Discovery Immunology
◐ Oxford University Press (OUP)
Preprints posted in the last 30 days, ranked by how well they match Discovery Immunology's content profile, based on 11 papers previously published here. The average preprint has a 0.01% match score for this journal, so anything above that is already an above-average fit.
Arora, J. K.; Bessell, E.; Beyatli, S.; Thenet, D.; Brown, J.; Nissim, A.; Lewis, M. J.; James, L. K.; Pfeffer, P. E.
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BackgroundSevere eosinophilic asthma (SEA), eosinophilic granulomatosis with polyangiitis (EGPA) and nasal polyposis (NP) are immune-mediated diseases characterised by eosinophilic inflammation. However, there is also increasing interest in the potential pathological roles of autoantibodies in these diseases. Understanding their B cell receptor (BCR) repertoires may provide valuable insights into disease mechanisms, and potential role of B cells in their pathology. MethodsWe conducted BCR repertoire sequencing using peripheral blood from 43 patients, comprising SEA with nasal polyps (SEA+NP), SEA without nasal polyps (SEA-NP), and EGPA, along with 16 healthy controls (HCs). ResultsCompared to HCs, patients with EGPA exhibited increased relative proportions of IgA1, IgG1, IgG2, and IgG4 subclasses. Similarly, SEA-NP patients demonstrated significantly high proportion of IgG2 sequences. Notably, the IgG4 subclass was significantly elevated across all patient groups compared to HCs. Patients receiving anti-IL-5/5R biologic treatments showed increased relative proportions of IgA2 and IgG2 subclasses compared to untreated patients. Some variation across participant groups in mean somatic hypermutation and mutation frequency was evident. 1,508 clones shared across patients, but not healthy controls, were evident though the majority showed low clonal expansion. Nevertheless, a few shared clones did show either high prevalence across patients and/or higher clonal expansion. ConclusionChanges in BCR repertoires in SEA/EGPA are consistent with a pattern of a more mature B cell component in the periphery and with the T2 inflammatory response observed in SEA and EGPA. BCR clonotypes shared across patients were evident, however, whether such clonotypes are pathological in SEA/EGPA requires further investigation.
Wu, J.; Matthews, B.; Solleti, S.; Rowe, R. K.
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Monocytes are critical regulators of allergic inflammation, whose functions are modified by IgE-driven processes. Monocytes are heterogeneous; comprised of multiple subsets which implies differential functions. In allergic inflammation, this heterogeneity is likely influenced by IgE-mediated effects. We sought to identify phenotypically distinct monocyte subsets related to allergic disease and then further delineate functional differences in cytokine release and antiviral responses. Using high dimensional spectral flow cytometry, we identified monocyte surface phenotypes directly related to surface levels of the high affinity IgE receptor (Fc{epsilon}RI) and surface-bound IgE. Fc{epsilon}RI+IgE+ monocytes, or FIMs, correlated with allergic disease and the level of atopy (i.e. serum IgE levels) of individual subjects. The FIM population also had differential surface expression of other molecules of monocyte maturation, which closely resembled a type 2 conventional dendritic cell (cDC2) phenotype. Functionally, FIMs had enhanced antiviral responses and IgE-driven IL-10 cytokine release. Finally, we showed that FIMs could be identified at higher levels in lung tissue from individuals with asthma. This study supports that atopic disease drives differential monocyte phenotypes, with the FIM population, specifically, as a more mature cell population closely related to dendritic cells with enhanced antiviral responses. The presence of monocytes in lung tissue during lethal asthma exacerbation further supports a role in regulating tissue inflammatory responses in allergic airway disease.
Kiprina, A.; Xu, W.; Macinkovic, I.; Boeffinger, N.; Namgaladze, D.; Elewa, M. A. F.; Jacomin, A.-C.; Kur, I. M.; Aliraj, B.; Imkeller, K.; Bruene, B.; Weigert, A.
