The Humoral Immune Response to Recombinant Nucleocapsid Antigen of Canine Distemper Virus in Dogs Vaccinated with Attenuated Distemper Virus or DNA Encoding the Nucleocapsid of Wild-Type Virus

Rabies, caused by rabies virus (RABV), is fatal to both humans and animals around the world. Effective clinical therapy for rabies has not been achieved, and vaccination is the most effective means of preventing and controlling rabies. Although different vaccines, such as live attenuated and inactivated vaccines, can induce different immune responses, different expression of pattern recognition receptors (PRRs) also causes diverse immune responses. Toll-like receptor 4 (TLR4) is a pivotal PRR that induces cytokine production and bridges innate and adaptive immunity. Importantly, TLR4 recognizes various virus-derived pathogen-associated molecular patterns (PAMPs) and virus-induced damage-associated molecular patterns (DAMPs), usually leading to the activation of immune cells. However, the role of TLR4 in the humoral immune response induced by RABV has not been revealed yet. Based on TLR4-deficient ( TLR4 -/- ) and wild-type (WT) mouse models, we report that TLR4-dependent recruitment of the conventional type-2 dendritic cells (CD8α - CD11b + cDC2) into secondary lymph organs (SLOs) is critical for antigen presentation. cDC2-initiated differentiation of Tfh cells promotes the proliferation of germinal centre (GC) B cells, the formation of GCs, and the production of plasma cells (PCs), all of which contribute to the production of RABV-specific IgG and virus-neutralizing antibodies (VNAs). Collectively, our work demonstrates that TLR4 is necessary for the recruitment of cDC2 and for the induction of RABV-induced humoral immunity, which is regulated by the cDC2-Tfh-GC B axis. IMPORTANCE Vaccination is the most efficient method to prevent rabies. TLR4, a well-known immune sensor, plays a critical role in initiating innate immune response. Here, we found that TLR4 deficiency ( TLR4 -/- ) mice suppressed the induction of humoral immune response after immunization with rabies virus (RABV), including reduced production of VNAs and RABV-specific IgG, compared with that occurred in wild-type (WT) mice. As a consequence, TLR4 -/- mice exhibited higher mortality than WT mice after challenge with virulent RABV. Importantly, further investigation found that TLR4 signaling promoted the recruitment of cDC2 (CD8α + CD11b - ), a subset of cDCs known to induce CD4 + T cell immunity through their MHC-II presentation machinery. Our results imply that TLR4 is indispensable for an efficient humoral response to rabies vaccine, which provides new insight into the development of novel rabies vaccines.

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Evaluation of the humoral immune response induced by vaccination for canine distemper and parvovirus: a pilot study

BMC Veterinary Research ◽

10.1186/s12917-018-1673-z ◽

2018 ◽

Vol 14 (1) ◽

Cited By ~ 2

Author(s):

Beatriz Vila Nova ◽

Eva Cunha ◽

Nuno Sepúlveda ◽

Manuela Oliveira ◽

Berta São Braz ◽

...

Keyword(s):

Immune Response ◽

Pilot Study ◽

Humoral Immune Response ◽

Canine Distemper ◽

Humoral Immune

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Directed attenuation to enhance vaccine immunity

PLoS Computational Biology ◽

10.1371/journal.pcbi.1008602 ◽

2021 ◽

Vol 17 (2) ◽

pp. e1008602

Author(s):

Rustom Antia ◽

Hasan Ahmed ◽

James J. Bull

Keyword(s):

Immune Response ◽

Genetic Engineering ◽

Adaptive Immunity ◽

Immune Evasion ◽

Viral Infections ◽

Wild Type Virus ◽

Type Virus ◽

Wild Type ◽

Innate And Adaptive Immunity ◽

Live Attenuated Vaccines

Many viral infections can be prevented by immunizing with live, attenuated vaccines. Early methods of attenuation were hit-and-miss, now much improved by genetic engineering. However, even current methods operate on the principle of genetic harm, reducing the virus’s ability to grow. Reduced viral growth has the undesired side-effect of reducing the host immune response below that of infection with wild-type. Might some methods of attenuation instead lead to an increased immune response? We use mathematical models of the dynamics of virus with innate and adaptive immunity to explore the tradeoff between attenuation of virus pathology and immunity. We find that modification of some virus immune-evasion pathways can indeed reduce pathology yet enhance immunity. Thus, attenuated vaccines can, in principle, be directed to be safe yet create better immunity than is elicited by the wild-type virus.

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DNA Encoding an HIV-1 Gag/Human Lysosome-Associated Membrane Protein-1 Chimera Elicits a Broad Cellular and Humoral Immune Response in Rhesus Macaques

PLoS ONE ◽

10.1371/journal.pone.0000135 ◽

2006 ◽

Vol 1 (1) ◽

pp. e135 ◽

Cited By ~ 22

Author(s):

Priya Chikhlikar ◽

Luciana Barros de Arruda ◽

Milton Maciel ◽

Peter Silvera ◽

Mark G. Lewis ◽

...

