Number Of Dendritic Cells Research Articles

Short palate, lung, and nasal epithelial clone 1 (SPLUNC1) level determines steroid-resistant airway inflammation in aging.

Asthma and its heterogeneity change with age. Increased airspace neutrophil numbers contribute to severe steroid-resistant asthma exacerbation in the elderly, which correlates with the changes seen in adults with asthma. However, whether that resembles the same disease mechanism and pathophysiology in aged and adults is poorly understood. Here, we sought to address the underlying molecular mechanism of steroid-resistant airway inflammation development and response to corticosteroid (Dex) therapy in aged mice. To study the changes in inflammatory mechanism, we used a clinically relevant treatment model of house-dust mite (HDM)-induced allergic asthma and investigated lung adaptive immune response in adult (20–22 wk old) and aged (80–82 wk old) mice. Our result indicates an age-dependent increase in airway hyperresponsiveness (AHR), mixed granulomatous airway inflammation comprising eosinophils and neutrophils, and Th1/Th17 immune response with progressive decrease in frequencies and numbers of HDM-bearing dendritic cells (DC) accumulation in the draining lymph node (DLn) of aged mice as compared with adult mice. RNA-Seq experiments of the aged lung revealed short palate, lung, and nasal epithelial clone 1 (SPLUNC1) as one of the steroid-responsive genes, which progressively declined with age and further by HDM-induced inflammation. Moreover, we found increased glycolytic reprogramming, maturation/activation of DCs, the proliferation of OT-II cells, and Th2 cytokine secretion with recombinant SPLUNC1 (rSPLUNC1) treatment. Our results indicate a novel immunomodulatory role of SPLUNC1 regulating metabolic adaptation/maturation of DC. An age-dependent decline in the SPLUNC1 level may be involved in developing steroid-resistant airway inflammation and asthma heterogeneity.

Comparative study of doxycycline, sancycline, and 4-dedimethylamino sancycline (CMT-3) on epidermal melanogenesis.

Melanogenesis is regulated by melanocytes, which synthesize the pigment melanin inside melanosomes; these melanosomes are exported through dendritic extensions to adjacent keratinocytes and result in skin coloration. Chemically modified tetracyclines (CMTs) are nonantimicrobial tetracyclines that retain the capacity to inhibit matrix metalloproteinases (MMPs) and have shown several biological benefits; in particular, CMT-3 [(4-dedimethylamino sancycline (SAN)] has emerged as a candidate for therapeutic benefits in our previous studies. However, to date, studies of the effects of CMT-3 or SAN on melanogenesis are lacking. We have previously reported the anti-melanogenic activity of CMT-308 (the 9-amino derivative of CMT-3). Herein, we have compared the three tetracycline analogs, doxycycline (DOX), SAN, and CMT-3, for their effects on melanogenesis using B16F10 mouse melanoma cells and have validated results in primary human melanocytes (HEMn-DP). DOX did not show any significant effects on intracellular melanin or melanosome export in DP cells while SAN was cytotoxic at high doses but without effects on melanogenesis at lower doses. However, CMT-3 showed a robust suppression of dendricity parameters (dendrite number, dendrite length, and proportion of dendritic cells) in DP cells which was associated, at least in part, with a significant reduction of intracellular tyrosinase activity. In spite of its inhibition of tyrosinase activity, CMT-3 had no significant effects on intracellular melanin levels, suggesting that it selectively targets melanosome export. Our results demonstrate a unique structure-activity relationship (SAR) for the effects of these compounds on melanogenesis and support the conclusion that removal of the 4-dimethylamino moiety confers the selective capacity to suppress melanosome export. Collectively, these results indicate that CMT-3 might be a candidate for diminishing hyperpigmentation skin disorders.

Profiling of the immune landscape in murine glioblastoma following blood brain/tumor barrier disruption with MR image-guided focused ultrasound.

