Virus-specific Ab Research Articles

Appropriate Sampling and Longer Follow-Up Are Required to Rigorously Evaluate Longevity of Humoral Memory After Vaccination.

One of the goals of vaccination is to induce long-lived immunity against the infection and/or disease. Many studies have followed the generation of humoral immunity to SARS-CoV-2 after vaccination; however, such studies typically varied by the duration of the follow-up and the number of time points at which immune response measurements were done. How these parameters (the number of time points and the overall duration of the follow-up) impact estimates of immunity longevity remain largely unknown. Several studies, including one by Arunachalam etal. (2023. J. Clin. Invest. 133: e167955), evaluated the humoral immune response in individuals receiving either a third or fourth dose of mRNA COVID-19 vaccine; by measuring Ab levels at three time points (prior to vaccination and at 1 and 6 mo), Arunachalam etal. found similar half-life times for serum Abs in the two groups and thus suggested that additional boosting is unnecessary to prolong immunity to SARS-CoV-2. I demonstrate that measuring Ab levels at these three time points and only for 6 mo does not allow one to accurately evaluate the long-term half-life of vaccine-induced Abs. By using the data from a cohort of blood donors followed for several years, I show that after revaccination with vaccinia virus, vaccinia virus-specific Abs decay biphasically, and even the late decay rate exceeds the true slow loss rate of humoral memory observed years prior to the boosting. Mathematical models of Ab response kinetics, parameterized using preliminary data, should be used for power analysis to determine the most appropriate timing and duration of sampling to rigorously determine the duration of humoral immunity after vaccination.

FcγRIIB modulates splenic germinal center response against immune subversion during acute influenza A virus infection

BackgroundB cells are essential for providing humoral protection against acute influenza A virus (IAV) infection. FcγRIIB, a regulator of antibody (Ab) production, influences immune responses during pathogen infections, but its specific impact on humoral protection and B cell-mediated responses against IAV remains unclear. MethodsTo investigate FcγRIIB's role in host defense and B cell function during acute IAV infection, we generated mice with systemic FcγRIIB deficiency, functional impairment, and B cell-specific FcγRIIB deletion. We infected these mice with PR8 (H1N1) or Hkx31 (H3N2) IAVs and evaluated body weight preservation, survival rates, Ab production, viral neutralization, Ab affinity maturation, and germinal center B cell development. ResultsMice lacking FcγRIIB or with impaired function showed improved protection, preserved body weight, and increased survival rates during IAV infection. Notably, mice with haploinsufficient FcγRIIB function displayed protective effects. Selective deficiency of FcγRIIB in B cells led to enhanced Ab production, resulting in elevated IAV-specific Abs in the serum with superior viral neutralizing potency. However, the impact on the affinity maturation index of virus-specific Abs was modest. Accordingly, FcγRIIB-deficient B cells maintained normal germinal center B cell development during IAV infection, whereas wild-type mice exhibited delayed differentiation. ConclusionOur research underscores the pivotal role of FcγRIIB in host defense and B cell-mediated immunity during acute IAV infection. Additionally, our discoveries hold implications for antiviral treatments, particularly during the initial stages of IAV infection, aimed at enhancing the host's humoral immune response.

Both Humoral and Cellular Immunity Limit the Ability of Live Attenuated Influenza Vaccines to Promote T Cell Responses.