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Interleukin-38 (IL-38) is a cytokine of the IL-1 cytokine family that promotes the resolution of inflammation. Resolution mechanisms comprise the induction or recovery of immune tolerance that is lacking in various acute and chronic inflammatory pathologies, including Graft-versus-Host Disease (GvHD). The role of IL-38 in the context of immune tolerance, its primary immune cell targets and underlying molecular mechanisms are not defined. In this study, we investigated the impact of IL-38 on human alloreactivity and in a mouse model of acute GvHD. Our data suggests that monocytes differentiating into macrophages are the main cellular target of IL-38. Specifically, IL-38 reduces antigen presentation capacity in differentiating monocytes through an IL-1 family receptor-independent mechanism, which subsequently avoids T-cell activation. In parallel, IL-38 ameliorates inflammation in allogeneic settings in human and murine GvHD models by promoting the expansion of regulatory T-cells. Our findings indicate that IL-38 promotes immune tolerance during alloreactivity by affecting myeloid cells and T-cells.
Newburger, P. E.; Soares de Brito, J.; Zhu, Z.; Norris, K.; Buwa, N.; Furgason, M.; Opari-Nadi, P.; Woda, B.; Klein, C.; Munson, M.
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Mutations in the VPS45 gene are associated with a rare form of severe congenital neutropenia (SCN5), a life-threatening inherited error of immunity. We developed and characterized a novel mouse model of SCN5 by CRISPR/Cas9-mediated knock-in of pathogenic VPS45 E238K and T224N mutations. Both Vps45 mutations led to decreased protein expression in bone marrow cells. In vivo phenotyping demonstrated a non-Mendelian genetic distribution with reduced numbers of knock-in homozygotes Vps45E238K. Vps45E238K knock-in homozygous mice showed reduced body weight, reduced body condition with age, and increased mortality. As in human SCN5, Vps45E238K knock-in homozygotes demonstrated neutropenia and lymphopenia. Functionally, Vps45E238K knock-in homozygote neutrophils exhibited increased lipopolysaccharide-induced apoptosis and decreased peroxide production, phagocytic capacity and in vivo cell migration, phenocopying the functional defects reported in patients. Vps45T224N knock-in homozygous mice showed a milder phenotype or no abnormalities. In conclusion, this mouse model phenocopies, in part, human SCN5. It provides a novel platform for future studies of the pathophysiology of defects in neutrophil number and function in human SCN5, potential therapies for the disease, and the biochemistry and cell biology of VPS45. Summary statementWe report a mouse model of severe congenital neutropenia due to VPS45 missense mutations. It represents the first animal model of human neutropenia due to a defect in intracellular trafficking.
Gong, S.; Patil, H. P.; de Vries-Idema, J.; Beukema, M.; Huckriede, A.
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Vaccine-induced immune responses are the result of an intricate interplay between different cell populations of the innate and adaptive immune system, which is so far only partly understood. In particular, the role of polymorphonuclear neutrophils (PMNs) has long been neglected. Here, we studied the effects of a whole inactivated virus influenza vaccine (WIV) in an in vitro system consisting of freshly isolated human PMNs alone or PMNs combined with autologous peripheral blood mononuclear cells (PBMCs). Isolated PMNs showed minimal responses to the vaccine with respect to apoptosis, gene expression, cytokine production, and reactive oxygen species production. However, in WIV-stimulated PMN/PBMC co-cultures, PMNs particularly enhanced monocyte dynamics, CD14-CD11c+ cell activation, effector T cell differentiation, and B cell antibody production. On the other hand, PMNs decreased T follicular helper cell frequencies. Without vaccine stimulation, PMN presence resulted in enhanced levels of baseline inflammatory cytokines in PMN/PBMC co-cultures. However, with vaccine stimulation, PMNs dampened the vaccine-induced cytokine secretion of PBMCs. These findings reveal PMNs as regulators of vaccine responses whose effects depend on crosstalk with other immune cells, balancing pro-inflammatory and adaptive immune activation. Author summaryPolymorphonuclear neutrophils (PMNs) are essential and predominant cells of the human innate immune system. Growing evidence implicates that PMNs are involved in vaccine-induced immune activation, but their exact role is so far poorly defined. In our study, human PMNs were tested alone to observe their response to whole inactivated virus influenza vaccine (WIV), or combined with autologous peripheral blood mononuclear cells (PBMCs) to investigate how their presence influences vaccine responses of various cell populations within PBMCs. Our results show that WIV had little direct effect on isolated PMNs. However, when PMNs were combined with other immune cells, PMNs acted as crucial regulators: they enhanced the activity of innate immune cells, regulated the responses to the vaccine of T and B cells, and helped control the overall level of inflammation. Our study forms the groundwork for a more comprehensive understanding of human immune cell interactions under vaccine stimulation.