Glioblastoma (GB) poses formidable challenges to systemic immunotherapy approaches owing to the paucity of immune infiltration and presence of the blood brain/tumor barriers (BBB/BTB). We hypothesize that BBB/BTB disruption (BBB/BTB-D) with focused ultrasound (FUS) and microbubbles (MB) increases immune infiltration in GB. As a prelude to rational combination of FUS with ITx, we herein investigate the impact of localized BBB/BTB-D on innate and adaptive immune responses in an orthotopic murine GB model. Mice with GL261 gliomas received i.v. MB and underwent FUS BBB/BTB-D (1.1MHz, 0.5Hz pulse repetition frequency, 10ms bursts, 0.4-0.6MPa). Brains, meninges, and peripheral lymphoid organs were excised and examined by flow cytometry 1-2weeks following FUS. The number of dendritic cells (DC) was significantly elevated in GL261 tumors and draining cervical LN in response to sonication. CD86 + DC frequency was also upregulated with 0.6MPa FUS, suggesting increased maturity. While FUS did not significantly alter CD8 + T cell frequency across evaluated organs, these cells upregulated checkpoint molecules at 1week post-FUS, suggesting increased activation. By 2weeks post-FUS, we noted emergence of adaptive resistance mechanisms, including upregulation of TIGIT on CD4 + T cells and CD155 on non-immune tumor and stromal cells. FUS BBB/BTB-D exerts mild, transient inflammatory effects in gliomas-suggesting that its combination with adjunct therapeutic strategies targeting adaptive resistance may improve outcomes. The potential for FUS-mediated BBB/BTB-D to modify immunological signatures is a timely and important consideration for ongoing clinical trials investigating this regimen in GB.

MHC Class II Ubiquitination Regulates Dendritic Cell Function and Immunity.

MHC class II (MHC II) Ag presentation by dendritic cells (DCs) is critical for CD4+ T cell immunity. Cell surface levels of MHC II loaded with peptide is controlled by ubiquitination. In this study, we have examined how MHC II ubiquitination impacts immunity using MHC IIKRKI/KI mice expressing mutant MHC II molecules that are unable to be ubiquitinated. Numbers of conventional DC (cDC) 1, cDC2 and plasmacytoid DCs were significantly reduced in MHC IIKRKI/KI spleen, with the remaining MHC IIKRKI/KI DCs expressing an altered surface phenotype. Whereas Ag uptake, endosomal pH, and cathepsin protease activity were unaltered, MHC IIKRKI/KI cDC1 produced increased inflammatory cytokines and possessed defects in Ag proteolysis. Immunization of MHC IIKRKI/KI mice identified impairments in MHC II and MHC class I presentation of soluble, cell-associated and/or DC-targeted OVA via mAb specific for DC surface receptor Clec9A (anti-Clec9A-OVA mAb). Reduced T cell responses and impaired CTL killing was observed in MHC IIKRKI/KI mice following immunization with cell-associated and anti-Clec9A-OVA. Immunization of MHC IIKRKI/KI mice failed to elicit follicular Th cell responses and generated barely detectable Ab to anti-Clec9A mAb-targeted Ag. In summary, MHC II ubiquitination in DCs impacts the homeostasis, phenotype, cytokine production, and Ag proteolysis by DCs with consequences for Ag presentation and T cell and Ab-mediated immunity.

Machine learning identification of specific changes in myeloid cell phenotype during bloodstream infections

The early identification of bacteremia is critical for ensuring appropriate treatment of nosocomial infections in intensive care unit (ICU) patients. The aim of this study was to use flow cytometric data of myeloid cells as a biomarker of bloodstream infection (BSI). An eight-color antibody panel was used to identify seven monocyte and two dendritic cell subsets. In the learning cohort, immunophenotyping was applied to (1) control subjects, (2) postoperative heart surgery patients, as a model of noninfectious inflammatory responses, and (3) blood culture-positive patients. Of the complex changes in the myeloid cell phenotype, a decrease in myeloid and plasmacytoid dendritic cell numbers, increase in CD14+CD16+ inflammatory monocyte numbers, and upregulation of neutrophils CD64 and CD123 expression were prominent in BSI patients. An extreme gradient boosting (XGBoost) algorithm called the “infection detection and ranging score” (iDAR), ranging from 0 to 100, was developed to identify infection-specific changes in 101 phenotypic variables related to neutrophils, monocytes and dendritic cells. The tenfold cross-validation achieved an area under the receiver operating characteristic (AUROC) of 0.988 (95% CI 0.985–1) for the detection of bacteremic patients. In an out-of-sample, in-house validation, iDAR achieved an AUROC of 0.85 (95% CI 0.71–0.98) in differentiating localized from bloodstream infection and 0.95 (95% CI 0.89–1) in discriminating infected from noninfected ICU patients. In conclusion, a machine learning approach was used to translate the changes in myeloid cell phenotype in response to infection into a score that could identify bacteremia with high specificity in ICU patients.

