33 research outputs found
Elevated dietary zinc oxide levels do not have a substantial effect on porcine reproductive and respiratory syndrome virus (PPRSV) vaccination and infection
Background Porcine reproductive and respiratory syndrome virus (PRRSV) is one
of the most important infectious agents for the swine industry worldwide. Zinc
(Zn) salts, which are widely used as a dietary supplement in swine nutrition,
have shown antiviral effects in vitro as well as in vivo. The purpose of this
study was to determine the influence of dietary zinc oxide supplementation on
vaccination and challenge infection with PRRSV. Findings The clinical course
of PRRS and the success of vaccination with an experimental inactivated
vaccine were compared between animals receiving a conventional diet (50 ppm
Zn, control group) and diets supplemented with Zn oxide (ZnO) at final Zn
concentrations of 150 or 2,500 ppm. Pigs receiving higher dietary Zn levels
showed a tendency towards higher neutralizing antibody levels after infection,
while dietary Zn levels did not substantially influence the number of
antiviral IFN-gamma secreting cells (IFN-gamma-SC) or percentages of blood
immune cell subsets after infection. Finally, feeding higher dietary Zn levels
reduced neither clinical symptoms nor viral loads. Conclusions Our results
suggest that higher levels of dietary ZnO do not have the potential to
stimulate or modulate systemic immune responses after vaccination and
heterologous PRRSV infection to an extent that could improve the clinical and
virological outcome
Dietary Enterococcus faecium NCIMB 10415 and Zinc Oxide Stimulate Immune Reactions to Trivalent Influenza Vaccination in Pigs but Do Not Affect Virological Response upon Challenge Infection
Swine influenza viruses (SIV) regularly cause significant disease in pigs
worldwide. Since there is no causative treatment of SIV, we tested if
probiotic Enterococcus (E.) faecium NCIMB 10415 or zinc (Zn) oxide as feed
supplements provide beneficial effects upon SIV infection in piglets. Seventy-
two weaned piglets were fed three different diets containing either E. faecium
or different levels of Zn (2500 ppm, Zn(high); 50 ppm, Zn(low)). Half of the
piglets were vaccinated intramuscularly (VAC) twice with an inactivated
trivalent SIV vaccine, while all piglets were then infected intranasally with
H3N2 SIV. Significantly higher weekly weight gains were observed in the E.
faecium group before virus infection, and piglets in Zn(high) and E. faecium
groups gained weight after infection while those in the control group
(Zn(low)) lost weight. Using ELISA, we found significantly higher
H3N2-specific antibody levels in the E. faecium+VAC group 2 days before and at
the day of challenge infection as well as at 4 and 6 days after challenge
infection. Higher hemagglutination inhibition (HI) titers were also observed
in the Zn(high)+VAC and E. faecium+VAC groups at 0, 1 and 4 days after
infection. However, there were no significant differences in virus shedding
and lung lesions between the dietary groups. Using flow cytometry analysis
significantly higher activated T helper cells and cytotoxic T lymphocyte
percentages in the PBMCs were detected in the Zn(high) and E. faecium groups
at single time points after infection compared to the Zn(low) control group,
but no prolonged effect was found. In the BAL cells no influence of dietary
supplementation on immune cell percentages could be detected. Our results
suggest that feeding high doses of zinc oxide and particularly E. faecium
could beneficially influence humoral immune responses after vaccination and
recovery from SIV infection, but not affect virus shedding and lung pathology
Characterization of C-strain “Riems” TAV-epitope escape variants obtained through selective antibody pressure in cell culture
Classical swine fever virus (CSFV) C-strain “Riems” escape variants generated under selective antibody pressure with monoclonal antibodies and a peptide-specific antiserum in cell culture were investigated. Candidates with up to three amino acid exchanges in the immunodominant and highly conserved linear TAV-epitope of the E2-glycoprotein, and additional mutations in the envelope proteins E(RNS) and E1, were characterized both in vitro and in vivo. It was further demonstrated, that intramuscular immunization of weaner pigs with variants selected after a series of passages elicited full protection against lethal CSFV challenge infection. These novel CSFV C-strain variants with exchanges in the TAV-epitope present potential marker vaccine candidates. The DIVA (differentiating infected from vaccinated animals) principle was tested for those variants using commercially available E2 antibody detection ELISA. Moreover, direct virus differentiation is possible using a real-time RT-PCR system specific for the new C-strain virus escape variants or using differential immunofluorescence staining
Recognition of microbial viability via TLR8 drives TFH cell differentiation and vaccine responses
