Investigating Antigen Presentation by Inactivated Lymphocytic Choriomeningitis Virus and by Baculovirus Encoding the LCMV-Nucleoprotein

Spence, Tara

03 September 2009

Professional antigen presenting cells (pAPCs) process and present antigens on their cell surface in association with MHC class I molecules through two general pathways: direct or cross-presentation. The process of antigen presentation by pAPCs to naïve T cells resulting in their proliferation and differentiation into activated cytotoxic lymphocytes (CTLs) is called T cell priming. In these studies, we examine the cross-presentation of antigens from two non-replicating viruses: inactivated Lymphocytic Choriomeningitis virus (LCMV), and recombinant baculovirus encoding the LCMV nucleoprotein (NP). Since effective activation of pAPCs is essential for efficient priming of CD8+ T cells and CTL activation, and because infection with inactivated viruses generally induces an extremely poor level of CTL activation, we examined the activation state of pAPCs by measuring their cytokine profiles following infection to help further delineate their involvement in the CTL response to inactivated viruses. Our results indicate a pro-inflammatory cytokine mRNA upregulation in pAPCs in response to the inactivated virus, similar to the cytokine profiles subsequent to live LCMV infection, but to a lesser extent. In these studies, we also examined CTL activation following infection with inactivated LCMV and bAc-NP. We have demonstrated that the presentation of antigens from inactivated LCMV and bAC-NP results in a low level of CTL activation in vivo, though there is an undetectable level of CTL activation in vitro, in comparison to activation following infection with the live virus. Ultimately, the characterization of the cytokine profiles of pAPCs and the CD8+ T cell profiles induced in response to inactivated LCMV or the baculovirus derived NP may lead to a better understanding of how cross-presentation of these viral antigens may occur. This information may be applied to enhance the process of pAPC activation and T cell priming, for the induction of more effective cellular immune responses and the generation of stronger protective immunity. / Thesis (Master, Microbiology & Immunology) -- Queen's University, 2009-09-02 15:30:13.883

LCMV

Baculovirus

Inactivated Virus

Cellular Immune Response

Influenza Immunization: Intranasal Live Vaccinia Recombinant Contrasted With Parenteral Inactivated Vaccine

Meitin, Catherine A., Bender, Bradley S., Small, Parker A.

01 January 1991

To compare the efficacy and duration of the immune response to local and systemic vaccination, Balb/c mice were vaccinated either intraperitoneally (i.p.) with an inactivated A/PR/8/34 (H1N1) vaccine or intranasally (i.n.) with a vaccinia recombinant containing the H1 gene of influenza. The i.p. inactivated vaccine stimulated high serum IgG anti-influenza titres and protected the lungs against viral challenge for the duration of the experiment (17 months). Little nasal wash IgA was induced and the noses were susceptible to challenge. Animals vaccinated i.n. with the recombinant had lower serum IgG titres and the lungs showed poor protection against challenge. Nasal wash IgA titres were higher, however, and the noses were largely protected from viral challenge for 17 months.

inactivated

Influenza: vaccinia

intranasal

intraperitoneal

mice

recombinant

The Effect of Residual Bacterial Products Associated to Root Canal Infection on Stem Cells from the Apical Papilla: Understanding Basis on Regenerative Endodontic Treatment

Sora, Alhussan, Afnan, Abla

January 2022

Background: The regenerative function of stem cells from the apical papilla (SCAPs) is affected by the presence of bacteria from infected root canals. Living microorganisms influence SCAP function but the effect of inactive bacteria and its components on SCAPs needs further investigation. Aim: To investigate the effect of residual bacterial products on the proliferation of SCAP under anaerobic conditions. Methods: Five opportunistic bacterial strains from infected dental root canals namely Fusobacterium nucleatum, Enterococcus faecalis, Actinomyces gerensceria, Slackia exigua, and Peptostreptococcaceae yuri, and two probiotic strains Lactobacillus gasseri, Lactobacillus reuteri were used in this study. SCAPs collected from three healthy young patients were exposed to UV-inactivated bacteria or bacterial DNA. Real-Time Cell Analyzer (RTCA) was used to determine real-time proliferation of SCAPs after 80 hours exposure of inactivated bacteria or their DNA. Results: UV killed Fusobacterium nucleatum and Enterococcus Faecalis DNA affects proliferation of stem cells from dental apical papilla as monitored in real-time. Inactivated probiotic species do not affect SCAPs in terms of proliferation. Conclusion:  Inactivated bacteria can affect SCAP function by modulating their proliferation. Further investigations studying SCAP modulation and differentiation are warranted to understand and improve regenerative endodontic procedures.