P-075: Myeloid derived suppressor cells are not elevated in monoclonal gammopathies

<h3>Background</h3> The immunologically tolerant microenvironment may support a development of malignant multiple myeloma (MM) from precancerous monoclonal gammopathy of undetermined significance (MGUS) and blocks the efficacy of immunotherapy in existing MM as well. Myeloid derived suppressor cells (MDSC) represent heterogeneous group of cells with immunosuppressive activity and capability of promotion of tumor growth in MM. Their increased number and negative effect was described in MM but usually not in other monoclonal gammopathies (MGs). <h3>Aim</h3> Identification and enumeration of MDSC subsets in different MG subjects and comparison of their number with healthy controls. <h3>Methods</h3> Whole peripheral blood of 30 newly diagnosed and untreated MGs (2 MGUS, 7 MM with AL amyloidosis and 21 MM) and 13 healthy controls was used. Incubation with combination of MoAbs CD16/CD15/HLA-DR/CD14/CD45/CD11b/CD33/CD66b was done. Samples were analysed on BD FACSCanto II (BD Biosciences) after NH4Cl lysis and reanalysed with Infinicyt SW (Cytognos). <h3>Results</h3> Whole leukocytes were distributed into subpopulations using progressive gating strategy allowing detection of MDSC derived from granulocytes (G-MDSC) and monocytes (M-MDSC) with elimination of dendritic cells (DCs) and other contaminating cells (basophils etc.). There were found no differences in M- and G-MDSC relative and absolute count when compared whole MG group and controls. Even selection of MG with ≥95 % clonal plasma cells (PCs) or MGs with presence of circulating PCs or MGs with >30 g/l monoclonal Id protein did not show statistically different values of both MDSC subsets in comparison with control samples. The only statistically different value was decreased number of DCs in MGs. <h3>Conclusion</h3> Although elevated levels of MDSC in MM were previously published, this study did not prove it probably due to the different gating procedure. However, it was able to clearly define all leukocyte subsets in peripheral blood, thus only higher numbers of dublets may affect the final count of MDSC. Interestingly, low density neutrophils and tumor associated neutrophils should not be easily distinguish from MDSC, so their better characterization is needed in the future. The isolation and verification of MDSC immunosuppressive potential should be the next step in their analyses. Supported by MH CZ - DRO (FNBr, 65269705).

Intranasal Administration of Codium fragile Polysaccharide Elicits Anti-Cancer Immunity against Lewis Lung Carcinoma.

Natural polysaccharides have shown promising effects on the regulation of immunity in animals. In this study, we examined the immune stimulatory effect of intranasally administered Codium fragile polysaccharides (CFPs) in mice. Intranasal administration of CFPs in C57BL/6 mice induced the upregulation of surface activation marker expression in macrophages and dendritic cells (DCs) in the mediastinal lymph node (mLN) and the production of interleukin-6 (IL-6), IL-12p70, and tumor necrosis factor-α in bronchoalveolar lavage fluid. Moreover, the number of conventional DCs (cDCs) was increased in the mLNs by the upregulation of C-C motif chemokine receptor 7 expression, and subsets of cDCs were also activated following the intranasal administration of CFP. In addition, the intranasal administration of CFPs promoted the activation of natural killer (NK) and T cells in the mLNs, which produce pro-inflammatory cytokines and cytotoxic mediators. Finally, daily administration of CFPs inhibited the infiltration of Lewis lung carcinoma cells into the lungs, and the preventive effect of CFPs on tumor growth required NK and CD8 T cells. Furthermore, CFPs combined with anti-programmed cell death-ligand 1 (PD-L1) antibody (Ab) improved the therapeutic effect of anti-PD-L1 Ab against lung cancer. Therefore, these data demonstrated that the intranasal administration of CFP induced mucosal immunity against lung cancer.

Early life exposure to house dust mite allergen prevents experimental allergic asthma requiring mitochondrial H2O2.

