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While concurrent diagnoses of Merkel cell carcinoma (MCC) and other cancers, like Chronic lymphocytic leukemia (CLL), are rare, patients with MCC have a 30-fold higher incidence of CLL. While these increases have been attributed to the ability of CLL to suppress immune responses allowing for the emergence of MCC, here we found evidence that MCC could support the persistence of CLL. Using single cell sequencing approaches and computational analyses of MCC and CLL from a patient where both cancers were present in the same lymph node, we found that production of macrophage migration inhibitory factor (MIF) by MCC could promote the persistence of CLL through stimulation of CD74 and CXCR4. These results may explain why blood cell counts rapidly normalized after treatment for MCC and were maintained at normal levels despite the absence of treatment for CLL.
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OBJECTIVE: To assess factors which may influence surgical success following brachial plexus reconstruction for obstetric brachial plexus injury (OBPI). METHODS: We retrospectively reviewed the charts of 27 consecutive patients who underwent brachial plexus reconstruction following OBPI by a single pediatric neurosurgeon, 22 of which had adequate follow-up be included in analysis. Data on preoperative function, intraoperative findings, and postoperative outcomes were collected. Mallet grades for abduction, external rotation, and hand-to-mouth were used as a measure of upper trunk function. RESULTS: All patients undergoing brachial plexus reconstruction (n = 27) were found to have some degree of upper-trunk injury intra-operatively. Of the 22 patients with adequate follow-up to be included in the analysis, 17 had some degree of improvement in Mallet grade postoperatively. Prior to surgery, 95% (21/22) of patients had an abduction Mallet grade of 1, compared to 23% (5/22) at the time of maximum improvement (P < 0.001). These values were 100% (20/20) to 35% (5/14) (P < 0.001), and 95% (21/22) to 27% (6/22) (P < 0.001) for external rotation and hand-to-mouth, respectively. The average time to maximum Mallet grade was 583 days (standard deviation 356 days). Age at time of surgery and time to maximum recovery were not found to be correlated. CONCLUSIONS: Brachial plexus reconstruction is an effective treatment modality for patients without spontaneous recovery of upper extremity function following OBPI, although identifying the optimal age-range for surgery remains elusive. Patients with intraoperative findings consistent with a more severe injury may be less likely to benefit from surgery.
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Memory B cells are central to the establishment of immunological memory, providing long-term protection against specific pathogens and playing a vital role in the efficacy of vaccines. Understanding how memory B cell formation is disrupted during persistent infection is essential for new therapeutics. Lymphocytic choriomeningitis virus (LCMV) is an ideal model for investigating memory B cells in acute versus chronic infection. This protocol details techniques to isolate, enrich, and examine LCMV-specific memory B cells in both acute and chronic LCMV infection. Using an antigen tetramer enrichment system and flow cytometry, this method assesses low-frequency, polyclonal antigen-specific memory B cells.
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Antígenos Virales , Citometría de Flujo , Coriomeningitis Linfocítica , Virus de la Coriomeningitis Linfocítica , Células B de Memoria , Virus de la Coriomeningitis Linfocítica/inmunología , Animales , Ratones , Coriomeningitis Linfocítica/inmunología , Coriomeningitis Linfocítica/virología , Citometría de Flujo/métodos , Antígenos Virales/inmunología , Células B de Memoria/inmunología , Células B de Memoria/metabolismo , Memoria Inmunológica , Linfocitos B/inmunología , Linfocitos B/metabolismoRESUMEN
Memory B cells (MBCs) are key providers of long-lived immunity against infectious disease, yet in chronic viral infection, they do not produce effective protection. How chronic viral infection disrupts MBC development and whether such changes are reversible remain unknown. Through single-cell (sc)ATAC-seq and scRNA-seq during acute versus chronic lymphocytic choriomeningitis viral infection, we identified a memory subset enriched for interferon (IFN)-stimulated genes (ISGs) during chronic infection that was distinct from the T-bet+ subset normally associated with chronic infection. Blockade of IFNAR-1 early in infection transformed the chromatin landscape of chronic MBCs, decreasing accessibility at ISG-inducing transcription factor binding motifs and inducing phenotypic changes in the dominating MBC subset, with a decrease in the ISG subset and an increase in CD11c+CD80+ cells. However, timing was critical, with MBCs resistant to intervention at 4 weeks post-infection. Together, our research identifies a key mechanism to instruct MBC identity during viral infection.