One potential advantage of live attenuated influenza vaccines (LAIVs) is their ability to establish both virus-specific Ab and tissue-resident memory T cells (TRM) in the respiratory mucosa. However, it is hypothesized that pre-existing immunity from past infections and/or immunizations prevents LAIV from boosting or generating de novo CD8+ T cell responses. To determine whether we can overcome this limitation, we generated a series of drifted influenza A/PR8 LAIVs with successive mutations in the hemagglutinin protein, allowing for increasing levels of escape from pre-existing Ab. We also inserted a CD8+ T cell epitope from the Sendai virus nucleoprotein (NP) to assess both generation of a de novo T cell response and boosting of pre-existing influenza-specific CD8+ T cells following LAIV immunization. Increasing the level of escape from Ab enabled boosting of pre-existing TRM, but we were unable to generate de novo Sendai virus NP+ CD8+ TRM following LAIV immunization in PR8 influenza-immune mice, even with LAIV strains that can fully escape pre-existing Ab. As these data suggested a role for cell-mediated immunity in limiting LAIV efficacy, we investigated several scenarios to assess the impact of pre-existing LAIV-specific TRM in the upper and lower respiratory tract. Ultimately, we found that deletion of the immunodominant influenza NP366-374 epitope allowed for sufficient escape from cellular immunity to establish de novo CD8+ TRM. When combined, these studies demonstrate that both pre-existing humoral and cellular immunity can limit the effectiveness of LAIV, which is an important consideration for future design of vaccine vectors against respiratory pathogens.

Immune Responses to a Single Dose of the AZD1222/Covishield Vaccine at 16 Weeks in Individuals in Sri Lanka.

Due to limited access to vaccines, many countries have only administered a single dose of the AZD1222, whereas the dosage intervals have increased ≥4 wk. We sought to investigate the immunogenicity of a single dose of vaccine at ≥16 wk postimmunization. Severe acute respiratory syndrome coronavirus 2-specific Abs in 553 individuals and Abs to the receptor-binding domain of the Wuhan virus (wild-type) and the variants of concern, angiotensin-converting enzyme 2 receptor blocking Abs ex vivo and cultured IFN-γ T cell (Homo sapiens) responses and B cell (H. sapiens) ELISPOT responses, were investigated in a subcohort. The seropositivity rates in those >70 y of age (93.7%) was not significantly different compared with other age groups (97.7-98.2; Pearson χ2 = 7.8; p = 0.05). The Ab titers (Ab index) significantly declined (p < 0.0001) with increase in age. A total of 18 of 69 (26.1%) of individuals did not have angiotensin-converting enzyme 2 receptor-blocking Abs, whereas responses to the receptor-binding domain of wild-type (p = 0.03), B.1.1.7 (p = 0.04), and B.1.617.2 (p = 0.02) were significantly lower in those who were >60 y. Ex vivo IFN-γ T cell ELISPOT responses were seen in 10 of 66 (15.1%), whereas only a few expressed CD107a. However, >85% had a high frequency of cultured IFN-γ T cell ELISPOT responses and B cell ELISPOTs. Virus-specific Abs were maintained at ≥16 wk after receiving a single dose of AZD1222, although levels were lower to variants of concern, especially in older individuals. A single dose induced a high frequency of memory T and B cell responses.

Identification of Structurally Related Antibodies in Antibody Sequence Databases Using Rosetta-Derived Position-Specific Scoring

The amount of antibody (Ab) variable gene sequence information is expanding rapidly, but our ability to predict the function of Abs from sequence alone is limited. Here, we describe a sequence-to-function prediction method that couples structural data for a single Ab/antigen (Ag) complex with repertoire data. We used a position-specific structure-scoring matrix (P3SM) incorporating structure-prediction scores from Rosetta to identify Ab variable loops that have predicted structural similarity to the influenza virus-specific human Ab CH65. The P3SM approach identified new members of this Ab class. Recombinant Ab expression, crystallography, and virus inhibition assays showed that the HCDR3 loops of the newly identified Abs possessed similar structure and antiviral activity as the comparator CH65. This approach enables discovery of new human Abs with desired structure and function using cDNA repertoires that are obtained readily with current amplicon sequencing techniques.

T Cell-Intrinsic IL-6R Signaling Is Required for Optimal ICOS Expression and Viral Control during Chronic Infection.