Immune tolerance to allergens in early-life decreases the risk for asthma in later life. Here we show establishment of stable airway tolerance to the allergen, house dust mite (HDM), by exposing newborn mice repeatedly to a low dose of the allergen. Lung dendritic cells (DCs) from tolerized mice induced a low Th2 response in vitro mirroring impact of tolerance in vivo. In line with our previous finding of increased mitochondrial H2O2 production from lung DCs of mice tolerized to ovalbumin, depletion of mitochondrial H2O2 in MCAT mice abrogated HDM-induced airway tolerance (Tol) with elevated Th2 effector response, airway eosinophilia and increased airway hyperreactivity. WT Tol mice displayed a decrease in total, cDC1 and cDC2 subsets in the lung as compared to that in naïve mice. In contrast, the lungs of MCAT Tol mice showed 3-fold higher numbers of cDCs including those of the subsets as compared to that in WT mice. Our study demonstrates an important role of mitochondrial H2O2 in constraining lung DC numbers towards establishment of early-life airway tolerance to allergens.

Epicutaneous Administration of 17β-Estradiol Induces Langerhans Cells Depletion

ABSTRACT Background Langerhans cells (LC) number and function in mouse vaginal mucosa are affected by 17β-estradiol (E2) application; nonetheless, its effect on epidermal LC has not been studied. The purpose of this study was to evaluate the effect of topical administration of E2 on the number, phenotype, and migratory ability of LC in mouse skin. Methods Ears of adult CD1 male mice were topically treated once with several doses. Immunohistochemical staining for CD207 and TUNEL staining were performed. LC migration to lymph nodes and the effect on the expression of costimulatory molecules on cultured dendritic cells (DC) were also evaluated. Results E2 decreased the number of CD207+ LC in a dose-dependent manner. One hour after treatment, 1 and 10 µg/mL E2 significantly reduced the LC number by 21% and 26%, respectively, after two hours, the reduction was 23% and 41%, respectively. After 48 hours, LC recovered, and after 96 hours of treatment, the CD207+/MHCII+ DC numbers were increased in regional lymph nodes. However, CD86 and CD40 molecules were expressed at lower levels than in positive control. The TUNEL assay did not show apoptotic cells. Furthermore, in cultured DC, E2 promoted a decrease in CD40 and CD86 expression and an increase in CD273, CD274, MHCII, and CCR7. Conclusions The topical administration of E2 induced a transitory local diminution of LC population and a tolerogenic phenotype. This decrease in epidermal LC suggests that E2 may affect skin immune responses, inducing an inhibitory response, which should be considered when prescribing topical E2 medications.

Murine Dendritic Cells Grown in Serum-Free Culture Show Potent Therapeutic Activity when Loaded with Novel Th Epitopes in an Orthotopic Model of HER2pos Breast Cancer.

Preferred methods for generating mouse dendritic cells (DC) would encompass qualities of consistency, high yield, and potent function. Serum-free culture is also highly desirable, since this is the standard for cell-based therapies used in humans. We report here a serum-free modification of a culture method generating mature, activated DCs from bone marrow precursors. This is achieved through a two-stage culture comprised of 6-day expansion in Flt3 ligand and IL-6 followed by brief differentiation in a medium containing GM-CSF and IL-4, with subsequent activation using TLR ligands ODN1826 and LPS. The serum-free DCs achieve yields and surface phenotype including IL-12p70 secretion similar to standard serum-replete cultures, display a capacity to sensitize in vivo against both MHC class I- and Class II-restricted antigens, and exhibit some aspects of “killer DC” function against tumor cells. We used these DCs to help identify novel CD4pos Th epitopes on the rat ErbB2/HER-2 protein and demonstrated a subset of these as effective immunogens in a DC-based therapeutic model of HER-2pos breast cancer in Balb/c mice, where they induced powerful Th1-polarized immune responses. This method represents a useful way to efficiently produce large numbers of murine dendritic cells with excellent in vivo function well-suited for use in experimental vaccine studies.

Gold Compounds and the Anticancer Immune Response.