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Epigénesis Genética , Interferón Tipo I , Coriomeningitis Linfocítica , Virus de la Coriomeningitis Linfocítica , Células B de Memoria , Animales , Interferón Tipo I/metabolismo , Interferón Tipo I/inmunología , Coriomeningitis Linfocítica/inmunología , Coriomeningitis Linfocítica/virología , Ratones , Virus de la Coriomeningitis Linfocítica/inmunología , Células B de Memoria/inmunología , Ratones Endogámicos C57BL , Receptor de Interferón alfa y beta/genética , Memoria Inmunológica/inmunología , Enfermedad Crónica , Subgrupos de Linfocitos B/inmunología , Análisis de la Célula IndividualRESUMEN
B cells generate antibodies that provide protection from infection, but also cause pathology in autoimmune and allergic conditions. Antigen-specific B cells can be detected by binding their surface antibody receptors with native antigens conjugated to fluorescent probes, a technique that has revealed substantial insight into B cell activation and function. This protocol describes the process of generating fluorescent antigen tetramer probes and delineates a process of enriching large samples based on antigen-specificity for high-resolution analyses of the antigen-specific B cell repertoire. Enrichment of tetramer-binding cells allows for detection of antigen-specific B cells as rare as 1 in 100 million cells, providing sufficient resolution to study naive B cells and IgE-expressing cells by flow cytometry. The generation of antigen tetramers involves antigen biotinylation, assessment of biotin:antigen ratio for optimal tetramer loading and polymerization around a streptavidin-fluorophore backbone. We also describe the construction of a control tetramer to exclude B cells binding to the tetramer backbone. We provide a framework to validate whether tetramer probes are detecting true antigen-specific B cells and discuss considerations for experimental design. This protocol can be performed by researchers trained in basic biomedical/immunological research techniques, using instrumentation commonly found in most laboratories. Constructing the antigen and control tetramers takes 9 h, though their specificity should be assessed before experimentation and may take weeks to months depending on the method of validation. Sample enrichment requires ~2 h but is generally time and cost neutral as fewer cells are run through the flow cytometer.
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Antígenos , Linfocitos B , Citometría de Flujo/métodosRESUMEN
Dermoid and epidermoid cysts are benign lesions of ectodermal origin which are pathologically distinct entities, although often clinically indistinguishable. Cyst location, mobility, and appearance on MRI can help distinguish the two, however the distinction is mostly academic since both types have similar management. Co-occurrence of dermoid and epidermoid cysts together in the same patient has not been observed in the literature, however one case of an epidermoid cyst evolving into a dermoid cyst has been documented. In this case report, we identify a 16-year-old male with three separate cysts of the scalp and leg which, after histopathological analysis following surgical resection, were found to represent both dermoid and epidermoid cysts. We offer potential explanations for this rare occurrence in the absence of a genetic syndrome and highlight the importance of performing a thorough work-up of patients with multiple cysts.
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Although most pathogens infect the human body via mucosal surfaces, very few injectable vaccines can specifically target immune cells to these tissues where their effector functions would be most desirable. We have previously shown that certain adjuvants can program vaccine-specific helper T cells to migrate to the gut, even when the vaccine is delivered non-mucosally. It is not known whether this is true for antigen-specific B cell responses. Here we show that a single intradermal vaccination with the adjuvant double mutant heat-labile toxin (dmLT) induces a robust endogenous, vaccine-specific, isotype-switched B cell response. When the vaccine was intradermally boosted, we detected non-circulating vaccine-specific B cell responses in the lamina propria of the large intestines, Peyer's patches, and lungs. When compared to the TLR9 ligand adjuvant CpG, only dmLT was able to drive the establishment of isotype-switched resident B cells in these mucosal tissues, even when the dmLT-adjuvanted vaccine was administered non-mucosally. Further, we found that the transcription factor Batf3 was important for the full germinal center reaction, isotype switching, and Peyer's patch migration of these B cells. Collectively, these data indicate that specific adjuvants can promote mucosal homing and the establishment of activated, antigen-specific B cells in mucosal tissues, even when these adjuvants are delivered by a non-mucosal route. These findings could fundamentally change the way future vaccines are formulated and delivered.