Czubala, M. A.; Rodrigues, P.; Ipseiz, N.; Rosas, M.; Dimonte, S.; Pope, I.; Hinz, C.; Fathalla, D.; Alvarez-Jarreta, J.; Tyrrell, V. J.; Langbein, W.; Borri, P.; Andrews, R.; O'Donnell, V.; Taylor, P. R.
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Tissue-resident peritoneal macrophages (pM[FE]) programmed by GATA6 are essential players regulating immunity and tissue balance in the peritoneal cavity. How GATA6 regulates global lipid metabolism is currently unknown. Addressing this, in myeloid-restricted Gata6-deficient (Gata6-KOmye) mice, significant changes to the pM[FE] lipidome were found. First, Bodipy staining and anti-Stokes Raman scattering (CARS) microscopy demonstrated significant intracellular lipid accumulation in lipid droplets in Gata6-KOmye. Untargeted and targeted lipidomics revealed this to result from increased levels of multiple sphingolipid (SL) molecular species, including sphingomyelins, ceramides, and glycosphingolipids, along with upregulation of the cysteinyl leukotriene (CysLTs) pathway at both lipidomic and transcriptional levels. Evidencing a functional role for the lipidomic phenotype, Gata6-KOmye showed significant eosinophil accumulation, associated with decreased apoptosis which was exclusively driven by CysLT signalling. In summary, GATA6 is demonstrated as a regulator of sphingolipid accumulation and CysLT generation in pM[FE], with secondary impacts on associated leukocytes through regulation of transcellular CysLT signaling.
Majer, M.; Lee, K.; Müller-Sienerth, N.; Crosnier, C.
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To establish chronic infection in the vasculature of their infected host, schistosomes have developed multifaceted strategies of immune subversion. Extracellular parasite proteins are believed to play immunomodulatory functions, but their mode of action remains largely elusive. To investigate whether proteins secreted by the Schistosoma mansoni parasite have the potential to directly interact with host immune receptors, we performed a large-scale protein:protein interaction study between selected parasite proteins sharing structural similarities with known host immune effectors and a protein array of over 750 full-length human ectodomains mostly expressed by immune cells. We identified CD177 as a neutrophil receptor for S. mansoni Granulin (SmGrn). SmGrn exclusively bound the surface of CD177+ human neutrophils and led to cellular hyporesponsiveness following stimulation with LPS as evidenced by decreases in surface markers of activation, delayed reactive oxygen species production and reduced IL-8 release. In addition, human neutrophils exposed to SmGrn showed delayed apoptosis and morphological changes compatible with a more quiescent state as well as transcriptional upregulation of negative regulators of interferon signalling. These data suggest that SmGrn dampens human neutrophil response to stimulation and may lead to suboptimal function during schistosome infection.
Rexhepi, F.; Ali Akbari, S.; Moradzad, M.; Khodayari, S.; Shukla, A.; Demontier, E.; Armas Cayarga, A.; Allard-Chamard, H.; Ilangumaran, S.; Ramanathan, S.
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Abstract Introduction: IL-15 is one of the most promising candidate cytokines in cancer immunotherapy due to its ability to promote the activity of different cytotoxic innate immune cell subsets such as NK, ILC1 and gammadelta T cells. During biosynthesis, IL-15 associates with IL-15alpha and is transported to the cell surface where IL-15Ralpha trans-presents IL-15 to target neighboring cells expressing the beta chain (IL-2Rbeta) and the common gamma chain. Our group previously showed that in autoimmune type 1 diabetes and early innate immune responses to infections trans-presentation by IL-15Ralpha is dispensable. Here we addressed the relative roles of IL-15 and trans-presented IL-15 in the control of established tumors and spontaneous tumor development. Methodology: Growth kinetics of tumor cell lines were monitored in WT, Il15-/- and Il15ra-/- mice. Spontaneous fibrosarcoma was induced with Methylcholanthrene (MCA) in WT, Il15-/- and Il15ra-/- mice. Cell lines were established from MCA-induced tumors to characterize their immunogenicity. Results: Growth of established tumor cell lines were comparable in the three genotypes. MCA-induced tumor incidence was reduced in Il15ra-/- mice when compared to WT and Il15-/- mice. In vitro, MCA tumor-derived cell lines expressed MHC-I and PD-L1 and had comparable proliferation rates. In vivo, MCA tumor-derived cell lines established from the 3 genotypes showed comparative growth in WT mice suggesting that IL-15 does not impact immunoediting. Nonetheless, NLRC5 expressing B16-F10 tumors were contained in WT and Il15ra-/- mice but not in Il15-/- mice. Conclusions: Taken together, these results show that in the absence of trans-presentation by IL-15Ralpha, IL-15 can better control spontaneous tumor development and that IL-15 signaling plays a minor role in immunosurveillance in this model. IL-15 signaling, independent of IL-15Ralpha has a significant role in the control of solid tumors.
