Scientific Resources

Vascular-deposited IgG immune complexes promote neutrophil recruitment,but how this process is regulated is still unclear. Here we show that the CD18 integrin Mac-1,in its bent state,interacts with the IgG receptor Fc$\gamma$RIIA in cis to reduce the affinity of Fc$\gamma$RIIA for IgG and inhibit Fc$\gamma$RIIA-mediated neutrophil recruitment under flow. The Mac-1 rs1143679 lupus-risk variant reverses Mac-1 inhibition of Fc$\gamma$RIIA,as does a Mac-1 ligand and a mutation in Mac-1's ligand binding $\alpha$I-domain. Sialylated complex glycans on Fc$\gamma$RIIA interact with the $\alpha$I-domain via divalent cations,and this interaction is required for Fc$\gamma$RIIA inhibition by Mac-1. Human neutrophils deficient in CD18 integrins exhibit augmented Fc$\gamma$RIIA-dependent recruitment to IgG-coated endothelium. In mice,CD18 integrins on neutrophils dampen IgG-mediated neutrophil accumulation in the kidney. In summary,cis interaction between sialylated Fc$\gamma$RIIA and the $\alpha$I-domain of Mac-1 alters the threshold for IgG-mediated neutrophil recruitment. A disruption of this interaction may increase neutrophil influx in autoimmune diseases. View Publication

T-cell responses in the lung are critical for protection against respiratory pathogens. TNFR superfamily members play important roles in providing survival signals to T cells during respiratory infections. However,whether these signals take place mainly during priming in the secondary lymphoid organs and/or in the peripheral tissues remains unknown. Here we show that under conditions of competition,GITR provides a T-cell intrinsic advantage to both CD4 and CD8 effector T cells in the lung tissue,as well as for the formation of CD4 and CD8 tissue-resident memory T cells during respiratory influenza infection in mice. In contrast,under non-competitive conditions,GITR has a preferential effect on CD8 over CD4 T cells. The nucleoprotein-specific CD8 T-cell response partially compensated for GITR deficiency by expansion of higher affinity T cells; whereas,the polymerase-specific response was less flexible and more GITR dependent. Following influenza infection,GITR is expressed on lung T cells and GITRL is preferentially expressed on lung monocyte-derived inflammatory antigen presenting cells. Accordingly,we show that GITR+/+ T cells in the lung parenchyma express more phosphorylated-ribosomal protein S6 than their GITR-/- counterparts. Thus,GITR signaling within the lung tissue critically regulates effector and tissue-resident memory T-cell accumulation. View Publication

During chronic viral infection,the inflammatory function of CD4 T-cells becomes gradually attenuated. Concurrently,Th1 cells progressively acquire the capacity to secrete the cytokine IL-10,a potent suppressor of antiviral T cell responses. To determine the transcriptional changes that underlie this adaption process,we applied a single-cell RNA-sequencing approach and assessed the heterogeneity of IL-10-expressing CD4 T-cells during chronic infection. Here we show an IL-10-producing population with a robust Tfh-signature. Using IL-10 and IL-21 double-reporter mice,we further demonstrate that IL-10+IL-21+co-producing Tfh cells arise predominantly during chronic but not acute LCMV infection. Importantly,depletion of IL-10+IL-21+co-producing CD4 T-cells or deletion of Il10 specifically in Tfh cells results in impaired humoral immunity and viral control. Mechanistically,B cell-intrinsic IL-10 signaling is required for sustaining germinal center reactions. Thus,our findings elucidate a critical role for Tfh-derived IL-10 in promoting humoral immunity during persistent viral infection. View Publication

Common variable immunodeficiency disorders (CVID) represent a group of primary immunodeficiency diseases characterized by hypogammaglobulinemia and impaired specific Ab response,resulting in recurrent infections due to dysfunctional immune response. The specific mechanisms mediating immune deficiency in CVID remain to be determined. Previous studies indicated that immune dysregulation in CVID patients is associated with chronic microbial translocation,systemic immune activation,and altered homeostasis of lymphocytic and myeloid lineages. A detailed phenotypic,functional characterization of plasma markers and immune cell populations was performed in 46 CVID patients and 44 healthy donors. CVID patients displayed significantly elevated plasma levels of a marker of neutrophil activation neutrophil gelatinase-associated lipocalin. Neutrophils from CVID patients exhibited elevated surface levels of CD11b and PD-L1 and decreased levels of CD62L,CD16,and CD80,consistent with a phenotype of activated neutrophils with suppressive properties. Neutrophils from CVID patients actively suppressed T cell activation and release of IFN-$\gamma$ via the production of reactive oxygen species. Furthermore,CVID was associated with an increased frequency of low-density neutrophils (LDNs)/granulocytic myeloid-derived suppressor cells. LDN/granulocytic myeloid-derived suppressor cell frequency in CVID patients correlated with reduced T cell responsiveness. Exogenous stimulation of whole blood with bacterial LPS emulated some but not all of the phenotypic changes observed on neutrophils from CVID patients and induced neutrophil population with LDN phenotype. The presented data demonstrate that neutrophils in the blood of CVID patients acquire an activated phenotype and exert potent T cell suppressive activity. Specific targeting of myeloid cell-derived suppressor activity represents a novel potential therapeutic strategy for CVID. View Publication