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The study of Ag-specific lymphocytes has been a key advancement in immunology over the past few decades. The development of multimerized probes containing Ags, peptide:MHC complexes, or other ligands was one innovation allowing the direct study of Ag-specific lymphocytes by flow cytometry. Although these types of study are now common and performed by thousands of laboratories, quality control and assessment of probe quality are often minimal. In fact, many of these types of probe are made in-house, and protocols vary between laboratories. Although peptide:MHC multimers can often be obtained from commercial sources or core facilities, few such services exist for Ag multimers. To ensure high quality and consistency with ligand probes, we have developed an easy and robust multiplexed approach using commercially available beads able to bind Abs specific for the ligand of interest. Using this assay, we have sensitively assessed the performance of peptide:MHC and Ag tetramers and have found considerable batch-to-batch variability in performance and stability over time more easily than using murine or human cell-based assays. This bead-based assay can also reveal common production errors such as miscalculation of Ag concentration. This work could set the stage for the development of standardized assays for all commonly used ligand probes to limit laboratory-to-laboratory technical variation and experimental failure caused by probe underperformance.
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Péptidos , Linfocitos T Citotóxicos , Humanos , Animales , Ratones , Ligandos , Antígenos de Histocompatibilidad Clase I/metabolismo , Antígeno HLA-A2 , Antígenos de Histocompatibilidad/metabolismoRESUMEN
Respiratory syncytial virus (RSV), human metapneumovirus (HMPV), and human parainfluenza virus types one (HPIV1) and three (HPIV3) can cause severe disease and death in immunocompromised patients, the elderly, and those with underlying lung disease. A protective monoclonal antibody exists for RSV, but clinical use is limited to high-risk infant populations. Hence, therapeutic options for these viruses in vulnerable patient populations are currently limited. Here, we present the discovery, in vitro characterization, and in vivo efficacy testing of two cross-neutralizing monoclonal antibodies, one targeting both HPIV3 and HPIV1 and the other targeting both RSV and HMPV. The 3 × 1 antibody is capable of targeting multiple parainfluenza viruses; the MxR antibody shares features with other previously reported monoclonal antibodies that are capable of neutralizing both RSV and HMPV. We obtained structures using cryo-electron microscopy of these antibodies in complex with their antigens at 3.62 Å resolution for 3 × 1 bound to HPIV3 and at 2.24 Å for MxR bound to RSV, providing a structural basis for in vitro binding and neutralization. Together, a cocktail of 3 × 1 and MxR could have clinical utility in providing broad protection against four of the respiratory viruses that cause significant morbidity and mortality in at-risk individuals.
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Metapneumovirus , Infecciones por Paramyxoviridae , Infecciones por Virus Sincitial Respiratorio , Virus Sincitial Respiratorio Humano , Humanos , Anticuerpos Monoclonales , Anticuerpos Neutralizantes , Anticuerpos Antivirales , Microscopía por Crioelectrón , Infecciones por Paramyxoviridae/prevención & control , Proteínas Virales de Fusión , Protección CruzadaRESUMEN
SARS-CoV-2 mRNA vaccination induces robust humoral and cellular immunity in the circulation; however, it is currently unknown whether it elicits effective immune responses in the respiratory tract, particularly against variants of concern (VOCs), including Omicron. We compared the SARS-CoV-2 S-specific total and neutralizing antibody responses, and B and T cell immunity, in the bronchoalveolar lavage fluid (BAL) and blood of COVID-19-vaccinated individuals and hospitalized patients. Vaccinated individuals had significantly lower levels of neutralizing antibody against D614G, Delta (B.1.617.2), and Omicron BA.1.1 in the BAL compared with COVID-19 convalescents despite robust S-specific antibody responses in the blood. Furthermore, mRNA vaccination induced circulating S-specific B and T cell immunity, but in contrast to COVID-19 convalescents, these responses were absent in the BAL of vaccinated individuals. Using a mouse immunization model, we demonstrated that systemic mRNA vaccination alone induced weak respiratory mucosal neutralizing antibody responses, especially against SARS-CoV-2 Omicron BA.1.1 in mice; however, a combination of systemic mRNA vaccination plus mucosal adenovirus-S immunization induced strong neutralizing antibody responses not only against the ancestral virus but also the Omicron BA.1.1 variant. Together, our study supports the contention that the current COVID-19 vaccines are highly effective against severe disease development, likely through recruiting circulating B and T cell responses during reinfection, but offer limited protection against breakthrough infection, especially by the Omicron sublineage. Hence, mucosal booster vaccination is needed to establish robust sterilizing immunity in the respiratory tract against SARS-CoV-2, including infection by the Omicron sublineage and future VOCs.
