra-peritoneal route. In the present protocol,bone marrow cells were transduced with a retrovirus expressing human MLL-AF9 fusion oncoprotein. The efficiency of lineage negative (Lin-) and Lin-Sca-1+c-Kit+ (LSK) populations as donor LSCs in the development of primary AML was tested,and intra-peritoneal injection was adopted as a new method to generate AML. Comparison between intra-peritoneal and retro-orbital injections was done in serial transplantations to compare and contrast the two methods. Both Lin- and LSK cells transduced with human MLL-AF9 virus engrafted well in the bone marrow and spleen of recipients,leading to a full-blown AML. The intra-peritoneal injection of donor cells established AML in recipients upon serial transplantation,and the infiltration of AML cells was detected in the blood,bone marrow,spleen,and liver of recipients by flow cytometry,qPCR,and histological analyses. Thus,intra-peritoneal injection is an efficient method of AML induction using serial transplantation of donor leukemic cells. View Publication

BACKGROUND {\&} AIMS RNase H2 is a holoenzyme,composed of 3 subunits (ribonuclease H2 subunits A,B,and C),that cleaves RNA:DNA hybrids and removes mis-incorporated ribonucleotides from genomic DNA through ribonucleotide excision repair. Ribonucleotide incorporation by eukaryotic DNA polymerases occurs during every round of genome duplication and produces the most frequent type of naturally occurring DNA lesion. We investigated whether intestinal epithelial proliferation requires RNase H2 function and whether RNase H2 activity is disrupted during intestinal carcinogenesis. METHODS We generated mice with epithelial-specific deletion of ribonuclease H2 subunit B (H2b$\Delta$IEC) and mice that also had deletion of tumor-suppressor protein p53 (H2b/p53$\Delta$IEC); we compared phenotypes with those of littermate H2bfl/fl or H2b/p53fl/fl (control) mice at young and old ages. Intestinal tissues were collected and analyzed by histology. We isolated epithelial cells,generated intestinal organoids,and performed RNA sequence analyses. Mutation signatures of spontaneous tumors from H2b/p53$\Delta$IEC mice were characterized by exome sequencing. We collected colorectal tumor specimens from 467 patients,measured levels of ribonuclease H2 subunit B,and associated these with patient survival times and transcriptome data. RESULTS The H2b$\Delta$IEC mice had DNA damage to intestinal epithelial cells and proliferative exhaustion of the intestinal stem cell compartment compared with controls and H2b/p53$\Delta$IEC mice. However,H2b/p53$\Delta$IEC mice spontaneously developed small intestine and colon carcinomas. DNA from these tumors contained T{\textgreater}G base substitutions at GTG trinucleotides. Analyses of transcriptomes of human colorectal tumors associated lower levels of RNase H2 with shorter survival times. CONCLUSIONS In analyses of mice with disruption of the ribonuclease H2 subunit B gene and colorectal tumors from patients,we provide evidence that RNase H2 functions as a colorectal tumor suppressor. H2b/p53$\Delta$IEC mice can be used to study the roles of RNase H2 in tissue-specific carcinogenesis. View Publication

A coding variant of the inflammatory bowel disease (IBD) risk gene ATG16L1 has been associated with defective autophagy and deregulation of endoplasmic reticulum (ER) function. IL-22 is a barrier protective cytokine by inducing regeneration and antimicrobial responses in the intestinal mucosa. We show that ATG16L1 critically orchestrates IL-22 signaling in the intestinal epithelium. IL-22 stimulation physiologically leads to transient ER stress and subsequent activation of STING-dependent type I interferon (IFN-I) signaling,which is augmented in Atg16l1$\Delta$IEC intestinal organoids. IFN-I signals amplify epithelial TNF production downstream of IL-22 and contribute to necroptotic cell death. In vivo,IL-22 treatment in Atg16l1$\Delta$IEC and Atg16l1$\Delta$IEC/Xbp1$\Delta$IEC mice potentiates endogenous ileal inflammation and causes widespread necroptotic epithelial cell death. Therapeutic blockade of IFN-I signaling ameliorates IL-22-induced ileal inflammation in Atg16l1$\Delta$IEC mice. Our data demonstrate an unexpected role of ATG16L1 in coordinating the outcome of IL-22 signaling in the intestinal epithelium. View Publication

