Ken Lai

Porcine TLR8 and TLR7 are both activated by a selective TLR7 ligand, imiquimod

Toll-like receptors (TLRs) are a family of highly conserved germline-encoded pattern-recognition receptors (PRR), which are utilized by the innate immune system to recognize microbial components, known as pathogen-associated molecular patterns (PAMP). We cloned and characterized porcine TLR7 and TLR8 genes from pig lymph node tissue. Sequence analysis showed that the aa sequence identities of porcine TLR7 with human, mouse and bovine TLR7 are 85, 78 and 90%, respectively, whereas porcine TLR8 aa sequence identities with human, mouse and bovine TLR8 are 73, 69 and 79%, respectively. Both porcine TLR7 and TLR8 proteins were expressed in cell lines and were N-glycosylated. The stimulatory activity of TLR7 and TLR8 ligands to porcine and human TLR7 and TLR8 in transiently transfected Cos-7 and 293T cells were analyzed using a NF-kappaB reporter assay. Two imidazoquinoline molecules, imiquimod and gardiquimod, markedly activated both porcine TLR7 and TLR8 whereas only human TLR7, but not TLR8, was activated by the ligands. Therefore, receptor specificity for porcine TLR8 is clearly species specific. We further showed that porcine TLR7 and TLR8 are located intracellularly and are mainly within the endoplasmic reticulum. Moreover, activation of transfected cells and porcine PBMC by TLR7 ligands was inhibited by bafilomycin A(1) indicating the requirement of endosomal/lysosomal acidification for activation of the receptors.

CpG Oligodeoxynucleotides Activate Innate Immune Response that Suppresses Infectious Bronchitis Virus Replication in Chicken Embryos

Abstract The understanding of innate immune modulation by pathogens and immune-modulating agents, including synthetic oligodeoxynucleotides (CpG ODNs), has offered several new approaches to improve prophylactic and therapeutic strategies against infectious diseases in humans and animals. However, in this regard not much work has been done in avian medicine. In the present study, we analyzed the kinetics of interferon (IFN), cytokine, and chemokine mRNA expression in chicken embryonic spleen at 6 hr, 24 hr, 48 hr, and 72 hr after administration of CpG ODN 2007 (B-class) in 18-day-old chicken embryos. Our data showed enhanced expression of IFN-γ; interleukin (IL)-1β, IL-6, and IL-8; and oligoadenyl synthetase A mRNA after CpG ODN administration. In addition, CpG ODN administration to chicken embryos 24 hr before the challenge with infectious bronchitis virus (IBV) was capable of limiting IBV propagation in different embryonic tissues. Based on the kinetics and type of cytokines induced after in ovo administration of CpG ODN, it may be speculated that in ovo administration of CpG ODNs may enhance resistance from viral infection in neonatal chicks and that CpG ODNs may contribute toward the development of more effective and safer poultry vaccines including in ovo vaccines.

In vitro and ex vivo analyses of co-infections with swine influenza and porcine reproductive and respiratory syndrome viruses.

Abstract Viral respiratory diseases remain problematic in swine. Among viruses, porcine reproductive and respiratory syndrome virus (PRRSV) and swine influenza virus (SIV), alone or in combination, are the two main known contributors to lung infectious diseases. Previous studies demonstrated that experimental dual infections of pigs with PRRSV followed by SIV can cause more severe disease than the single viral infections. However, our understanding of the impact of one virus on the other at the molecular level is still extremely limited. Thus, the aim of the current study was to determine the influence of dual infections, compared to single infections, in porcine alveolar macrophages (PAMs) and precision cut lung slices (PCLS). PAMs were isolated and PCLS were acquired from the lungs of healthy 8-week-old pigs. Then, PRRSV (ATCC VR-2385) and a local SIV strain of H1N1 subtype (A/Sw/Saskatchewan/18789/02) were applied simultaneously or with 3h apart on PAMs and PCLS for a total of 18h. Immuno-staining for both viruses and beta-tubulin, real-time quantitative PCR and ELISA assays targeting various genes (pathogen recognition receptors, interferons (IFN) type I, cytokines, and IFN-inducible genes) and proteins were performed to analyze the cell and the tissue responses. Interference caused by the first virus on replication of the second virus was observed, though limited. On the host side, a synergistic effect between PRRSV and SIV co-infections was observed for some transcripts such as TLR3, RIG-I, and IFNβ in PCLS. The PRRSV infection 3h prior to SIV infection reduced the response to SIV while the SIV infection prior to PRRSV infection had limited impact on the second infection. This study is the first to show an impact of PRRSV/SIV co-infection and superinfections in the cellular and tissue immune response at the molecular level. It opens the door to further research in this exciting and intriguing field.