The pleiotropic cytokine IL-6 plays an integral role not only in innate inflammatory responses but also in the activation and differentiation of lymphocyte subsets. In this study, by using a conditional knockout (cKO) model with selective IL-6 receptor deletion in T cells (IL-6R-cKO), we demonstrated that T cell-specific IL-6R signaling is essential for viral control during persistent lymphocytic choriomeningitis virus clone 13 infection. Strikingly, we observed that in contrast to previous studies with ubiquitous IL-6 deletion or blockade, specific IL-6R deletion in T cells did not affect T follicular helper (Tfh) cell accumulation unless IL-6R-deficient T cells were competing with wild-type cells in mixed bone marrow chimeras. In contrast, Tfh cells from IL-6R-cKO-infected mice exhibited reduced ICOS expression in both chimeric and nonchimeric settings, and this sole identifiable Tfh defect was associated with reduced germinal centers, compromised Ig switch and low avidity of lymphocytic choriomeningitis virus-specific Abs despite intact IL-6R expression in B cells. We posit that IL-6R cis-signaling is absolutely required for appropriate ICOS expression in Tfh cells and provides a competitive advantage for Tfh accumulation, enabling generation of optimal B cell and Ab responses, and ultimately viral control during in vivo chronic infection.

Multiplexed FluoroSpot for the Analysis of Dengue Virus- and Zika Virus-Specific and Cross-Reactive Memory B Cells.

Dengue virus (DENV) and Zika virus (ZIKV) are mosquito-borne pathogens that have a significant impact on human health. Immune sera, mAbs, and memory B cells (MBCs) isolated from patients infected with one DENV type can be cross-reactive with the other three DENV serotypes and even more distantly related flaviviruses such as ZIKV. Conventional ELISPOTs effectively measure Ab-secreting B cells but because they are limited to the assessment of a single Ag at a time, it is challenging to distinguish serotype-specific and cross-reactive MBCs in the same well. We developed a novel multifunction FluoroSpot assay using fluorescently labeled DENV and ZIKV (FLVs) that measures the cross-reactivity of Abs secreted by single B cells. Conjugation efficiency and recognition of FLVs by virus-specific Abs were confirmed by flow cytometry. Using a panel of DENV immune, ZIKV immune, and naive PBMC, FLVs were able to simultaneously detect DENV serotype-specific, ZIKV-specific, DENV serotype cross-reactive, and DENV/ZIKV cross-reactive Abs secreted by individual MBCs. Our findings indicate that the FLVs are sensitive and specific tools to detect specific and cross-reactive MBCs. These reagents will allow the assessment of the breadth as well as the durability of DENV/ZIKV B cell responses following vaccination or natural infection. This novel approach using FLVs in a FluoroSpot assay can be applied to other diseases such as influenza in which prior immunity with homosubtype- or heterosubtype-specific MBCs may influence subsequent infections.

Enhanced immunoglobulin somatic hypermutation in human APOBEC3 transgenic mice

Abstract Eliciting a broadly neutralizing antibody (bNAb) response remains a major hurdle in HIV-1 vaccine development, as a majority of these bNAbs are heavily mutated. Immunoglobulin (Ig) somatic hypermutation (SHM) is primarily driven by AID. However, our previous data in Friend retrovirus (FV) infected mice revealed that an evolutionarily-related deaminase, mouse APOBEC3 (mA3), may complement AID in mutating virus-specific Abs (Halemano et al, PNAS 2014). AID mutates primarily in an RC context (R=purine), whereas the A3s mutate in a YC context (Y=pyrimidine). Of note, mice encode only one A3 gene, but humans encode seven. To date, it remains unclear if the human APOBEC3 (hA3) deaminases can directly mutate Ig genes. To study the role of hA3s in Ig SHM, bacterial artificial chromosome (BAC)-transgenic mice expressing the 7 hA3s (hA3-Tg) were crossed onto an mA3 KO background. All hA3s were expressed in hA3-Tg B cells during FV infection. hA3-Tg (n=13) and mA3 KO (n=12) mice were vaccinated with live-attenuated FV and analyzed at 28 d. Surprisingly, the hA3-Tg mice have an impaired plasma NAb response (p=0.0003) despite similar virus-specific binding IgG titers (p&amp;gt;0.1). Illumina sequencing of bone marrow IgG transcripts showed increased deamination mutations (C to T or G to A) in hA3-Tg versus mA3 KO mice (p=0.0043). Interestingly, this increase was accounted for by AID-type (RC), but not hA3-type (YC), mutations. Our findings reveal that hA3 can increase IgG SHM rates following vaccination, but the initial impact on the vaccine NAb response may be detrimental. Studies are ongoing to monitor the development of virus-specific antibodies in hA3-Tg mice, as harmful mutations may be more prominent during early time points post-vaccination.