Gold compounds are not only well-explored for cytotoxic effects on tumors, but are also known to interact with the cancer immune system. The immune system deploys innate and adaptive mechanisms to protect against pathogens and prevent malignant transformation. The combined action of gold compounds with the activated immune system has shown promising results in cancer therapy through in vivo and in vitro experiments. Gold compounds are known to induce innate immune responses; however, these responses may contribute to adaptive immune responses. Gold compounds play the role of a major hapten that acts synergistically in innate immunity. Gold compounds support cancer cell antigenicity and promote anti-tumor immune response by inducing the release of CRT, ATP, HMGB1, HSP, and NKG2D to enhance immunogenicity. Gold compounds affect various immune cells (including suppressor regulatory T cells), inhibit myeloid derived suppressor cells, and enhance the function and number of dendritic cells. Gold nanoparticles (AuNPs) have potential for improving the effect of immunotherapy and reducing the toxicity and side effects of the treatment process. Thus, AuNPs provide an ideal opportunity for exploring the combination of anticancer gold compounds and immunotherapeutic interventions.

Colloidal Manganese Salt Improves the Efficacy of Rabies Vaccines in Mice, Cats, and Dogs.

Rabies, caused by rabies virus (RABV), remains a serious threat to public health in most countries worldwide. At present, the administration of rabies vaccines has been the most effective strategy to control rabies. Herein, we evaluate the effect of colloidal manganese salt (Mn jelly [MnJ]) as an adjuvant of rabies vaccine in mice, cats, and dogs. The results showed that MnJ promoted type I interferon (IFN-I) and cytokine production in vitro and the maturation of dendritic cells (DCs) in vitro and in vivo. Besides, MnJ serving as an adjuvant for rabies vaccines could significantly facilitate the generation of T follicular helper (Tfh) cells, germinal center (GC) B cells, plasma cells (PCs), and RABV-specific antibody-secreting cells (ASCs), consequently improve the immunogenicity of rabies vaccines, and provide better protection against virulent RABV challenge. Similarly, MnJ enhanced the humoral immune response in cats and dogs as well. Collectively, our results suggest that MnJ can facilitate the maturation of DCs during rabies vaccination, which can be a promising adjuvant candidate for rabies vaccines. IMPORTANCE Extending the humoral immune response by using adjuvants is an important strategy for vaccine development. In this study, a novel adjuvant, MnJ, supplemented in rabies vaccines was evaluated in mice, cats, and dogs. Our results in the mouse model revealed that MnJ increased the numbers of mature DCs, Tfh cells, GC B cells, PCs, and RABV-specific ASCs, resulting in enhanced immunogenicity and protection rate of rabies vaccines. We further found that MnJ had the same stimulative effect in cats and dogs. Our study provides the first evidence that MnJ serving as a novel adjuvant of rabies vaccines can boost the immune response in both a mouse and pet model.

Glucocorticoid Effects on Tissue Residing Immune Cells in Giant Cell Arteritis: Importance of GM-CSF.

Giant cell arteritis (GCA) is a systemic granulomatous vasculitis clinically characterized by a prompt response to glucocorticoid therapy. Dendritic cells (DCs) play a central role in the pathogenesis of the disease and are increased in temporal arteries from GCA patients. The aim of this study was to determine the effects of glucocorticoid therapy on granulomatous infiltrates and on peripheral DCs of GCA patients. Immunohistochemical staining of temporal artery specimens from 41 GCA patients revealed a rapid reduction of the number of DCs after initiation of glucocorticoid treatment. TUNEL staining was performed to quantify apoptotic S100+ DC, CD3+ T cells, and CD68+ macrophages in the granulomatous infiltrates. An increase of apoptotic cells up to 9 ± 2% after 4–5 days of glucocorticoid therapy and up to 27 ± 5% (p < 0.001, compared to earlier timepoints) after 6–10 days was detected. A decrease of CCL19 and CCL21 expression was observed after starting glucocorticoid therapy. Granulocyte-macrophage colony-stimulating factor (GM-CSF) expression also significantly decreased under glucocorticoid therapy. No GM-CSF expression was detected in the control specimens. Glucocorticoid therapy leads to a rapid, time-dependent reduction of DCs in temporal arteries from GCA patients and reduction of mediators for cell migration. Our data suggest GM-CSF as a novel therapeutic target of GCA.

Mass cytometry profiling of human dendritic cells in blood and tissues.