The HIV-1 trans-activator protein Tat binds the trans-activation response element (TAR) to facilitate recruitment of the super elongation complex (SEC) to enhance transcription of the integrated pro-viral genome. The Tat-TAR interaction is critical for viral replication and the emergence of the virus from the latent state,therefore,inhibiting this interaction has long been pursued to discover new anti-viral or latency reversal agents. However,discovering active compounds that directly target RNA with high affinity and selectivity remains a significant challenge; limiting pre-clinical development. Here,we report the rational design of a macrocyclic peptide mimic of the arginine rich motif of Tat,which binds to TAR with low pM affinity and 100-fold selectivity against closely homologous RNAs. Despite these unprecedented binding properties,the new ligand (JB181) only moderately inhibits Tat-dependent reactivation in cells and recruitment of positive transcription elongation factor (P-TEFb) to TAR. The NMR structure of the JB181-TAR complex revealed that the ligand induces a structure in the TAR loop that closely mimics the P-TEFb/Tat1:57/AFF4/TAR complex. These results strongly suggest that high-affinity ligands which bind the UCU bulge are not likely to inhibit recruitment of the SEC and suggest that targeting of the TAR loop will be an essential feature of effective Tat inhibitors. View Publication

Interleukin (IL)-23 is thought to be critical in the pathogenesis of psoriasis,and anti-IL-23 monoclonal antibodies (mAbs) have been approved for the treatment of psoriasis. We speculated that an anti-IL-23 receptor mAb might have greater efficacy than an anti-IL-23 mAb in the treatment of local inflamed lesions with high IL-23 levels. We previously generated an anti-human IL-23 receptor mAb,AS2762900-00,which potently blocked IL-23-induced cell proliferation,regardless of the concentration of IL-23. Here,we evaluated the therapeutic potential of AS2762900-00 in the treatment of psoriasis. Compared with untreated control,AS2762900-00 significantly reduced the epidermal thickness of lesions in a clinically relevant psoriatic human skin xenograft model. The expression of inflammatory genes including genes downstream of IL-23 signaling in the lesion tended to be lower in the AS2762900-00 group than the untreated group,suggesting that the inhibitory effects of AS2762900-00 in the psoriatic human skin xenograft model might occur via blockade of IL-23 signaling pathways. Further,AS2762900-00 showed an inhibitory effect on signal transducer and activator of transcription 3 (STAT3) phosphorylation as a downstream signal of IL-23 receptor activation in whole blood from patients with psoriasis. We also confirmed that AS2762900-00 inhibited IL-23-induced STAT3 phosphorylation in a concentration-dependent manner using whole blood from healthy donors. These data suggest that AS2762900-00 is a promising drug candidate for the treatment of psoriasis. In addition,STAT3 phosphorylation in whole blood may be a useful biomarker for the evaluation of the pharmacodynamic effects of AS2762900-00 in healthy volunteers in clinical development. View Publication

Plasminogen activator inhibitor-1 (PAI-1) has a pro-tumorigenic function via its pro-angiogenic and anti-apoptotic activities. Here,we demonstrate that PAI-1 promotes the recruitment and M2 polarization of monocytes/macrophages through different structural domains. Its LRP1 interacting domain regulated macrophage migration,while its C-terminal uPA interacting domain promoted M2 macrophage polarization through activation of p38MAPK and nuclear factor $\kappa$B (NF-$\kappa$B) and induction of an autocrine interleukin (IL)-6/STAT3 activation pathway. We then show in several experiments in mice that expression of PAI-1 is associated with increased tumorigenicity,increased presence of M2 macrophages,higher levels of IL-6,and increased STAT3 phosphorylation in macrophages. Strong positive correlations between PAI-1,IL-6,and CD163 (M2 marker) expression were also found by meta-analysis of transcriptome data in many human cancers. Altogether,these data provide evidence for a mechanism explaining the paradoxical pro-tumorigenic function of PAI-1 in cancer. View Publication

Vaccines are among the most effective public health tools for combating certain infectious diseases such as influenza. The role of the humoral immune system in vaccine-induced protection is widely appreciated; however,our understanding of how antibody specificities relate to B cell function remains limited due to the complexity of polyclonal antibody responses. To address this,we developed the Spec-seq framework,which allows for simultaneous monoclonal antibody (mAb) characterization and transcriptional profiling from the same single cell. Here,we present the first application of the Spec-seq framework,which we applied to human plasmablasts after influenza vaccination in order to characterize transcriptional differences governed by B cell receptor (BCR) isotype and vaccine reactivity. Our analysis did not find evidence of long-term transcriptional specialization between plasmablasts of different isotypes. However,we did find enhanced transcriptional similarity between clonally related B cells,as well as distinct transcriptional signatures ascribed by BCR vaccine recognition. These data suggest IgG and IgA vaccine-positive plasmablasts are largely similar,whereas IgA vaccine-negative cells appear to be transcriptionally distinct from conventional,terminally differentiated,antigen-induced peripheral blood plasmablasts. View Publication