Administration of poly[di(sodium carboxylatoethylphenoxy)]phosphazene (PCEP) as adjuvant activated mixed Th1/Th2 immune responses in pigs

The selection of an optimal adjuvant to enhance the potency and longevity of antigen specific immune responses has always been imperative for the development of more effective and safer vaccines. A balanced type of immune enhancing ability of a new adjuvant known as polyphosphazene (PCEP) has been demonstrated in mice. In the present study we have compared the humoral and cellular immune responses to vaccine formulations containing Actinobacillus pleuropneumoniae outer membrane antigen (OmlA) with PCEP or Emulsigen as adjuvants. Our data showed a significant improvement and a shift toward more balanced immune responses when OmlA antigen was formulated with PCEP and CpG ODN. Moreover, in contrast to Emulsigen, immunization with PCEP did not result in local injection site reactions highlighting its potential as a safe and effective adjuvant for pigs. Further, the ease of formulation, administration and relatively low per dose cost of PCEP make it a promising adjuvant for pigs.

Attenuated cytokine responses in porcine lymph node cells stimulated with CpG DNA are associated with low frequency of IFNα-producing cells and TLR9 mRNA expression

The immune stimulatory effects of synthetic CpG DNA, on porcine peripheral blood mononuclear cells (PBMC) have been reported, but little is known about CpG-induced responses in other lymphoid tissues of pigs. We investigated innate immune responses induced by CpG DNA in cells from blood, lymph nodes (LN) and spleens of pigs. Porcine PBMC and lymph node cells (LNC) were stimulated in vitro with three classes (A-, B- and C-class) of CpG oligodeoxynucleotides (ODNs), and a non-CpG control ODN. All three classes of CpG ODNs induced significant production of IFNalpha, TNFalpha, IL-1, IL-6 and IL-12 in PBMC. In contrast, in LNC, only IL-12 was stimulated by all three classes of CpG ODNs, while IFNalpha, and IL-6 were induced by A- and C-class ODNs. No TNFalpha was induced in LNC by any of the ODNs. Significant lymphocyte proliferation was induced in PBMC by all three classes of CpG ODNs and non-CpG control. However, in LNC, B- and C-class ODNs induced significant proliferation, while no proliferation was seen with A-class and non-CpG control ODN. All three classes of ODNs induced NK-like cytotoxicity in PBMC and spleen cells, but were less effective in inducing NK cytotoxicity in LNC. We then investigated the reasons for the relatively poor CpG-induced responses in LNC. Our investigations revealed that LNC had a lower frequency of IFNalpha-secreting cells and expressed low levels of TLR9 mRNA compared to PBMC. We conclude that the lower number of IFNalpha-secreting cells and receptor expression may contribute to the attenuated responses in LNC following stimulation with CpG ODN.

Neonatal pigs are susceptible to experimental Zika virus infection

Emerging Microbes & Infections (2017) 6, e6; doi:10.1038/emi.2016.133; published online 15 February 2017

All three classes of CpG ODNs up-regulate IP-10 gene in pigs.

The analysis of CpG ODN induced innate immune responses in different animal species has shown substantial similarities and differences in levels and types of induced cytokines profile. The objectives of these studies were to identify innate immune biomarkers activated by three classes of CpG ODNs in pigs. For this purpose, we investigated the kinetics of innate immune responses in immune cells from pigs following in vitro and in vivo stimulation with CpG ODNs. The mRNA expression of cytokine and chemokine genes were assayed by SYBR green based quantitative real time PCR. A-class CpG ODN induced significant but transient levels of IFN-gamma, IL-12 (P40), IL-6, IL-4 and TNF-alpha mRNA, C-class CpG ODN induced significant level of IFN-gamma, IFN-alpha and IL-12 mRNA and the lowest level of IL-4 (Th-2 type) mRNA. A very low level of some cytokines stimulation was observed by GC ODNs. It is noteworthy, that IL-12 (P35) mRNA was significantly stimulated by B-class GpC ODN 7909. Interestingly, all classes of CpG ODNs induced significant level of IP-10 at 12h post stimulation. These in vitro and in vivo observations suggest that interferon-gamma inducible protein 10 (IP-10) may be a reliable biomarker for immune activity induced by CpG ODNs in pigs.