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COVID-19 , Vacunas Virales , Humanos , Inmunidad Mucosa , SARS-CoV-2 , Glicoproteína de la Espiga del Coronavirus , Vacunas Virales/genética , Anticuerpos Antivirales , ARN Mensajero , COVID-19/prevención & control , Vacunas contra la COVID-19 , Vacunación , Sistema Respiratorio , Anticuerpos NeutralizantesRESUMEN
Recipients of chimeric antigen receptor-modified T (CAR-T) cell therapies for B cell malignancies have profound and prolonged immunodeficiencies and are at risk for serious infections, including respiratory virus infections. Vaccination may be important for infection prevention, but there are limited data on vaccine immunogenicity in this population. We conducted a prospective observational study of the humoral immunogenicity of commercially available 2019-2020 inactivated influenza vaccines in adults immediately prior to or while in durable remission after CD19-, CD20-, or B cell maturation antigen-targeted CAR-T-cell therapy, as well as controls. We tested for antibodies to all four vaccine strains using neutralization and hemagglutination inhibition (HAI) assays. Antibody responses were defined as at least fourfold titer increases from baseline. Seroprotection was defined as a HAI titer ≥40. Enrolled CAR-T-cell recipients were vaccinated 14-29 days prior to (n=5) or 13-57 months following therapy (n=13), and the majority had hypogammaglobulinemia and cellular immunodeficiencies prevaccination. Eight non-immunocompromised adults served as controls. Antibody responses to ≥1 vaccine strain occurred in 2 (40%) individuals before CAR-T-cell therapy and in 4 (31%) individuals vaccinated after CAR-T-cell therapy. An additional 1 (20%) and 6 (46%) individuals had at least twofold increases, respectively. One individual vaccinated prior to CAR-T-cell therapy maintained a response for >3 months following therapy. Across all tested vaccine strains, seroprotection was less frequent in CAR-T-cell recipients than in controls. There was evidence of immunogenicity even among individuals with low immunoglobulin, CD19+ B cell, and CD4+ T-cell counts. These data support consideration for vaccination before and after CAR-T-cell therapy for influenza and other relevant pathogens such as SARS-CoV-2, irrespective of hypogammaglobulinemia or B cell aplasia. However, relatively impaired humoral vaccine immunogenicity indicates the need for additional infection-prevention strategies. Larger studies are needed to refine our understanding of potential correlates of vaccine immunogenicity, and durability of immune responses, in CAR-T-cell therapy recipients.
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Tratamiento Basado en Trasplante de Células y Tejidos/métodos , Pruebas de Inhibición de Hemaglutinación/métodos , Inmunogenicidad Vacunal/inmunología , Gripe Humana/tratamiento farmacológico , Gripe Humana/inmunología , Adolescente , Adulto , Anciano , Humanos , Persona de Mediana Edad , Estudios Prospectivos , Adulto JovenRESUMEN
The human Betacoronavirus OC43 is a common cause of respiratory viral infections in adults and children. Lung infections with OC43 are associated with mortality, especially in hematopoietic stem cell transplant recipients. Neutralizing antibodies play a major role in protection against many respiratory viral infections, but to date a live viral neutralization assay for OC43 has not been described. We isolated a human monoclonal antibody (OC2) that binds to the spike protein of OC43 and neutralizes the live virus derived from the original isolate of OC43. We used this monoclonal antibody to develop and test the performance of two readily accessible in vitro assays for measuring antibody neutralization, one utilizing cytopathic effect and another utilizing an ELISA of infected cells. We used both methods to measure the neutralizing activity of the OC2 monoclonal antibody and of human plasma. These assays could prove useful for studying humoral responses to OC43 and cross-neutralization with other medically important betacoronaviruses.