OX40 Cooperates with ICOS To Amplify Follicular Th Cell Development and Germinal Center Reactions during Infection.

Cognate interactions between T follicular helper (Tfh) cells and B cells are essential for promoting protective Ab responses. Whereas costimulatory receptors such as ICOS are accepted as being important for the induction of Tfh cell fate decision, other molecules may play key roles in amplifying or maintaining the Tfh phenotype. In this study, with vaccinia virus infection in mice, we show that OX40 was expressed on Tfh cells that accumulated at the T/B borders in the white pulp of the spleen and that OX40-dependent signals directly shaped the magnitude and quality of the their response to viral Ags. OX40 deficiency in Tfh cells profoundly impaired the acquisition of germinal center (GC) B cell phenotype, plasma cell generation, and virus-specific Ab responses. Most significantly, we found that sustained interactions between OX40 and its ligand, OX40L, beyond the time of initial encounter with dendritic cells were required for the persistence of high numbers of Tfh and GC B cells. Interestingly, OX40 was coexpressed with ICOS on Tfh cells in and around the GC, and ICOS-ICOSL interactions were similarly crucial at late times for maintenance of the Tfh and GC B cells. Thus, OX40 and ICOS act in a cooperative, nonredundant manner to maximize and prolong the Tfh response that is generated after acute virus infection.

IL-10 Regulates Memory T Cell Development and the Balance between Th1 and Follicular Th Cell Responses during an Acute Viral Infection.

T cells provide protective immunity against infections by differentiating into effector cells that contribute to rapid pathogen control and by forming memory populations that survive over time and confer long-term protection. Thus, understanding the factors that regulate the development of effective T cell responses is beneficial for the design of vaccines and immune-based therapies against infectious diseases. Cytokines play important roles in shaping T cell responses, and IL-10 has been shown to modulate the differentiation of CD4 and CD8 T cells. In this study, we report that IL-10 functions in a cell-extrinsic manner early following acute lymphocytic choriomeningitis virus infection to suppress the magnitude of effector Th1 responses as well as the generation of memory CD4 and CD8 T cells. We further demonstrate that the blockade of IL-10 signaling during the priming phase refines the functional quality of memory CD4 and CD8 T cells. This inhibition strategy resulted in a lower frequency of virus-specific follicular Th (Tfh) cells and increased the Th1 to Tfh ratio. Nevertheless, neither germinal center B cells nor lymphocytic choriomeningitis virus-specific Ab levels were influenced by the blockade. Thus, our studies show that IL-10 influences the balance between Th1 and Tfh cell differentiation and negatively regulates the development of functionally mature memory T cells.

A Novel R848-Conjugated Inactivated Influenza Virus Vaccine Is Efficacious and Safe in a Neonate Nonhuman Primate Model.

Influenza virus infection of neonates poses a major health concern, often resulting in severe disease and hospitalization. At present, vaccines for this at-risk population are lacking. Thus, development of an effective vaccine is an urgent need. In this study, we have used an innovative nonhuman primate neonate challenge model to test the efficacy of a novel TLR 7/8 agonist R848-conjugated influenza virus vaccine. The use of the intact virus represents a step forward in conjugate vaccine design because it provides multiple antigenic targets allowing for elicitation of a broad immune response. Our results show that this vaccine induces high-level virus-specific Ab- and cell-mediated responses in neonates that result in increased virus clearance and reduced lung pathology postchallenge compared with the nonadjuvanted virus vaccine. Surprisingly, the addition of a second TLR agonist (flagellin) did not enhance vaccine protection, suggesting that combinations of TLR that provide increased efficacy must be determined empirically. These data support further exploration of this new conjugate influenza vaccine approach as a platform for use in the at-risk neonate population.

Cell-Intrinsic gp130 Signaling on CD4+ T Cells Shapes Long-Lasting Antiviral Immunity.