The immune system comprises distinct functionally specialized cell populations, which can be characterized in depth by mass cytometry protein profiling. Unfortunately, the low-throughput nature of mass cytometry has made it challenging to analyze minor cell populations. This is the case for dendritic cells, which represent 0.2-2% of all immune cells in tissues and yet perform the critical task of initiating and modulating immune responses. Here, we provide an optimized step-by-step protocol for the characterization of well-known and emerging human dendritic cell populations in blood and tissues using mass cytometry. We provide detailed instructions for the generation of single-cell suspensions, sample enrichment, staining, acquisition and data analysis. We also include a barcoding option that reduces acquisition variability and allows the analysis of low numbers of dendritic cells, i.e., ~20,000. In contrast to other protocols, we emphasize the use of negative selection approaches to enrich for minor populations of immune cells while avoiding their activation. The entire procedure can be completed in 2-3 d and can be conveniently paused at several stages. The procedure described in this robust and reliable protocol allows the analysis of human dendritic cells in health and disease and during vaccination.

MP66-20 BLADDER CANCER EXTRACELLULAR VESICLES: A NOVEL ANTI-TUMOR VACCINE

You have accessJournal of UrologyBladder Cancer: Basic Research & Pathophysiology III (MP66)1 Sep 2021MP66-20 BLADDER CANCER EXTRACELLULAR VESICLES: A NOVEL ANTI-TUMOR VACCINE Carlos Ortiz-Bonilla, Taylor Ucello, Scott Gerber, Hiroshi Miyamoto, Edith Lord, Edward Messing, and Yi-Fen Lee Carlos Ortiz-BonillaCarlos Ortiz-Bonilla More articles by this author , Taylor UcelloTaylor Ucello More articles by this author , Scott GerberScott Gerber More articles by this author , Hiroshi MiyamotoHiroshi Miyamoto More articles by this author , Edith LordEdith Lord More articles by this author , Edward MessingEdward Messing More articles by this author , and Yi-Fen LeeYi-Fen Lee More articles by this author View All Author Informationhttps://doi.org/10.1097/JU.0000000000002106.20AboutPDF ToolsAdd to favoritesDownload CitationsTrack CitationsPermissionsReprints ShareFacebookLinked InTwitterEmail Abstract INTRODUCTION AND OBJECTIVE: Extracellular vesicles (EV) comprise a diverse group of small vesicles secreted by almost all types of cells into the extracellular space. EV have been shown to play crucial roles in carrying and presenting functional MHC-peptide complexes to modulate antigen-specific CD8 T cell responses. However, the therapeutic potential and immunogenicity of EV-based vaccines has not yet tested. In this project, we aim to investigate the potential of using bladder cancer (BC) EV as a cancer vaccine in a pre-clinical model. METHODS: EV derived from murine MB49 BC cells were characterized by Nanoparticle Tracking Analysis, and EV cargo proteins and encapsulated cytokines were analyzed by Mass Spectrometry and pro-inflammatory cytokine array. The anti-tumor immunity of BCEV was evaluated in the MB49 syngeneic mouse model where mice were primed with MB49 EV prior MB49 tumors inoculation. Tumor growth was monitored and tumor-infiltrated immune cell populations were determined by flow cytometry. Anti-CD8 neutralizing antibody as well as IgG isotype control antibody were administrated to mice to test whether BCEV-mediated anti-tumor immunity is dependent on CD8 T cells. Moreover, we determined whether priming mice with MB49EV can prevent colonization of un-related colon MC-38 tumors in vivo. RESULTS: Proteomic and cytokine array analysis have revealed that MB49 EV encapsulated enriched immuno-active cargo proteins and cytokines with function linked to both innate and adaptive immune responses. To our surprise, priming mice with MB49 EV completely prevented MB49 tumor growth in vivo and neutralizing CD8 T cells abolished the MB49 EV-mediated anti-tumor effect. Interestingly, MB49 EV priming was unable to prevent MC-38 tumor growth but hindered significantly their growth in vivo. Flow cytometry analyses revealed increased levels of tumor-infiltrated granulocytes, inflammatory monocytes, and natural killer cells in EV-primed MC-38 tumors. In addition, those tumors also showed increased numbers of infiltrated antigen-presenting dendritic cells and antigen-specific CD4 and CD8 T cells. CONCLUSIONS: For the first time, we provided direct in vivo evidence that BCEV can prevent isogenic tumor growth, and such action is mainly mediated by CD8 T cells. They encapsulated enriched immunogenic cargo proteins and cytokines that could even promote anti-tumor host response against unrelated tumor growth. In summary, our study support the potential application of tumor-derived EV in personalized medicine, and open new avenue for developing therapeutic cancer vaccine based on patient-derived EV to prevent BC recurrence. Source of Funding: NCI RO1 CA173986 © 2021 by American Urological Association Education and Research, Inc.FiguresReferencesRelatedDetails Volume 206Issue Supplement 3September 2021Page: e1137-e1137 Advertisement Copyright & Permissions© 2021 by American Urological Association Education and Research, Inc.MetricsAuthor Information Carlos Ortiz-Bonilla More articles by this author Taylor Ucello More articles by this author Scott Gerber More articles by this author Hiroshi Miyamoto More articles by this author Edith Lord More articles by this author Edward Messing More articles by this author Yi-Fen Lee More articles by this author Expand All Advertisement Loading ...