Waddell, T. Q.; Dong, H.; Roh-Johnson, M.; Lancaster, J. N.
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Macrophages in the tumor microenvironment are known to upregulate PD-L1 expression, thereby suppressing T cells through PD-1 ligation. However, the manner in which PD-L1 expression intrinsically impacts macrophages and their immunomodulatory phenotype is less clear. Clarifying this knowledge gap would yield insight into the mechanisms of immunosuppression within the tumor microenvironment. To characterize the macrophage intrinsic role of PD-L1, we used complementary genetic and pharmacological approaches by analyzing primary murine bone marrow-derived macrophages (BMDMs) with complete genetic PD-L1 deletion and wildtype BMDMs treated with anti-PD-L1 blocking antibodies. Macrophages were evaluated across naive, pro-inflammatory (M1), and tumor conditioned (TCM) polarization states in vitro. Unlike prior reports, neither genetic deletion nor antibody blockade dramatically altered the expression of macrophage polarization markers or in vitro phagocytic capacity. Both conditions consistently reduced surface levels of the M1-associated costimulatory molecule CD80, prompting further analysis of T cell interacting and antigen presenting proteins, in which we revealed disparate effects of genetic deletion and antibody blockade on the surface levels of MHCI, MHCII, PD-1, and PD-L2. These findings suggest that PD-L1 deletion and antibody-mediated blockade contribute to macrophage immune regulatory profiles in distinct manners. This difference supports a model in which PD-L1 functions in macrophages beyond its canonical role as a ligand for PD-1, influencing antigen presentation and checkpoint molecule levels and playing a broader role in immune regulation in the tumor microenvironment.
leddy, r.; pal, a.; plant, j.; mcbrien, c.; Li, Y.; phelan, h.; linse, s.; Steiner, C.; Collins, C.; o'connell, d. j.
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Dysregulated gut homing of leukocytes drives chronic inflammation in Crohns disease (CD). We employed phage display selection campaigns with libraries of stabilized, constrained peptides against endogenous conformation states of the cannabinoid receptor CB2R on human T cells, to discover novel receptor antagonists with potential to inhibit gut homing. Cluster and frequency analysis of 50,000 enriched sequences resulted in expression and functional characterisation of 10 protein candidates using assays of glucose uptake, ERK phosphorylation (pERK) and beta-arrestin recruitment. Each candidate antagonised CB2R activity with recorded IC50 values of between 5-10 nM. Cannabinoid receptor nanodisc binding experiments and SPR confirmed CB2R selectivity. SLKC_09 with an IC50 of 5.4 nM, was studied in a mouse model of chronic ileitis where it significantly inhibited gut homing of CD4+ & CD8+ naive, effector and memory cell types. Our findings highlight an alternative route to therapeutic inhibition of leukocyte trafficking in CD with a biologic inhibitor of CB2R.
Mohapatra, A.; Zheng, W.; Qiu, L.; Looney, M. R.; Ernst, J. D.