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Anticuerpos Monoclonales/inmunología , Anticuerpos Neutralizantes/inmunología , Anticuerpos Antivirales/inmunología , Coronavirus Humano OC43/inmunología , Pruebas de Neutralización/métodos , Glicoproteína de la Espiga del Coronavirus/inmunología , Línea Celular , Resfriado Común/inmunología , Resfriado Común/patología , Resfriado Común/virología , Infecciones por Coronavirus/inmunología , Infecciones por Coronavirus/patología , Infecciones por Coronavirus/virología , Ensayo de Inmunoadsorción Enzimática/métodos , HumanosRESUMEN
Recipients of chimeric antigen receptor-modified T (CAR-T) cell therapies for B-cell malignancies are immunocompromised and at risk for serious infections. Vaccine immunogenicity is unknown in this population. We conducted a prospective observational study of the humoral immunogenicity of 2019-2020 inactivated influenza vaccines (IIV) in children and adults immediately prior to (n=7) or 13-57 months after (n=15) CD19-, CD20-, or BCMA-targeted CAR-T-cell therapy, as well as controls (n=8). Individuals post-CAR-T-cell therapy were in remission. We tested for antibodies to 4 vaccine strains at baseline and ≥1 time point after IIV using neutralization and hemagglutination inhibition assays. An antibody response was defined as a ≥4-fold titer increase from baseline at the first post-vaccine time point. Baseline A(H1N1) titers in the CAR-T cohorts were significantly lower compared to controls. Antibody responses to ≥1 vaccine strain occurred in 2 (29%) individuals before CAR-T-cell therapy; one individual maintained a response for >3 months post-CAR-T-cell therapy. Antibody responses to ≥1 vaccine strain occurred in 6 (40%) individuals vaccinated after CAR-T-cell therapy. An additional 2 (29%) and 6 (40%) individuals had ≥2-fold increases (at any time) in the pre- and post-CAR-T cohorts, respectively. There were no identified clinical or immunologic predictors of antibody responses. Neither severe hypogammaglobulinemia nor B-cell aplasia precluded antibody responses. These data support consideration for vaccination before and after CAR-T-cell therapy for influenza and other relevant pathogens such as SARS-CoV-2, irrespective of hypogammaglobulinemia or B-cell aplasia. Larger studies are needed to determine correlates of vaccine immunogenicity and durability in CAR-T-cell therapy recipients. KEY POINTS: Influenza vaccination was immunogenic pre- and post-CAR-T-cell therapy, despite hypogammaglobulinemia and B-cell aplasia.Vaccination with inactivated vaccines can be considered before CAR-T-cell therapy and in individuals with remission after therapy.
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An effective HIV-1 vaccine will likely need to elicit broadly neutralizing antibodies (bNAbs). Broad and potent VRC01-class bNAbs have been isolated from multiple infected individuals, suggesting that they could be reproducibly elicited by vaccination. Several HIV-1 envelope-derived germline-targeting immunogens have been designed to engage naive VRC01-class precursor B cells. However, they also present off-target epitopes that could hinder development of VRC01-class bNAbs. We characterize a panel of anti-idiotypic monoclonal antibodies (ai-mAbs) raised against inferred-germline (iGL) VRC01-class antibodies. By leveraging binding, structural, and B cell sorting data, we engineered a bispecific molecule derived from two ai-mAbs; one specific for VRC01-class heavy chains and one specific for VRC01-class light chains. The bispecific molecule preferentially activates iGL-VRC01 B cells in vitro and induces specific antibody responses in a murine adoptive transfer model with a diverse polyclonal B cell repertoire. This molecule represents an alternative non-envelope-derived germline-targeting immunogen that can selectively activate VRC01-class precursors in vivo.