Programmed Cell Death Ligand 1-Transfected Mouse Bone Marrow Mesenchymal Stem Cells as Targeted Therapy for Rheumatoid Arthritis.

Programmed cell death 1 ligand (PD-L1) and its receptor (PD-1) are key molecules for immunoregulation and immunotherapy. PD-L1 binding PD-1 is an effective way to regulate T or B cell immunity in autoimmune diseases such as rheumatoid arthritis (RA). In our study, we overexpressed PD-L1 by constructing a recombinant of PD-L1-lentiviral vector, which was subsequently used to transfect mouse bone marrow mesenchymal stem cells (MBMMSCs) and significantly suppressed the development of collagen-induced arthritis (CIA) in DBA/1j mice. In addition, PD-L1-transfected MBMMSCs (PD-L1-MBMMSCs) ameliorated joint damage, reduced proinflammatory cytokine expression, and inhibited T and B cell activation. Furthermore, PD-L1-MBMMSCs decreased the number of dendritic cells and increased the numbers of regulatory T cells and regulatory B cells in joints of CIA mice. In conclusion, our results provided a potential therapeutic strategy for RA treatment with PD-L1-MBMMSC-targeted therapy.

Dendritic cells play no significant role in the laser-induced choroidal neovascularization model

Age-related macular degeneration (AMD) is genetically associated with complement. Dendritic cells (DCs) play key roles during innate and adaptive immunity, and express complement components and their receptors. We investigated ocular DC heterogeneity and the role of DCs in the laser-induced choroidal neovascularization (CNV) model. In order to determine the function of DCs, we used two models of DC deficiency: the Flt3−/− and Flt3l−/− mouse. We identified three types of ocular DCs: plasmacytoid DC, classical DC-1, and classical DC-2. At steady-state, classical DCs were found in the iris and choroid but were not detectable in the retina. Plasmacytoid DCs existed at very low levels in iris, choroid, and retina. After laser injury, the number of each DC subset was up-regulated in the choroid and retina. In Flt3−/− mice, we found reduced numbers of classical DCs at steady-state, but each DC subset equally increased after laser injury between wildtype and Flt3−/− mice. In Flt3l−/− mice, each DC subsets was severely reduced after laser injury. Neither Flt3−/− or Flt3l−/− mice demonstrated reduced CNV area compared to wildtype mice. DCs do not play any significant role during the laser-induced CNV model of neovascular AMD.

Enhanced NF-\u03baB signaling in type-2 dendritic cells at baseline predicts non-response to adalimumab in psoriasis

Biologic therapies have transformed the management of psoriasis, but clinical outcome is variable leaving an unmet clinical need for predictive biomarkers of response. Here we perform in-depth immunomonitoring of blood immune cells of 67 patients with psoriasis, before and during therapy with the anti-TNF drug adalimumab, to identify immune mediators of clinical response and evaluate their predictive value. Enhanced NF-κBp65 phosphorylation, induced by TNF and LPS in type-2 dendritic cells (DC) before therapy, significantly correlates with lack of clinical response after 12 weeks of treatment. The heightened NF-κB activation is linked to increased DC maturation in vitro and frequency of IL-17+ T cells in the blood of non-responders before therapy. Moreover, lesional skin of non-responders contains higher numbers of dermal DC expressing the maturation marker CD83 and producing IL-23, and increased numbers of IL-17+ T cells. Finally, we identify and clinically validate LPS-induced NF-κBp65 phosphorylation before therapy as a predictive biomarker of non-response to adalimumab, with 100% sensitivity and 90.1% specificity in an independent cohort. Our study uncovers important molecular and cellular mediators underpinning adalimumab mechanisms of action in psoriasis and we propose a blood biomarker for predicting clinical outcome.