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Infection by Mycobacterium tuberculosis (Mtb) is characterized by pathogen persistence in lung cells derived from blood monocytes. Since monocyte-derived lung subsets differ in their ability to restrict the growth of intracellular Mtb in mice, understanding the ontogeny of these subsets can inform development of host-directed therapies. Circulating monocytes are proposed to be heterogeneous, arising from distinct bone marrow or spleen progenitors that direct local differentiation. However, the role of the Mtb-infected lung environment in this process has not been addressed. We found that infected and uninfected mice had similar bone marrow monopoiesis, resulting in equivalent monocyte differentiation within the infected lung. While pulmonary Mtb infection also induced splenic monopoiesis, we found no impact on lung monocyte differentiation in splenectomized mice. However, when wildtype monocytes were transferred into Mtb-infected Sp140-/- recipients, in which excess Type I interferons and neutrophils alter the lung environment, we observed that donor-derived lung subsets resembled recipient-derived cells. In the lungs of Mtb-infected mice, we identified monocyte-derived lung subsets with unique gene expression, associated with specific spatial distributions and cell neighborhoods. These findings suggest that the local lung environment has a larger influence on the phenotypic diversity of monocyte-derived lung cells than does the peripheral environment.
LAHIRE, S.; FICHEL, C.; PRINCE, L.; PEROTIN, J.-M.; DESLEE, G.; LE JAN, S.; POTTEAUX, S.; LE NAOUR, R.; POMMIER, A.
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Elastin degradation during chronic lung inflammation generates elastin peptides (EPs) with immunomodulatory properties. Because elastin is abundant in the lung, its breakdown in diseases such as chronic obstructive pulmonary disease (COPD) and asthma produces high EPs levels that may influence local immune responses. Here, we investigated the impact of EPs on group 2 innate lymphoid cells (ILC2) using mouse models of EP-induced emphysema and house dust mite (HDM)-induced asthma. EPs instillation reduced lung ILC2 numbers without affecting Th2 cells. In patients with COPD, we observed decreased CCL20 expression in lung immune cells and an inverse correlation between serum CCL20 levels and clinical indicators of elevated EPs burden. We also showed that EPs instillation during HDM-induced lung inflammation directly decreased CCL20 expression. These findings identify EPs as regulators of ILC2 trafficking through CCL20 downregulation, revealing a direct link between extracellular matrix (ECM) degradation and the chemokine networks orchestrating type 2 immunity. One Sentence SummaryElastin-derived peptides reshape type 2 immunity by blocking CCL20-driven ILC2 recruitment during lung inflammation.
Basavaraju, Y.; Dijkstra, S.; Tamhane, T.; Skadborg, S. K.; Lu, L.; Kwok, W. W.; Stern, L. J.; Lauer, G. M.; Hadrup, S. R.
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The role of antigen-specific T cells responding to antigen is a topic of intense studies, and critical for mechanistic insight of diseases and development of therapeutic strategies. Methods for broad-scale detection of antigen-specific CD4 T cells are lacking, while such methods have demonstrated great value in exploring CD8 T cell response in health and disease. Furthermore, major histocompatibility complex II (MHCII) assays are technically challenging due to high HLA diversity, lower binding affinities, low frequencies of ex vivo antigen-specific CD4 T cells and several bottlenecks in production and peptide exchange of MHCII monomers. Here we use peptide-loaded MHCII (pMHCII) proteins multimerized on a barcode- and fluorophore-labelled dextran backbone to provide a method for the detection of peptide-specific CD4 T cells by using a large display of MHCII-associated peptides. We have established a protocol for MHCII production and peptide-exchange suitable for the generation of large libraries of peptide-MHCII complexes. We validate the use of such pMHCII complexes in the form of barcode-labelled MHCII multimers to detect antigen-specific CD4 T cells. We demonstrate that we can identify antigen specific CD4 T cells, using these DNA barcoded peptide-MHCII multimer. The multimer bound CD4 T cells were selected based on the fluorochrome signal, and the co-attached DNA barcodes were hereafter amplified and used to identify the peptide-MHCII response/binding. In cases where the peptide-specific CD4 T cells frequencies are very low, we expanded the cell population with peptide-pools and in the presence of IL2. The given CD4 T cell populations hereby reach a cell number allowing for the DNA-barcoded pMHCII multimers to detect responses otherwise missed out. Applying this technology, we utilized a panel of 150 peptides derived from human cytomegalo virus (CMV), Epstein barr virus (EBV), Influenza (Flu), SARS CoV 2 and SARS CoV1, Hepatitis B virus (HBV), and Hepatitis C virus (HCV) loaded onto HLA-DRB1*01:01 and DRB1*04:01 to screen peripheral blood mononuclear cells (PBMC). We assessed ex vivo responses in 16 participants with HCV infection, and successfully detected naturally occurring viral-specific CD4 T cells at frequencies as low as 0.004% of total CD4 T cells. The low-frequency responses, identified via the barcode screen, were rigorously validated using individual fluorophore-labelled tetramer staining after a peptide-driven expansion in 15 participants. Furthermore, we assessed the recognition of novel HCV epitopes in 11 additional participants. Through this, we identified a total of 12 distinct HCV epitopes, including 9 that have not been previously utilized in assays to detect CD4 T cells. Overall, this barcoded-multimer platform provides a powerful tool for the large-scale discovery of class II epitopes and the broad profiling of CD4 T cell specificities. This method will allow for in-depth analyses of immune interactions, provide a better understanding of the antigen-driven associations between CD4 and CD8 T cell responses, and help dissect the complexities of CD4 T cell protection in HCV infection.