While it is now acknowledged that CD4+ T cells expressing CD25 and Foxp3 (Treg cells) regulate immune responses and,consequently,influence the pathogenesis of infectious diseases,the regulatory response mediated by Treg cells upon infection by Trypanosoma cruzi was still poorly characterized. In order to understand the role of Treg cells during infection by this protozoan parasite,we determined in time and space the magnitude of the regulatory response and the phenotypic,functional and transcriptional features of the Treg cell population in infected mice. Contrary to the accumulation of Treg cells reported in most chronic infections in mice and humans,experimental T. cruzi infection was characterized by sustained numbers but decreased relative frequency of Treg cells. The reduction in Treg cell frequency resulted from a massive accumulation of effector immune cells,and inversely correlated with the magnitude of the effector immune response as well as with emergence of acute immunopathology. In order to understand the causes underlying the marked reduction in Treg cell frequency,we evaluated the dynamics of the Treg cell population and found a low proliferation rate and limited accrual of peripheral Treg cells during infection. We also observed that Treg cells became activated and acquired a phenotypic and transcriptional profile consistent with suppression of type 1 inflammatory responses. To assess the biological relevance of the relative reduction in Treg cells frequency observed during T. cruzi infection,we transferred in vitro differentiated Treg cells at early moments,when the deregulation of the ratio between regulatory and conventional T cells becomes significant. Intravenous injection of Treg cells dampened parasite-specific CD8+ T cell immunity and affected parasite control in blood and tissues. Altogether,our results show that limited Treg cell response during the acute phase of T. cruzi infection enables the emergence of protective anti-parasite CD8+ T cell immunity and critically influences host resistance. View Publication

Pathogen immune responses are profoundly attenuated in fetuses and premature infants,yet the mechanisms underlying this developmental immaturity remain unclear. Here we show transcriptomic,metabolic and polysome profiling and find that monocytes isolated from infants born early in gestation display perturbations in PPAR-$\gamma$-regulated metabolic pathways,limited glycolytic capacity and reduced ribosomal activity. These metabolic changes are linked to a lack of translation of most cytokines and of MALT1 signalosome genes essential to respond to the neonatal pathogen Candida. In contrast,they have little impact on house-keeping phagocytosis functions. Transcriptome analyses further indicate a role for mTOR and its putative negative regulator DNA Damage Inducible Transcript 4-Like in regulating these metabolic constraints. Our results provide a molecular basis for the broad susceptibility to multiple pathogens in these infants,and suggest that the fetal immune system is metabolically programmed to avoid energetically costly,dispensable and potentially harmful immune responses during ontogeny. View Publication

We examined the unique contributions of the cytokines IL-21 and IL-4 on germinal center (GC) B cell initiation and subsequent maturation in a murine model system. Similar to other reports,we found T follicular helper cell expression of IL-21 begins prior to T follicular helper cell migration into the B cell follicle and precedes that of IL-4. Consistent with this timing,IL-21 signaling has a greater influence on the perifollicular pre-GC B cell transition to the intrafollicular stage. Notably,Bcl6hi B cells can form in the combined absence of IL-21R- and STAT6-derived signals; however,these nascent GC B cells cease to proliferate and are more prone to apoptosis. When B cells lack either IL-21R or STAT6,aberrant GCs form atypical centroblasts and centrocytes that differ in their phenotypic maturation and costimulatory molecule expression. Thus,IL-4 and IL-21 play nonredundant roles in the phased progression of GC B cell development that can initiate in the combined absence of these cytokine signals. View Publication

The costimulation of immune cells using first-generation anti-4-1BB monoclonal antibodies (mAbs) has demonstrated anti-tumor activity in human trials. Further clinical development,however,is restricted by significant off-tumor toxicities associated with Fc$\gamma$R interactions. Here,we have designed an Fc-free tumor-targeted 4-1BB-agonistic trimerbody,1D8N/CEGa1,consisting of three anti-4-1BB single-chain variable fragments and three anti-EGFR single-domain antibodies positioned in an extended hexagonal conformation around the collagen XVIII homotrimerization domain. The1D8N/CEGa1 trimerbody demonstrated high-avidity binding to 4-1BB and EGFR and a potent in vitro costimulatory capacity in the presence of EGFR. The trimerbody rapidly accumulates in EGFR-positive tumors and exhibits anti-tumor activity similar to IgG-based 4-1BB-agonistic mAbs. Importantly,treatment with 1D8N/CEGa1 does not induce systemic inflammatory cytokine production or hepatotoxicity associated with IgG-based 4-1BB agonists. These results implicate Fc$\gamma$R interactions in the 4-1BB-agonist-associated immune abnormalities,and promote the use of the non-canonical antibody presented in this work for safe and effective costimulatory strategies in cancer immunotherapy. View Publication