The immunosuppressive role of Edn3 overexpression in the melanoma microenvironment.

Endothelins are cytokines expressed in the microenvironment of several tumors. To identify which stromal cells in the melanoma microenvironment respond to endothelin, we injected murine melanoma cell lines B16F10, YUMM1.7, and YUMMER1.7 in a transgenic mouse that overexpresses endothelin 3 (Edn3) under the control of the keratin 5 promoter in the skin (K5-Edn3). All cell lines developed larger tumors in K5-Edn3 mice than in control animals. In YUMM1.7 tumors, the Edn3 receptor, endothelin receptor B (Ednrb), was expressed in several stromal cell types including immune cells. This result was validated by the identification of Ednrb-positive stromal cells in human melanoma from previously published RNA-seq data. Regulatory T cells (Tregs) and dendritic cell numbers were significantly higher in K5-Edn3 tumors when compared to control tumors. Edn3 increased Treg proliferation in vitro and the expression of FOXP3. YUMM1.7-GFP tumors in K5-Edn3 mice were sensitive to immune checkpoint inhibitor (anti-CTLA-4) as well as to Ednrb blockage (BQ-788). Our results indicate that Ednrb signaling has an important role in the melanoma microenvironment where it mediates immunosuppression resulting in escape from tumor immunity.

ИММУНОЛОГИЧЕСКИЕ ПРЕДИКТОРЫ ОТТОРЖЕНИЯ ПОЧЕЧНОГО ТРАНСПЛАНТАТА В РАННЕМ ПОСЛЕОПЕРАЦИОННОМ ПЕРИОДЕ

Objective. To determine the immunological predictors of renal graft rejection in the early postoperative period. Methods. Three groups were formed out of the 197 renal graft recipients. The group PGF (n=101) was made up of patients with satisfactory primary graft function. The group PGD (n = 82) included patients with primary graft dysfunction without episodes of rejection. The group RGR (n=14) consisted of patients with primary dysfunction and renal graft rejection. On the 7&lt;sup&gt;th&lt;/sup&gt; day after transplantation the early kidney graft function was assessed on the basis ofserum creatinine levels. When the serum creatinine value was lower than 300 μmol/L the function was considered to be primary, at a creatinine concentration was equal to or higher than 300 μmol/L, as well as in the case of needfor maintenance dialysis on the first week after transplantation, the state was classified as the renal graft dysfunction. In the early postoperative period, the number of LIN-HLA-DR+ dendritic cells with the LIN-HLA-DR+CD11c+CD123- and LIN-HLA-DR+CD11c-CD123+ phenotypes in the fluid from the drainage installed to the kidney graft during surgery was determined. Predictive characteristics of the mDC and pDC levels in the drainage fluid were determined to predict renal graft rejection, and diagnostic capability of this indicator were identified. Results. It has been revealed that renal graft rejection is characterized by a significant growth of the total number of dendritic cells in the drainage fluid, mainly due to myeloid ones. Predictive characteristics were determined by the level of myeloid and plasmacytoid dendritic cells in the drainage fluid. The cut-off point of the level of myeloid dendritic cells was determined at the level of 60.32%, and for plasmacytoid dendritic cells it corresponded to 39.68%. Conclusion. With the level of myeloid dendritic cells in the drainage fluid greater or equal 60.32%, and plasmacytoid cells lower or equal 39.68%, renal graft rejection is predicted with a sensitivity of 99% and 93%, respectively, and a specificity of 89% and 91%, respectively. What this paper adds The level of dendritic cells and their subpopulations in the drainage fluid in renal graft recipients has been firstly studied. It has been established that acute renal graft rejection is associated with a high concentration of the total number of dendritic cells in the drainage fluid. More over this increase occurs mainly due to myeloid dendritic cells. The determination of the level of myeloid and plasmacytoid dendritic cells in the drainage fluid can be used as a predictor of renal graft rejection.