OBJECTIVE Exposure to lethal doses of radiation has severe effects on normal tissues. Exposed individuals experience a plethora of symptoms in different organ systems including the gastrointestinal (GI) tract,summarized as Acute Radiation Syndrome (ARS). There are currently no approved drugs for mitigating GI-ARS. A recent high-throughput screen performed at the UCLA Center for Medical Countermeasures against Radiation identified compounds containing sulfonylpiperazine groups with radiation mitigation properties to the hematopoietic system and the gut. Among these 1-[(4-Nitrophenyl)sulfonyl]-4-phenylpiperazine (Compound {\#}5) efficiently mitigated gastrointestinal ARS. However,the mechanism of action and target cells of this drug is still unknown. In this study we examined if Compound {\#}5 affects gut-associated lymphoid tissue (GALT) with its subepithelial domes called Peyer's patches. METHODS C3H mice were irradiated with 0 or 12 Gy total body irradiation (TBI). A single dose of Compound {\#}5 or solvent was administered subcutaneously 24 h later. 48 h after irradiation the mice were sacrificed,and the guts examined for changes in the number of visible Peyer's patches. In some experiments the mice received 4 daily injections of treatment and were sacrificed 96 h after TBI. For immune histochemistry gut tissues were fixed in formalin and embedded in paraffin blocks. Sections were stained with H{\&}E,anti-Ki67 or a TUNEL assay to assess the number of regenerating crypts,mitotic and apoptotic indices. Cells isolated from Peyer's patches were subjected to immune profiling using flow cytometry. RESULTS Compound {\#}5 significantly increased the number of visible Peyer's patches when compared to its control in non-irradiated and irradiated mice. Additionally,assessment of total cells per Peyer's patch isolated from these mice demonstrated an overall increase in the total number of Peyer's patch cells per mouse in Compound {\#}5-treated mice. In non-irradiated animals the number of CD11bhigh in Peyer's patches increased significantly. These Compound {\#}5-driven increases did not coincide with a decrease in apoptosis or an increase in proliferation in the germinal centers inside Peyer's patches 24 h after drug treatment. A single dose of Compound {\#}5 significantly increased the number of CD45+ cells after 12 Gy TBI. Importantly,96 h after 12 Gy TBI Compound {\#}5 induced a significant rise in the number of visible Peyer's patches and the number of Peyer's patch-associated regenerating crypts. CONCLUSION In summary,our study provides evidence that Compound {\#}5 leads to an influx of immune cells into GALT,thereby supporting crypt regeneration preferentially in the proximity of Peyer's patches. View Publication

Current guidelines encourage administering pneumococcal vaccine Prevnar-13 to patients with lupus,but whether such vaccinations affect disease severity is unclear. To address this issue,we treated 3-month-old MRL-lpr mice,that spontaneously develop a lupus-like syndrome,with Prevnar-13 or vehicle control. After 3 months,we quantified circulating anti-Pneumococcal polysaccharide capsule (PPS) antibodies and signs of disease severity,including albuminuria,renal histology and skin severity score. We also compared immunophenotypes and function of T and B cells from treated and untreated animals. Prevnar-13 elicited the formation of anti-pneumococcal IgM and IgG. Prevnar-13 treated animals showed reduced albuminuria,renal histological lesions,and milder dermatitis compared to vehicle-treated controls. Mitigated disease severity was associated with reduced and increased T follicular helper cells (TFH) and T follicular regulatory cells (TFR),respectively,in Prevnar-treated animals. T cells from Prevnar-13 vaccinated mice showed differential cytokine production after aCD3/aCD28 stimulation,with significantly decreased IL-17 and IL-4,and increased IL-10 production compared to non-vaccinated mice. In conclusion,pneumococcal vaccination elicits anti-pneumococcal antibody response and ameliorates disease severity in MRL-lpr mice,which associates with fewer TFH and increased TFR. Together,the data support use of Prevnar vaccination in individuals with SLE. 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

Post-transcriptional mechanisms have the potential to influence complex changes in gene expression,yet their role in cell fate transitions remains largely unexplored. Here,we show that suppression of the RNA helicase DDX6 endows human and mouse primed embryonic stem cells (ESCs) with a differentiation-resistant,hyper-pluripotent" state which readily reprograms to a naive state resembling the preimplantation embryo. We further demonstrate that DDX6 plays a key role in adult progenitors where it controls the balance between self-renewal and differentiation in a context-dependent manner. Mechanistically DDX6 mediates the translational suppression of target mRNAs in P-bodies. Upon loss of DDX6 activity P-bodies dissolve and release mRNAs encoding fate-instructive transcription and chromatin factors that re-enter the ribosome pool. Increased translation of these targets impacts cell fate by rewiring the enhancer heterochromatin and DNA methylation landscapes of undifferentiated cell types. Collectively our data establish a link between P-body homeostasis chromatin organization and stem cell potency." View Publication