Live attenuated vaccines are generally highly efficacious and often superior to inactivated vaccines, yet the underlying mechanisms of this remain largely unclear. Here we identify recognition of microbial viability as a potent stimulus for follicular helper T cell (TFH cell) differentiation and vaccine responses. Antigen-presenting cells (APCs) distinguished viable bacteria from dead bacteria through Toll-like receptor 8 (TLR8)-dependent detection of bacterial RNA. In contrast to dead bacteria and other TLR ligands, live bacteria, bacterial RNA and synthetic TLR8 agonists induced a specific cytokine profile in human and porcine APCs, thereby promoting TFH cell differentiation. In domestic pigs, immunization with a live bacterial vaccine induced robust TFH cell and antibody responses, but immunization with its heat-killed counterpart did not. Finally, a hypermorphic TLR8 polymorphism was associated with protective immunity elicited by vaccination with bacillus Calmette-Guérin (BCG) in a human cohort. We have thus identified TLR8 as an important driver of TFH cell differentiation and a promising target for TFH cell–skewing vaccine adjuvants
Phenotypic effects of mutations observed in the neuraminidase of human origin H5N1 influenza A viruses
Global spread and regional endemicity of H5Nx Goose/Guangdong avian influenza viruses (AIV) pose a continuous threat for poultry production and zoonotic, potentially pre-pandemic, transmission to humans. Little is known about the role of mutations in the viral neuraminidase (NA) that accompanied bird-to-human transmission to support AIV infection of mammals. Here, after detailed analysis of the NA sequence of human H5N1 viruses, we studied the role of A46D, L204M, S319F and S430G mutations in virus fitness in vitro and in vivo. Although H5N1 AIV carrying avian- or human-like NAs had similar replication efficiency in avian cells, human-like NA enhanced virus replication in human airway epithelia. The L204M substitution consistently reduced NA activity of H5N1 and nine other influenza viruses carrying NA of groups 1 and 2, indicating a universal effect. Compared to the avian ancestor, human-like H5N1 virus has less NA incorporated in the virion, reduced levels of viral NA RNA replication and NA expression. We also demonstrate increased accumulation of NA at the plasma membrane, reduced virus release and enhanced cell-to-cell spread. Furthermore, NA mutations increased virus binding to human-type receptors. While not affecting high virulence of H5N1 in chickens, the studied NA mutations modulated virulence and replication of H5N1 AIV in mice and to a lesser extent in ferrets. Together, mutations in the NA of human H5N1 viruses play different roles in infection of mammals without affecting virulence or transmission in chickens. These results are important to understand the genetic determinants for replication of AIV in mammals and should assist in the prediction of AIV with zoonotic potential
Adaptive Cellular Immunity against African Swine Fever Virus Infections
African swine fever virus (ASFV) remains a threat to global pig populations. Infections with ASFV lead to a hemorrhagic disease with up to 100% lethality in Eurasian domestic and wild pigs. Although myeloid cells are the main target cells for ASFV, T cell responses are impacted by the infection as well. The complex responses remain not well understood, and, consequently, there is no commercially available vaccine. Here, we review the current knowledge about the induction of antiviral T cell responses by cells of the myeloid lineage, as well as T cell responses in infected animals, recent efforts in vaccine research, and T cell epitopes present in ASFV
Landscape structure influences the use of social information in an insectivorous bat
In anthropogenic landscapes, aerial insectivores are often confronted with variable habitat complexity, which may influence the distribution of prey. Yet, high mobility may allow aerial insectivores to adjust their foraging strategy to different prey distributions. We investigated whether aerial-hunting common noctules Nyctalus noctula adjust their foraging strategy to landscapes with different habitat complexity and assumingly different prey distribution. We hypothesized that the movement behaviour of hunting common noctules and changes of movement behaviour in reaction towards conspecifics would depend on whether they hunt in a structurally poor cropland dominated landscape or a structurally rich forest dominated landscape. We tracked flight paths of common noctules in northeastern Germany using GPS loggers equipped with an ultrasonic microphone that recorded foraging events and presence of conspecifics. Above cropland, common noctules hunted mainly during bouts of highly tortuous and area restricted movements (ARM). Bats switched from straight flight to ARM after encountering conspecifics. In the forested landscape, common noctules hunted both during ARM and during straight flights. The onset of ARM did not correlate with the presence of conspecifics. Common noctules showed a lower feeding rate and encountered more conspecifics above the forested than above the cropland dominated landscape. We conjecture that prey distribution above cropland was patchy and unpredictable, thus making eavesdropping on hunting conspecifics crucial for bats during search for prey patches. In contrast, small scale structural diversity of the forested landscape possibly led to a more homogeneous prey distribution at the landscape scale, thus enabling bats to find sufficient food independent of conspecific presence. This suggests that predators depending on ephemeral prey can increase their foraging success in structurally poor landscapes by using social information provided by conspecifics. Hence, a minimum population density might be obligatory to enable successful foraging in simplified landscapes