SCAP

RTCA

regenerative endodontic

Inactivated bacteria

Dentistry

Odontologi

Tailored influenza virus vaccines for both the young and old: Vaccine Efficacy of Whole Inactivated Vaccines bearing Immunomodulatory Adjuvants or Multimeric peptides

Khan, Tila

25 July 2012

Influenza epidemics and pandemics remain a significant burden to world health and economy. Low efficacy of current inactivated influenza vaccines in the elderly and immunocompromized and the inability to protect against antigenically drifted or shifted strains of influenza virus are the two major problems in influenza vaccine research. To overcome these hurdles, we have utilized an in vitro cell culture vaccine platform, which results in whole inactivated influenza vaccine (WIV) bearing bioactive membrane-anchored immunomodulatory proteins such as cytokines on the virion surface, collectively known as CYT-IVACs (Cytokine bearing-Inactivated Vaccine). In addition, we tested whether a multimeric M2e peptide presented on WIV can serve to enhance immunogenicity and augment protective efficacy of whole virus vaccines. Our panel of cytokines includes IL-2, IL-4, IL-12, IL-23, and Flt3L as well as the multimeric M2e peptide, all fused to the membrane anchoring regions of influenza virus hemagglutinin protein and constitutively expressed in virus permissive MDCK cell line. Subsequent infection with influenza virus results in incorporation of fusion constructs directly into budding progeny virions that are harvested, purified and inactivated to generate distinct CYT-IVAC formulations. Following validation of immunomodulator incorporation, vaccines were tested for in vivo efficacy in either "young adult" or "aged" female Balb/c mice. Our results demonstrate that our CYT-IVAC~IL-12/HA and CYT-IVAC~IL-23/HA serve as potent mucosal adjuvants in young adult mice elicited significantly high levels of mucosal IgA antibodies and afford superior protection against lethal virus challenge. Our Flt3L/HA formulation was the most effective stimulator of systemic anti-viral antibody levels. In "aged" mice a single dose formulation of IL-12 bearing CYTIVAC was superior at affording protection against lethal homotypic virus challenge. Finally, administration of multimeric M2e molecule co-presented on WIV elicited prolonged antibody responses in "young adult mice" and provided cross-protection from challenge with the heterologous influenza A pandemic strain 2009 H1N1. In conclusion, the CYT-IVAC approach represents a novel tailored advancement to current WIV approaches that has the potential to elicit both potent mucosal and systemic immune responses in young and old. / Ph. D.

vaccine

M2e

cytokine

virus

influenza

whole inactivated vaccine

Ability of ELISAs to detect antibodies against porcine respiratory and reproductive syndrome virus in serum of pigs after inactivated vaccination and subsequent challenge