The IL-6 cytokine family utilizes the common signal transduction molecule gp130, which can mediate a diverse range of outcomes. To clarify the role of gp130 signaling in vivo during acute viral infection, we infected Cd4-cre Il6st(fl/fl) mice, in which gp130 is conditionally ablated in T cells, with acute lymphocytic choriomeningitis virus. We found that by day 12, but not at day 8, after infection the number of virus-specific CD4(+) T cells was reduced in the absence of gp130, and this was sustained for up to 2 mo postinfection. Additionally, gp130-deficient T follicular helper cells had lower expression of Maf, IL-21, and ICOS, and this was accompanied by a reduction in the proportion of germinal center B cells and plasmablasts. Remarkably, at 2 mo postinfection the proportion of IgG2a/c(+) memory B cells and the systemic levels of lymphocytic choriomeningitis virus-specific IgG2 Abs were dramatically decreased, whereas there was a corresponding increase in IgG1(+) memory B cells and virus-specific IgG1 Abs. In the same animals gp130-deficient virus-specific CD8(+) T cells showed a reduced proportion of memory cells, which expressed lower levels of Tcf7, and displayed diminished recall responses on secondary infection. Mixed bone marrow chimeras revealed that the aforementioned gp130 effects on CD4(+) T cells were cell intrinsic. Overall, our data show that gp130 signaling in T cells influences the quantity and quality of long-lasting CD4(+) T cell responses as well as CD8(+) T cell- and Ab-mediated immunity after acute viral infection.

Nasal plasmid Flt3 ligand and CpG ODN alone enhances immediate, influenza virus-specific recall secretory IgA Ab responses in aging (MUC1P.904)

Abstract The elderly have already experienced various pathogens and thus possess pathogen-specific Abs, whose titers are too low to combat reinfection. Thus, it would be of great benefit to the aged population if one could use an innate adjuvant system alone, without vaccine, in order to enhance mucosal immunity against past respiratory infections. We tested whether a combined plasmid Flt3 ligand (pFL) and CpG ODN adjuvant would enhance influenza virus-specific recall Ab responses without a need for additional vaccination. Young adult mice were nasally immunized with A/Puerto Rico/8/34 (PR8) hemagglutinin (HA) plus cholera toxin as mucosal adjuvant three times at weekly intervals. Seven months later, these mice were given nasal pFL and CpG ODN only or combined adjuvant together with PR8 HA. Saliva and plasma samples were collected 7 days later and PR8 HA-specific IgA Ab responses were evaluated. Both groups of mice showed significantly increased and comparable levels of anti-PR8 HA secretory IgA Ab responses in saliva when compared with those responses seen without innate adjuvant. The increase in total IgG Ab responses in mice given pFL and CpG ODN were limited when compared with those seen after primary nasal immunization. Total plasma IgE Ab titers in mice given nasal pFL and CpG ODN only were the same as IgE levels seen in naïve mice. These results suggest that nasal pFL and CpG ODN alone can enhance pre-existing Ag-specific Ab responses without adverse effects in the elderly.

Recovery of an Antiviral Antibody Response following Attrition Caused by Unrelated Infection

The homeostatic mechanisms that regulate the maintenance of immunological memory to the multiple pathogen encounters over time are unknown. We found that a single malaria episode caused significant dysregulation of pre-established Influenza A virus-specific long-lived plasma cells (LLPCs) resulting in the loss of Influenza A virus-specific Abs and increased susceptibility to Influenza A virus re-infection. This loss of LLPCs involved an FcγRIIB-dependent mechanism, leading to their apoptosis. However, given enough time following malaria, the LLPC pool and humoral immunity to Influenza A virus were eventually restored. Supporting a role for continuous conversion of Influenza A virus-specific B into LLPCs in the restoration of Influenza A virus immunity, B cell depletion experiments also demonstrated a similar requirement for the long-term maintenance of serum Influenza A virus-specific Abs in an intact LLPC compartment. These findings show that, in addition to their established role in the anamnestic response to reinfection, the B cell pool continues to be a major contributor to the maintenance of long-term humoral immunity following primary Influenza A virus infection, and to the recovery from attrition following heterologous infection. These data have implications for understanding the longevity of protective efficacy of vaccinations in countries where continuous infections are endemic.