Araujo Furlan, C. L.; Boccardo, S.; Gimenez, C. M.; Gazzoni, Y. N.; Gareca, J.; Rodriguez, C.; Mukdsi, J. H.; Amezcua Vesely, M. C.; Gruppi, A.; Montes, C. L.; Hanna, B. S.; Acosta Rodriguez, E. V.
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Chronic infections require mechanisms that limit tissue damage while preserving pathogen control, yet the contribution of regulatory T (Treg) cells to this balance remains unclear. In this study, we characterized Treg cell responses during a chronic parasitic infection using experimental Trypanosoma cruzi infection as a model of persistent low-level parasitism and chronic tissue inflammation. We found that, although Treg cell numbers decline in the spleen, they accumulate in parasite-affected tissues such as skeletal muscle, where they adopt a combined Th1-associated and tissue-repair program. Systemic Treg cell depletion had limited impact on immune and disease-associated parameters, whereas local depletion in skeletal muscle exacerbated tissue damage and increased parasite burden. Moreover, transient systemic perturbation of Treg cells during the acute phase impaired their long-term accumulation in skeletal muscle, resulting in increased tissue damage and parasite burden during chronic infection. Additionally, accumulation of reparative Treg cells in skeletal muscle was impaired in the absence of ST2. Together, these findings identify a tissue-adapted Treg cell population that integrates inflammatory and reparative programs to preserve skeletal muscle integrity during chronic parasitic infection.
Knüsel, S.; Benninger, M.; Versluis, D. M.; Insall, R.; Tiengwe, C.; Roditi, I.
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Many protozoan parasites have complex life cycles entailing migration through different organs in their hosts, but the cues guiding them remain poorly understood. Using a semi-solid plate motility assay, we show that early procyclic forms of Trypanosoma brucei, the first stage to develop in the tsetse fly midgut, perceive several metabolites - including glucose, glycerol and proline - as chemoattractants, while the glycolytic end-product succinate acts as a repellent. During adaptation in the fly, T. brucei switches from glucose/glycerol to proline as its primary energy source. We show that the parasite's chemotactic response towards proline requires adenylate cyclase ACP5 and the cyclic AMP response protein CARP3, two components of signalling pathway involved in pH sensing. These results further support a role for T. brucei's expanded repertoire of receptor adenylate cyclases as environmental sensors that guide navigation through the host.
Katsoulis-Dimitriou, K.; Umer, W.; El-Bizri, A.; Knop, L.; Schickschneit, T.; Hoffman, A.; Schmitter, L. M.; Baumgart, K.; Jantz-Naeem, N.; Dovhan, V.; Heidelbach, C.; Philipsen, L.; Mueller, A. J.; Kahlfuss, S.; Schueler, T.; Fricke, S.; Dudeck, J.; Dudeck, A.
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Receptor activator of NF{kappa}B ligand (RANKL) is important for bone metabolism, but also modulates immune processes. We showed that mast cells (MCs) are involved in RANKL regulation, but the importance of MC-derived RANKL in skin inflammation has not yet been investigated. In contact hypersensitivity (CHS), the absence of MC-derived RANKL led to reduced skin inflammation due to impaired leukocyte infiltration and blood lymphopenia. Surprisingly, we observed a massive hyperplasia of the distant inguinal lymph nodes in the absence of MC-RANKL. Using adoptive transfers, flow cytometry and whole-mount 3D imaging, we demonstrated that this was not caused by structural maladaptation, but rather by the inability of lymphocytes to exit in a timely manner. Importantly, RANKL deletion in skin MCs only replicated the effect of LN hyperplasia and blood lymphopenia. Moreover, MCs were involved in serum sphingosine-1-phosphate (S1P) regulation during sensitization and challenge. Intravascular administration of S1P restored timely lymphocyte egress, demonstrating a MC-induced organ-spanning RANKL-S1P axis. Consequently, peripheral skin MC-derived RANKL is essential for the timely lymphocyte egress from distant LNs, which may have important implications for the targeted treatment of inflammatory skin diseases.