Polyphosphazenes Enhance Mucosal and Systemic Immune Responses in Mice Immunized Intranasally with Influenza Antigens

Polyphosphazenes are synthetic, biodegradable, water-soluble polymers with a great versatility for vaccine and drug delivery applications. We previously observed that polyphosphazenes enhance immune responses in mice when injected subcutaneously against X:31 influenza antigens. Here, we investigated the potential of polyphosphazenes as mucosal adjuvants for enhancing influenza-specific immune responses. Vaccine combinations with soluble polyphos- phazenes (PCPP or PCEP) and influenza X:31 antigen were administered to BALB/c mice intranasally. Antigen-specific antibody responses were assayed in serum and mucosal washes by ELISA, while antigen-specific cytokine production was assayed in spleen cells by ELISPOT assay. We observed that the formulation of either of the two polyphosphazenes with X:31 induced significant and prolonged serum IgG1 antibody responses as early as 2 weeks after primary immuniza- tion. Interestingly, only PCEP + X:31 induced a significant and prolonged serum IgG2a response. These results implied that the PCEP+X:31 formulation induced better Th1 immune responses, suggesting increased cell-mediated immunity. To confirm this, we determined that IFN- , a Th1 cytokine, was produced at significantly higher levels in spleens from mice that were vaccinated with the PCEP+X:31 formulation, while IL-4, a Th2 cytokine, was produced at higher levels from both vaccinated groups. Finally, we determined that these polyphosphazenes were indeed effective as adjuvants in induc- ing mucosal immune responses, as IgA and IgG antibodies were detected in lung and vaginal washes. We conclude that polyphosphazenes increase mucosal immune responses effectively, and can be used to modulate the quality of Th1 and Th2 immune responses.

Flow cytometry as an improved method for the titration of Chlamydiaceae and other intracellular bacteria

Chlamydiaceae is a family of intracellular bacteria causing a range of diverse pathological outcomes. The most devastating human diseases are ocular infections with C. trachomatis leading to blindness and genital infections causing pelvic inflammatory disease with long‐term sequelae including infertility and chronic pelvic pain. In order to enable the comparison of experiments between laboratories investigating host‐chlamydia interactions, the infectious titer has to be determined. Titer determination of chlamydia is most commonly performed via microscopy of host cells infected with a serial dilution of chlamydia. However, other methods including fluorescent ELISpot (Fluorospot) and DNA Chip Scanning Technology have also been proposed to enumerate chlamydia‐infected cells. For viruses, flow cytometry has been suggested as a superior alternative to standard titration methods. In this study we compared the use of flow cytometry with microscopy and Fluorospot for the titration of C. suis as a representative of other intracellular bacteria. Titer determination via Fluorospot was unreliable, while titration via microscopy led to a linear read‐out range of 16 − 64 dilutions and moderate reproducibility with acceptable standard deviations within and between investigators. In contrast, flow cytometry had a vast linear read‐out range of 1,024 dilutions and the lowest standard deviations given a basic training in these methods. In addition, flow cytometry was faster and material costs were lower compared to microscopy. Flow cytometry offers a fast, cheap, precise, and reproducible alternative for the titration of intracellular bacteria like C. suis.

Porcine retinal cell line VIDO R1 and Chlamydia suis to modelize ocular chlamydiosis

Human ocular Chlamydia trachomatis infections can lead to trachoma, the major cause of infectious blindness worldwide. Trachoma control strategies are very helpful but logistically challenging, and a trachoma vaccine is needed but not available. Pigs are a valuable large animal model for various immunological questions and could facilitate the study of human ocular chlamydial infections. In addition, a recent study identified the zoonotic potential of Chlamydia suis, the natural pathogen of pigs. In terms of the One Health Initiative, understanding the host-pathogen-interactions and finding a vaccine for porcine chlamydia infections would also benefit human health. Thus, we infected the porcine retinal cell line VIDO R1 with C. suis and analyzed the chlamydial life cycle and the innate immune response of the infected cells. Our results indicate that C. suis completes its life cycle in VIDO R1 cells within 48 h, comparable to C. trachomatis in humans. C. suis infection of VIDO R1 cells led to increased levels of various innate immune mediators like pathogen recognition receptors, cytokines and chemokines including IL6, TNFα, and MMP9, also most relevant in human C. trachomatis infections. These results illustrate the first steps in the host-pathogen-interactions of ocular C. suis infections in pigs and show their similarity to C. trachomatis infections in humans, justifying further testing of pigs as an animal model for human trachoma.