Cutting Edge: Antibody-Dependent Memory-like NK Cells Distinguished by FcRγ Deficiency

Because NK cells lack gene-recombination machinery and are thought to be relatively short-lived, it is unclear whether NK cells can mount long-term effective recall responses to reinfections by diverse pathogens. In this article, we report that FcRγ-deficient NK cells, which we recently identified and termed g(-)NK cells, possess distinct memory features directed by FcR-mediated Ab-dependent target recognition. The presence of g(-)NK cells was associated with prior human CMV (HMCV) infection, yet g(-)NK cell responses were not restricted to HCMV-infected target cells. In the presence of virus-specific Abs, g(-)NK cells had greatly enhanced functional capabilities, superior to conventional NK cells, and were highly responsive to cells infected with either HCMV or HSV-1. Remarkably, the g(-)NK cell subset persisted long-term at nearly constant levels in healthy individuals. Therefore, FcRγ deficiency distinguishes an Ab-dependent memory-like NK cell subset with enhanced potential for broad antiviral responses.

Astrocyte-Derived CXCL10 Drives Accumulation of Antibody-Secreting Cells in the Central Nervous System during Viral Encephalomyelitis

Microbial infections of the central nervous system (CNS) are often associated with local accumulation of antibody (Ab)-secreting cells (ASC). By providing a source of Ab at the site of infection, CNS-localized ASC play a critical role in acute viral control and in preventing viral recrudescence. Following coronavirus-induced encephalomyelitis, the CNS accumulation of ASC is chemokine (C-X-C motif) receptor 3 (CXCR3) dependent. This study demonstrates that CNS-expressed CXCR3 ligand CXCL10 is the critical chemokine regulating ASC accumulation. Impaired ASC recruitment in CXCL10(-/-) but not CXCL9(-/-) mice was consistent with reduced CNS IgG and κ-light chain mRNA and virus-specific Ab. Moreover, the few ASC recruited to the CNS in CXCL10(-/-) mice were confined to the vasculature, distinct from the parenchymal localization in wild-type and CXCL9(-/-) mice. However, neither CXCL9 nor CXCL10 deficiency diminished neutralizing serum Ab, supporting a direct role for CXCL10 in ASC migration. T cell accumulation, localization, and effector functions were also not affected in either CXCL9(-/-) or CXCL10(-/-) mice, consistent with similar control of infectious virus. There was also no evidence for dysregulation of chemokines or cytokines involved in ASC regulation. The distinct roles of CXCL9 and CXCL10 in ASC accumulation rather coincided with their differential localization. While CXCL10 was predominantly expressed by astrocytes, CXCL9 expression was confined to the vasculature/perivascular spaces. These results suggest that CXCL10 is critical for two phases: recruitment of ASC to the CNS vasculature and ASC entry into the CNS parenchyma.

Over-production of BAFF by dendritic cells and inflammatory monocytes during primary HIV-1 infection.