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Vacunas contra el SIDA/inmunología , Células Germinativas/metabolismo , Anticuerpos Anti-VIH/inmunología , VIH-1/inmunología , Animales , Humanos , RatonesRESUMEN
Human parainfluenza virus type III (HPIV3) is a common respiratory pathogen that afflicts children and can be fatal in vulnerable populations, including the immunocompromised. There are currently no effective vaccines or therapeutics available, resulting in tens of thousands of hospitalizations per year. In an effort to discover a protective antibody against HPIV3, we screened the B cell repertoires from peripheral blood, tonsils, and spleen from healthy children and adults. These analyses yielded five monoclonal antibodies that potently neutralized HPIV3 in vitro. These HPIV3-neutralizing antibodies targeted two non-overlapping epitopes of the HPIV3 F protein, with most targeting the apex. Prophylactic administration of one of these antibodies, PI3-E12, resulted in potent protection against HPIV3 infection in cotton rats. Additionally, PI3-E12 could also be used therapeutically to suppress HPIV3 in immunocompromised animals. These results demonstrate the potential clinical utility of PI3-E12 for the prevention or treatment of HPIV3 in both immunocompetent and immunocompromised individuals.
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Anticuerpos Monoclonales/farmacología , Anticuerpos Neutralizantes/farmacología , Antivirales/farmacología , Pulmón/virología , Virus de la Parainfluenza 3 Humana/efectos de los fármacos , Infecciones por Respirovirus/prevención & control , Proteínas Virales de Fusión/antagonistas & inhibidores , Animales , Anticuerpos Monoclonales/inmunología , Anticuerpos Neutralizantes/inmunología , Especificidad de Anticuerpos , Antivirales/inmunología , Linfocitos B/inmunología , Linfocitos B/virología , Línea Celular , Modelos Animales de Enfermedad , Epítopos , Interacciones Huésped-Patógeno , Humanos , Huésped Inmunocomprometido , Pulmón/inmunología , Virus de la Parainfluenza 3 Humana/inmunología , Virus de la Parainfluenza 3 Humana/patogenicidad , Infecciones por Respirovirus/inmunología , Infecciones por Respirovirus/virología , Sigmodontinae , Proteínas Virales de Fusión/inmunologíaRESUMEN
BACKGROUNDLittle is known about pathogen-specific humoral immunity after chimeric antigen receptor-modified T (CAR-T) cell therapy for B cell malignancies.METHODSWe conducted a prospective cross-sectional study of CD19-targeted or B cell maturation antigen-targeted (BCMA-targeted) CAR-T cell therapy recipients at least 6 months posttreatment and in remission. We measured pathogen-specific IgG against 12 vaccine-preventable infections and the number of viral and bacterial epitopes to which IgG was detected ("epitope hits") using a serological profiling assay. The primary outcome was the proportion of participants with IgG levels above a threshold correlated with seroprotection for vaccine-preventable infections.RESULTSWe enrolled 65 children and adults a median of 20 months after CD19- (n = 54) or BCMA- (n = 11) CAR-T cell therapy. Among 30 adults without IgG replacement therapy (IGRT) in the prior 16 weeks, 27 (90%) had hypogammaglobulinemia. These individuals had seroprotection to a median of 67% (IQR, 59%-73%) of tested infections. Proportions of participants with seroprotection per pathogen were comparable to population-based studies, but most individuals lacked seroprotection to specific pathogens. Compared with CD19-CAR-T cell recipients, BCMA-CAR-T cell recipients were half as likely to have seroprotection (prevalence ratio, 0.47; 95% CI, 0.18-1.25) and had fewer pathogen-specific epitope hits (mean difference, -90 epitope hits; 95% CI, -157 to -22).CONCLUSIONSeroprotection for vaccine-preventable infections in adult CD19-CAR-T cell recipients was comparable to the general population. BCMA-CAR-T cell recipients had fewer pathogen-specific antibodies. Deficits in both groups support the need for vaccine and immunoglobulin replacement therapy studies.FUNDINGSwiss National Science Foundation (Early Postdoc Mobility grant P2BSP3_188162), NIH/National Cancer Institute (NIH/NCI) (U01CA247548 and P01CA018029), NIH/NCI Cancer Center Support Grants (P30CA0087-48 and P30CA015704-44), American Society for Transplantation and Cellular Therapy, and Juno Therapeutics/BMS.