Pumpe, C.; Sanderson, A.; Forsyth, B.; Simunovic, J.; Narimatsu, Y.; Clausen, H.; Lauc, G.; Cragg, M.; Bruhns, P.; Gray, M.; Benezech, C.; Hayward, C.; Vermeren, S.
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The IgG Fc chain carries a single N-linked glycan which may undergo changes. Increased agalactosylated N-glycans are associated with rheumatoid arthritis (RA) and regarded as pro-inflammatory. Dysregulated neutrophils can make important contributions to host tissue damage. In RA, immune complexes (ICs) that have precipitated onto synovial joint surfaces activate neutrophils via Fc receptors, promoting localised inflammation. We engineered recombinant human monoclonal IgG with agalactosylated or galactosylated N-glycans, generated immobilised ICs and stimulated healthy donor and RA patient blood-derived neutrophils, comparing reactive oxygen species (ROS) production as read-out of neutrophilic inflammation. Both healthy donor and RA patient neutrophils generated less ROS when stimulated with ICs made from agalactosylated IgG. Mechanistically this was due to poorer binding of agalactosylated ICs to neutrophil FcgammaRs, causing lower activation of Akt and p38 MAPK. Both are required for immobilised IC-mediated stimulation of the neutrophil NADPH oxidase. Taken together, this suggests that disease-associated, agalactosylated IgG does not in fact promote inflammation and host tissue injury, at least not by acting on neutrophils. We propose that rather than promoting inflammation, agalactosylated IgG N-glycans that accompany inflammatory disease may arise as part of a compensatory mechanism that is aimed at reducing excessive inflammation and host tissue injury.
Thompson, D.; Wabara, Y.; Duran, S.; Reichenbach, A.; Rastogi, D.
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RationaleAsthma is a multifactorial disease with a role of genetic susceptibility and environmental exposures. These aspects are poorly understood for pediatric obesity-related asthma, a phenotype of non-allergic asthma. ObjectiveTo quantify gene by environment interactions in obesity-related asthma MethodsUsing expression quantitative trait loci (eQTLs) as measure of genetic susceptibility, and obesity-mediated effects on anthropometrics, metabolic measures, and T helper cell proportions as biological sequelae of obesogenic environment, we quantified the association of eQTLs with asthma burden, and its modulation by obesity-mediated effects, in primary cohort of 144 children, and validation cohort of 101 children. Measurements and Main ResultsOf the 3,904 eQTLs associated with gene expression, up to 30% were associated with pulmonary function indices, including FVC, FEV1, TLC, FRC and IC, and were enriched for African ancestry. These eQTLs encoded for antigen presentation, cell mobility, autophagy, small GTPase signal transduction, fatty acid metabolism, and chromosome segregation pathways. Neck and waist circumference, insulin resistance, leptin and adiponectin levels, and T helper 1 and 17 cell proportions attenuated association of up to 51% eQTLs with pulmonary function, which encoded for all but fatty acid metabolism and chromosome segregation pathways. eQTLs associated with ATF6 and MEI1 retained significance. eQTLs for RNASET2, FBLN5, STX2, HEATR3 and SERPINB6 genes were associated with pulmonary function in the validation cohort. ConclusionsWe report novel genetic susceptibility markers of asthma burden in pediatric obesity-related asthma that are enriched for African ancestry and are partly attenuated by truncal fat load and obesity-mediated inflammation and metabolic dysregulation.
Zafar, A.; Chauhan, G.; Mukherjee, P. K.; Marino-Melendez, A.; Musich, R.; Wang, Y.; Naydenov, N. G.; Rieder, F.; Ivanov, A. I.