Sattler, Tatjana, Pikalo, Jutta, Wodak, Eveline, Schmoll, Friedrich

14 December 2016

Background: In this study, six enzyme-linked immunosorbent assays (ELISA), intended for routine porcine reproductive and respiratory syndrome virus (PRRSV) herd monitoring, are tested for their ability to detect PRRSV specific antibodies in the serum of pigs after vaccination with an inactivated PRRSV type 1 vaccine and subsequent infection with a highly pathogenic (HP) PRRSV field strain. For this reason, ten piglets (group V) from a PRRSV negative herd were vaccinated twice at the age of 2 and 4 weeks with an inactivated PRRSV vaccine. Ten additional piglets (group N) from the sameherd remained unvaccinated. Three weeks after second vaccination, each of the piglets received an intradermal application of an HP PRRSV field strain. Serum samples were taken before first vaccination as well as before and 3, 7, 10 and 14 days after HP PRRSV application. All serum samples were tested for PRRSV RNA by reverse transcriptase quantitative polymerase chain reaction (RT-qPCR) as well as for PRRSV antibodies with all six study ELISAs. Results: At the beginning of the study (before vaccination), all of the piglets were PRRSV antibody negative with all study ELISAs. They also tested negative for PRRSV RNA measured by RT-qPCR. From day 3 after HP PRRSV application until the end of the study, a viremia was detected by RT-qPCR in all of the piglets. On day 0 (day of HP PRRSV application), nine out of ten piglets of the pre-vaccinated group tested PRRSV antibody positive with one of the tested ELISAs, although with lower S/P values than after infection. On day 10 after HP PRRSV application, all study ELISAs except one had significantly higher S/P or OD values, respectively more positive samples, in group V than in group N. Conclusions: Only one of the tested ELISAs was able to detect reliably PRRSV antibodies in pigs vaccinated with an inactivated PRRSV vaccine. With most of the tested ELISAs, higher S/P values respectively more positive samples after PRRSV infection were seen in the pre-vaccinated group than in the non-vaccinated.

Schwein

ELISA

Enzyme-linked Immunosorbent AssayPRRSV

PRRS-Virus

Totimpfstoff

swine

ELISA

PRRSV

inactivated vaccine

ddc:636

Avaliação de formulações vacinais anti-dengue administradas pela via transcutânea visando à geração de anticorpos neutralizantes. / Evaluation of anti-dengue vaccine formulations administered by the transcutaneous route aiming the generation of neutralizing antibodies.

Santos, Robert Andreata

23 March 2017

A dengue é uma arbovirose que ameaça mais de metade da população mundial. No momento existem duas vacinas, administradas por vias parenterais, aprovada ou em estudos clínicos, que podem conferir proteção parcial em regiões endêmicas, mas que ainda não estão sendo administradas em larga escala. Por outro lado, a utilização de vias de administração alternativas, como a via transcutânea (TC), pode ter um impacto importante na eficácia vacinal. A entrega de formulações vacinais pela via TC tem como vantagem a administração segura e não invasiva de antígenos vacinais e a composição celular específica da pele, rica em células apresentadoras de antígenos, como as células de Langerhans; O presente estudo demonstra que a via TC pode induzir respostas sorológicas vírus-específicas de forma eficiente quando utilizada para a administração de vacinas contra DENV baseadas em partículas virais. Portanto, novos estudos devem ser feitos considerando a TC como uma via de administração alternativa às vias parenterais para a administração de vacinas contra a dengue. / Dengue is an arbovirosis that threatens more than half the world\'s population. Currently there are two vaccines, both administered via parenteral routes, approved or in clinical trials, which provide partial protection but are not being administered on a large scale. On the other hand, the use of alternative routes of administration, such as the transcutaneous (TC) route, can have a significant impact on vaccine efficacy. Delivery of vaccine formulations via the TC route has the advantage of a safe and non-invasive administration method of vaccine antigens through the skin, that has a cell composition rich in antigen-presenting cells, such as the Langerhans cells. The present study demonstrates that the TC route can efficiently induce virus-specific serological responses when used for administration of DENV vaccines based on viral particles. Further studies should explore different dengue vaccines using the TC route as an alternative to parenteral administration routes.

Dengue

Dengue

Heat-labile toxin

Inactivated virus

Toxina termolábil

Transcutânea

Transcutaneous

Vaccine

Vacina

Vírus inativado

Limited Effectiveness of Psoralen- and Ultraviolet-Inactivated Vaccinia Virus on Shiv Infection

Glenn, L. Lee

17 October 2013

Excerpt: The title and conclusions of the study recently published by Jones et al. (1) concluded that monkeys were protected from dying from a form of simian-human immunodeficiency virus (SHIV) by an psoralen- and ultraviolet-inactivated vaccinia virus in a multi-envelope DNA-VV-protein (DVP). However, the findings in the study are more equivocal than indicated by the title because the effectiveness of the modified vaccinia virus was not decisively demonstrated.

envelope cocktail

HIV-1 vaccine

Non-human primate

Pathogenic SHIV

Ultraviolet-inactivated vaccinia virus

College of Nursing

Nursing

STUDY TOWARD THE DEVELOPMENT OF ADVANCED INFLUENZA VACCINES

Wang, Leyi

11 September 2009

No description available.