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Agammaglobulinemia/inmunología , Anticuerpos Antibacterianos/inmunología , Anticuerpos Antivirales/inmunología , Inmunidad Humoral/inmunología , Inmunoglobulina G/inmunología , Inmunoterapia Adoptiva , Leucemia de Células B/terapia , Linfoma de Células B/terapia , Receptores Quiméricos de Antígenos , Enfermedades Prevenibles por Vacunación/prevención & control , Adolescente , Adulto , Anciano , Antígenos CD19 , Antígeno de Maduración de Linfocitos B , Niño , Preescolar , Estudios Transversales , Femenino , Humanos , Lactante , Leucemia Linfocítica Crónica de Células B/terapia , Masculino , Persona de Mediana Edad , Mieloma Múltiple/terapia , Leucemia-Linfoma Linfoblástico de Células Precursoras B/terapia , Estudios Prospectivos , Enfermedades Prevenibles por Vacunación/inmunología , Adulto JovenRESUMEN
Malaria elimination requires tools that interrupt parasite transmission. Here, we characterize B cell receptor responses among Malian adults vaccinated against the first domain of the cysteine-rich 230 kDa gamete surface protein Pfs230, a key protein in sexual stage development of P. falciparum parasites. Among nine Pfs230 human monoclonal antibodies (mAbs) that we generated, one potently blocks transmission to mosquitoes in a complement-dependent manner and reacts to the gamete surface; the other eight show only low or no blocking activity. The structure of the transmission-blocking mAb in complex with vaccine antigen reveals a large discontinuous conformational epitope, specific to domain 1 of Pfs230 and comprising six structural elements in the protein. The epitope is conserved, suggesting the transmission-blocking mAb is broadly functional. This study provides a rational basis to improve malaria vaccines and develop therapeutic antibodies for malaria elimination.
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Anticuerpos Monoclonales/farmacología , Anticuerpos Antiprotozoarios/farmacología , Epítopos/inmunología , Células Germinativas/inmunología , Malaria Falciparum/prevención & control , Plasmodium falciparum/efectos de los fármacos , Adulto , Animales , Anticuerpos Monoclonales/inmunología , Anticuerpos Antiprotozoarios/inmunología , Antígenos de Protozoos/química , Antígenos de Protozoos/inmunología , Sitios de Unión , Células Cultivadas , Epítopos/química , Interacciones Huésped-Parásitos/efectos de los fármacos , Interacciones Huésped-Parásitos/inmunología , Humanos , Vacunas contra la Malaria/administración & dosificación , Vacunas contra la Malaria/inmunología , Malaria Falciparum/parasitología , Malaria Falciparum/transmisión , Mosquitos Vectores/parasitología , Plasmodium falciparum/inmunología , Plasmodium falciparum/fisiología , Conformación Proteica , Proteínas Protozoarias/química , Proteínas Protozoarias/inmunologíaRESUMEN
Much remains unknown about the roles of CD4+ T helper cells in shaping localized memory B cell and CD8+ T cell immunity in the mucosal tissues. Here, we report that lung T helper cells provide local assistance for the optimal development of tissue-resident memory B and CD8+ T cells after the resolution of primary influenza virus infection. We have identified a population of T cells in the lung that exhibit characteristics of both follicular T helper and TRM cells, and we have termed these cells as resident helper T (TRH) cells. Optimal TRH cell formation was dependent on transcription factors involved in T follicular helper and resident memory T cell development including BCL6 and Bhlhe40. We show that TRH cells deliver local help to CD8+ T cells through IL-21-dependent mechanisms. Our data have uncovered the presence of a tissue-resident helper T cell population in the lung that plays a critical role in promoting the development of protective B cell and CD8+ T cell responses.