Event Abstract Back to Event Over-production of BAFF by dendritic cells and inflammatory monocytes during primary HIV-1 infection. Gwenoline Borhis1, 2, Nada Chaoul3, Caroline Gilbert4, Christophe Gras5, Cécile Goujard6, 7, Laurence Meyer8, Stéphane Paul9, Henia Saoudin9, Jean-Philippe Herbeuval5 and Yolande Richard1, 2* 1 INSERM U1016, CNRS UMR8104, Infection Immunity and Inflammation Department, France 2 Université Paris Descartes, France 3 CEA, DSV/ iMETI, France 4 Université Laval, Centre de recherche du CHU de Quebec, Canada 5 CNRS UMR8603, France 6 INSERM U802, France 7 AP-HP, France 8 INSERM U1018, France 9 GIMAP EA3064, France Recent studies indicate that early activation of the immune system bears a major role in shaping B-cell repertoire and virus-specific antibody (Ab) response during primary HIV-1/SIV infection. The B cell–activating factor belonging to the TNF family (BAFF) is an inflammatory cytokine involved in Ab response and Ig class switching. However, BAFF excess also promotes the abnormal survival of self-reactive B-cell clones. We have thus evaluated the potential contribution of BAFF/APRIL impaired B-cell responses in 35 untreated primary HIV-1-infected patients (PHI) (PRIMO-ANRS Co06). Serum BAFF levels were strongly increased at enrolment, which occurs between 20 and 45 days post-infection (pi), and rapidly decreased after one month. At six months pi, the average BAFF level was similar to that of healthy donors in most patients. BAFF levels correlate directly with plasma viral load and inversely with CD4+ T-cell counts. Moreover, human monocytes and myeloid dendritic cells released BAFF when exposed in vitro to R5 HIV-1, TLR3 agonist or type I IFN. Plasmacytoid dendritic cells were unable to secrete BAFF but exhibited its enhanced membrane expression in response to HIV-1 and CpG. However, preliminary data indicated that blood CD16+ monocytes might be a major source of BAFF in PHI patients. Altogether, our data suggest that HIV-1 triggers BAFF over-production by dendritic cells and inflammatory monocytes, which likely contributes to local inflammation after their rapid relocation in various tissues, including gut mucosa. BAFF over-production might thus contribute to early inflammation and to the imbalance between polyclonal and virus-specific Ab responses. Keywords: B cells, HIV-1, BAFF, acute infection, Monocytes, Dendritic Cells Conference: 15th International Congress of Immunology (ICI), Milan, Italy, 22 Aug - 27 Aug, 2013. Presentation Type: Abstract Topic: Immune-mediated disease pathogenesis Citation: Borhis G, Chaoul N, Gilbert C, Gras C, Goujard C, Meyer L, Paul S, Saoudin H, Herbeuval J and Richard Y (2013). Over-production of BAFF by dendritic cells and inflammatory monocytes during primary HIV-1 infection.. Front. Immunol. Conference Abstract: 15th International Congress of Immunology (ICI). doi: 10.3389/conf.fimmu.2013.02.00453 Copyright: The abstracts in this collection have not been subject to any Frontiers peer review or checks, and are not endorsed by Frontiers. They are made available through the Frontiers publishing platform as a service to conference organizers and presenters. The copyright in the individual abstracts is owned by the author of each abstract or his/her employer unless otherwise stated. Each abstract, as well as the collection of abstracts, are published under a Creative Commons CC-BY 4.0 (attribution) licence (https://creativecommons.org/licenses/by/4.0/) and may thus be reproduced, translated, adapted and be the subject of derivative works provided the authors and Frontiers are attributed. For Frontiers’ terms and conditions please see https://www.frontiersin.org/legal/terms-and-conditions. Received: 10 Apr 2013; Published Online: 22 Aug 2013. * Correspondence: Dr. Yolande Richard, INSERM U1016, CNRS UMR8104, Infection Immunity and Inflammation Department, Paris, France, yolande.richard@inserm.fr Login Required This action requires you to be registered with Frontiers and logged in. To register or login click here. Abstract Info Abstract Supplemental Data The Authors in Frontiers Gwenoline Borhis Nada Chaoul Caroline Gilbert Christophe Gras Cécile Goujard Laurence Meyer Stéphane Paul Henia Saoudin Jean-Philippe Herbeuval Yolande Richard Google Gwenoline Borhis Nada Chaoul Caroline Gilbert Christophe Gras Cécile Goujard Laurence Meyer Stéphane Paul Henia Saoudin Jean-Philippe Herbeuval Yolande Richard Google Scholar Gwenoline Borhis Nada Chaoul Caroline Gilbert Christophe Gras Cécile Goujard Laurence Meyer Stéphane Paul Henia Saoudin Jean-Philippe Herbeuval Yolande Richard PubMed Gwenoline Borhis Nada Chaoul Caroline Gilbert Christophe Gras Cécile Goujard Laurence Meyer Stéphane Paul Henia Saoudin Jean-Philippe Herbeuval Yolande Richard Related Article in Frontiers Google Scholar PubMed Abstract Close Back to top Javascript is disabled. Please enable Javascript in your browser settings in order to see all the content on this page.