Virology

Avian Influenza

NS1 truncation variants

temperature sensitive

mutations

non-coding region

live attenuated vaccine

inactivated vaccine

The Role of Innate Immunity in Islet Transplantation : Clinical and Experimental Studies

Moberg, Lisa

January 2004

<p>Clinical islet transplantation is an emerging procedure to cure type 1 diabetes. The graft is implanted by infusion into the liver through the portal vein. A major obstacle that still needs to be overcome is the requirement for islets from multiple donors to achieve insulin independence. </p><p>An innate inflammatory reaction, the IBMIR, is elicited when islets are exposed to blood. The IBMIR has been described as a clotting reaction culminating in disruption of islet morphology and is a plausible cause for loss of tissue during the early post-transplant period. </p><p>In this thesis, the underlying mechanisms of the IBMIR were characterized. The IBMIR was for the first time demonstrated in patients undergoing an islet transplant, and a number of clinically applicable strategies to limit this reaction were identified.</p><p>The thrombin inhibitor melagatran completely blocked the IBMIR in an <i>in vitro</i> tubing blood loop system, indicating that thrombin is the driving force in the reaction. Interestingly, islets were shown to produce and secrete tissue factor (TF), the physiological trigger of coagulation. Inactivated FVIIa, a specific inhibitor of TF, successfully blocked initiation of the IBMIR. An alternative approach to limit the IBMIR was to pre-treat islets in culture prior to transplantation. Nicotinamide added to the culture medium effectively decreased the level of TF in human islets. Infiltration of immune cells, also a part of the IBMIR, was characterized in detail. The predominant cell types infiltrating the islets were neutrophilic granulocytes and, to a lesser degree, monocytes. Both cell types may exert direct cytotoxic effects, and the antigen-presenting monocytes may also be important for directing the specific immune system to the site of inflammation. </p><p>These findings have provided new insight into the nature of the IBMIR and offer several new strategies to improve the outcome of clinical islet transplantation.</p>

Immunology

diabetes

islet transplantation

islet of Langerhans

coagulation activation

IBMIR

tissue factor

thrombin

inactivated FVIIa

melagatran

neutrophilic granulocyte

Immunologi

Immunology

Immunologi

The Role of Innate Immunity in Islet Transplantation : Clinical and Experimental Studies

Moberg, Lisa

January 2004

Clinical islet transplantation is an emerging procedure to cure type 1 diabetes. The graft is implanted by infusion into the liver through the portal vein. A major obstacle that still needs to be overcome is the requirement for islets from multiple donors to achieve insulin independence. An innate inflammatory reaction, the IBMIR, is elicited when islets are exposed to blood. The IBMIR has been described as a clotting reaction culminating in disruption of islet morphology and is a plausible cause for loss of tissue during the early post-transplant period. In this thesis, the underlying mechanisms of the IBMIR were characterized. The IBMIR was for the first time demonstrated in patients undergoing an islet transplant, and a number of clinically applicable strategies to limit this reaction were identified. The thrombin inhibitor melagatran completely blocked the IBMIR in an in vitro tubing blood loop system, indicating that thrombin is the driving force in the reaction. Interestingly, islets were shown to produce and secrete tissue factor (TF), the physiological trigger of coagulation. Inactivated FVIIa, a specific inhibitor of TF, successfully blocked initiation of the IBMIR. An alternative approach to limit the IBMIR was to pre-treat islets in culture prior to transplantation. Nicotinamide added to the culture medium effectively decreased the level of TF in human islets. Infiltration of immune cells, also a part of the IBMIR, was characterized in detail. The predominant cell types infiltrating the islets were neutrophilic granulocytes and, to a lesser degree, monocytes. Both cell types may exert direct cytotoxic effects, and the antigen-presenting monocytes may also be important for directing the specific immune system to the site of inflammation. These findings have provided new insight into the nature of the IBMIR and offer several new strategies to improve the outcome of clinical islet transplantation.

Immunology

diabetes

islet transplantation

islet of Langerhans

coagulation activation

IBMIR

tissue factor

thrombin

inactivated FVIIa

melagatran

neutrophilic granulocyte

Immunologi

Immunology

Immunologi