Keyword(s):

Immune Response ◽

Membrane Protein ◽

Humoral Immune Response ◽

Rhesus Macaques ◽

Dna Encoding ◽

Humoral Immune ◽

Hiv 1

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Role of Bordetella bronchisepticaFimbriae in Tracheal Colonization and Development of a Humoral Immune Response

Infection and Immunity ◽

10.1128/iai.68.4.2024-2033.2000 ◽

2000 ◽

Vol 68 (4) ◽

pp. 2024-2033 ◽

Cited By ~ 66

Author(s):

Seema Mattoo ◽

Jeff F. Miller ◽

Peggy A. Cotter

Keyword(s):

Immune Response ◽

Humoral Immune Response ◽

Limit Of Detection ◽

Immunoglobulin M ◽

Tissue Culture Cell ◽

Wild Type ◽

Humoral Immune ◽

Tract Infections

ABSTRACT Fimbriae are filamentous, cell surface structures which have been proposed to mediate attachment of Bordetella species to respiratory epithelium. Bordetella bronchiseptica has four known fimbrial genes: fim2, fim3,fimX, and fimA. While these genes are unlinked on the chromosome, their protein products are assembled and secreted by a single apparatus encoded by the fimBCD locus. ThefimBCD locus is embedded within the fha operon, whose genes encode another putative adhesin, filamentous hemagglutinin (FHA). We have constructed a Fim− B. bronchiseptica strain, RB63, by introducing an in-frame deletion extending from fimB through fimD. Western blot analysis showed that RB63 is unable to synthesize fimbriae but is unaffected for FHA expression. Using this mutant, we assessed the role of fimbriae in pathogenesis in vitro and in vivo in natural animal hosts. Although RB63 was not significantly defective in its ability to adhere to various tissue culture cell lines, including human laryngeal HEp-2 cells, it was considerably altered in its ability to cause respiratory tract infections in rats. The number of ΔfimBCD bacteria recovered from the rat trachea at 10 days postinoculation was significantly decreased compared to that of wild-type B. bronchiseptica and was below the limit of detection at 30 and 60 days postinoculation. The number of bacteria recovered from the nasal cavity and larynx was not significantly different between RB63 and the wild-type strain at any time point. The ability of fimbriae to mediate initial attachment to tracheal tissue was tested in an intratracheal inoculation assay. Significantly fewer RB63 than wild-type bacteria were recovered from the tracheas at 24 h after intratracheal inoculation. These results demonstrate that fimbriae are involved in enhancing the ability of B. bronchiseptica to establish tracheal colonization and are essential for persistent colonization at this site. Interestingly, anti-Bordetella serum immunoglobulin M (IgM) levels were significantly lower in animals infected with RB63 than in animals infected with wild-type B. bronchiseptica at 10 days postinoculation. Even at 30 days postinoculation, RB63-infected animals had lower serum anti-Bordetella antibody titers in general. This disparity in antibody profiles suggests that fimbriae are also important for the induction of a humoral immune response.

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The Poxvirus A35 Protein Is an Immunoregulator

Journal of Virology ◽

10.1128/jvi.01802-09 ◽

2009 ◽

Vol 84 (1) ◽

pp. 418-425 ◽

Cited By ~ 12

Author(s):

Kristina E. Rehm ◽

Gwendolyn J. B. Jones ◽

Alice A. Tripp ◽

Mark W. Metcalf ◽

Rachel L. Roper

Keyword(s):

Immune Response ◽

Cytotoxic T Lymphocyte ◽

Wild Type Virus ◽

Type Virus ◽

Wild Type ◽

Lethal Challenge ◽

Target Organs ◽

Important Virulence Factor ◽

Virus Mutant ◽

Lymphocyte Responses

ABSTRACT It was shown previously that the highly conserved vaccinia virus A35 gene is an important virulence factor in respiratory infection of mice. We show here that A35 is also required for full virulence by the intraperitoneal route of infection. A virus mutant in which the A35 gene has been removed replicated normally and elicited improved antibody, gamma interferon-secreting cell, and cytotoxic T-lymphocyte responses compared to wild-type virus, suggesting that A35 increases poxvirus virulence by immunomodulation. The enhanced immune response correlated with an improved control of viral titers in target organs after the development of the specific immune response. Finally, the A35 deletion mutant virus also provided protection from lethal challenge (1,000 50% lethal doses) equal to that of the wild-type virus. Together, these data suggest that A35 deletion viruses will make safer and more efficacious vaccines for poxviruses. In addition, the A35 deletion viruses will serve as improved platform vectors for other infectious diseases and cancer and will be superior vaccine choices for postexposure poxvirus vaccination, as they also provide improved kinetics of the immune response.

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