Differential Roles for RIG-I–like Receptors and Nucleic Acid-Sensing TLR Pathways in Controlling a Chronic Viral Infection

The necessity for pathogen recognition of viral infection by the innate immune system in initiating early innate and adaptive host defenses is well documented. However, little is known about the role these receptors play in the maintenance of adaptive immune responses and their contribution to resolution of persistent viral infections. In this study, we demonstrate a nonredundant functional requirement for both nucleic acid-sensing TLRs and RIG-I-like receptors in the control of a mouse model of chronic viral infection. Whereas the RIG-I-like receptor pathway was important for production of type I IFNs and optimal CD8(+) T cell responses, nucleic acid-sensing TLRs were largely dispensable. In contrast, optimal anti-viral Ab responses required intact signaling through nucleic acid-sensing TLRs, and the absence of this pathway correlated with less virus-specific Ab and deficient long-term virus control of a chronic infection. Surprisingly, absence of the TLR pathway had only modest effects on Ab production in an acute infection with a closely related virus strain, suggesting that persistent TLR stimulation may be necessary for optimal Ab responses in a chronic infection. These results indicate that innate virus recognition pathways may play critical roles in the outcome of chronic viral infections through distinct mechanisms.

B Cell-Specific Expression of B7-2 Is Required for Follicular Th Cell Function in Response to Vaccinia Virus

Follicular Th (T(FH)) cells are specialized in provision of help to B cells that is essential for promoting protective Ab responses. CD28/B7 (B7-1 and B7-2) interactions are required for germinal center (GC) formation, but it is not clear if they simply support activation of naive CD4 T cells during initiation of responses by dendritic cells or if they directly control T(FH) cells and/or directly influence follicular B cell differentiation. Using a model of vaccinia virus infection, we show that B7-2 but not B7-1 deficiency profoundly impaired T(FH) cell development but did not affect CD4 T cell priming and Th1 differentiation. Consistent with this, B7-2 but not B7-1 was required for acquisition of GC B cell phenotype, plasma cell generation, and virus-specific neutralizing Ab responses. Mixed adoptive transfer experiments indicated that bidirectional interactions between CD28 expressed on activated T cells and B7-2 expressed on follicular B cells were essential for maintenance of the T(FH) phenotype and GC B cell development. Our data provide new insight into the source and nature of molecules required for T(FH) cells to direct GC B cell responses.

Neonatal FcR Overexpression Boosts Humoral Immune Response in Transgenic Mice

The neonatal FcR (FcRn) regulates IgG and albumin homeostasis, mediates maternal IgG transport, takes active part in phagocytosis, and delivers Ag for presentation. We have previously shown that overexpression of FcRn in transgenic (Tg) mice extends the half-life of mouse IgG by reducing its clearance. In this paper, we demonstrate that immunization of these mice with OVA and trinitrophenyl-conjugated human IgG results in a 3- to 10-fold increase of Ag-specific IgM and IgG in serum. The IgM increase was unexpected because FcRn does not bind IgM. Our results showed that the affinity of the Ag-specific IgG was at least as good in Tg mice as in the wild-type (wt) controls, implying appropriate affinity maturation in both groups. Influenza vaccination produced a 2-fold increase in the amount of virus-specific Ab in Tg animals, which proved twice as efficient in a hemagglutination inhibition assay as was the case in wt controls. After immunization, Tg mice displayed significantly larger spleens containing a higher number of Ag-specific B cells and plasma cells, as well as many more granulocytes and dendritic cells, analyzed by ELISPOT and flow cytometric studies. The neutrophils from these Tg mice expressed the Tg FcRn and phagocytosed IgG immune complexes more efficiently than did those from wt mice. These results show that FcRn overexpression not only extends the IgG half-life but also enhances the expansion of Ag-specific B cells and plasma cells. Although both effects increase the level of Ag-specific IgG, the increase in immune response and IgG production seems to be more prominent compared with the reduced IgG clearance.