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Cell division cycle 42 (Cdc42) is a member of the Rho family of small GTPases, which plays crucial roles in regulating cytoskeletal remodeling, and membrane trafficking. While previous studies implicated Cdc42 in controlling intestinal epithelial homeostasis, the involvement of this small GTPase in the process of intestinal fibrogenesis remains unexplored. Our study was designed to determine whether Cdc42 regulates the fibrogenic activation of intestinal myofibroblasts in vitro. The study was conducted using a CCD-18Co normal human colonic fibroblast cell line, and primary human intestinal myofibroblasts (HIMF) isolated from Crohns disease (CD) patients. CCD-18Co and HIMF cells were stimulated by transforming growth factor-{beta}1 (TGF-{beta}1). Cdc42 was inhibited either genetically, using siRNA-mediated knockdown, or pharmacologically using specific Cdc42 inhibitors, ML141 and CASIN. Genetic and pharmacologic inhibition of Cdc42 markedly reduced TGF-{beta}1 induced expression of the major contractile cytoskeletal proteins, -smooth muscle actin, calponin 1 and L-caldesmon. Furthermore, Cdc42 inhibition significantly attenuated expression of key extracellular matrix (ECM) proteins, fibronectin and collagen I, in activated CCD-18Co cells and HIMF. Interestingly, decreased expression of contractile and ECM proteins in Cdc42-depleted myofibroblasts was not due to downregulation of the TGF-{beta}1 signaling, decreased mRNA transcription or increased lysosomal or proteasomal degradation of these proteins. Such suppressed pro-fibrotic activation of Cdc42-deficient CCD-18Co cells and HIMF involved a selective inhibition of protein translation due to inactivation of the AKT-mammalian target of rapamycin (mTOR) signaling module. These findings highlight Cdc42 as a key regulator of intestinal fibrosis that controls mTOR activation to enhance ECM production and contractile actomyosin cytoskeleton in intestinal myofibroblasts.
Shiratori, M.; Callejas Hernandez, F.; Orosco, J. C.; Sullivan, S. A.; Carmona Fontaine, C.; Carlton, J. M.
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Trichomonas vaginalis is the causative agent of trichomoniasis, the most common non-viral sexually transmitted infection (STI). Despite its prevalence, low levels of public knowledge and research funding and the absence of T. vaginalis screening or control programs have led to its categorization as a "neglected" STI. Unlike other STIs in the USA, prevalence increases with age, peaking among individuals in their 40s. Both a motile trophozoite stage and a non-motile pseudocyst state have been described for the parasite, although it is debated whether the latter is a quiescent stage or a degenerate form on its way to cell death. Here we characterize the T. vaginalis pseudocyst by flow cytometry, membrane integrity assays, transcriptomics, and reversion studies. Pseudocysts were induced by culturing trophozoites in acidic media or in iron depleted media, with a variety of resulting survival rates. Flow cytometry studies showed that pseudocysts have intact cell membranes and express phosphatidylserine on their cell surface. Fluorescence-activated cell sorting studies also identified distinct sub-populations of parasites, revealing the importance of using pure live pseudocyst cultures in reversion studies. Pseudocysts were transcriptionally active for several days and had consistent subsets of genes with increased expression compared to trophozoites, although decreased transcription of genes involved in metabolism. Comparative transcriptomics of pseudocysts and trophozoites of two T. vaginalis strains revealed distinct cell states. Combined, our results provide evidence that the pseudocyst cell state is a stress-induced quiescent stage of T. vaginalis that can remain viable for days, with implications for a role in persistent infections. Author SummaryThe sexually transmitted parasite Trichomonas vaginalis has two well-known cell forms: a free-swimming, flagellated trophozoite and an amoeboid form adhered to host epithelia. A third morphology, the pseudocyst, has been described, but it is unclear whether this is a quiescent stage capable of facilitating persistent infections, or a degenerate form indicating cell death. Here we describe experiments revealing that pseudocysts have overall decreased gene expression compared to trophozoites but exhibit stage-specific gene transcription and plasma membrane integrity for days. Moreover, pseudocysts maintain externalized phosphatidylserine for multiple days. Taken together, our results suggest that pseudocysts are a viable cell stage in T. vaginalis distinct from cell death. Further research into pseudocysts and particularly their interactions with host immune cells is needed to reveal what role they may play in T. vaginalis pathogenesis and persistent or asymptomatic infections.