Marcus E. Kehrli

Efficacy of inactivated swine influenza virus vaccines against the 2009 A/H1N1 influenza virus in pigs

The gene constellation of the 2009 pandemic A/H1N1 virus is a unique combination from swine influenza A viruses (SIV) of North American and Eurasian lineages, but prior to April 2009 had never before been identified in swine or other species. Although its hemagglutinin gene is related to North American H1 SIV, it is unknown if vaccines currently used in U.S. swine would cross-protect against infection with the pandemic A/H1N1. The objective of this study was to evaluate the efficacy of inactivated vaccines prepared with North American swine influenza viruses as well as an experimental homologous A/H1N1 vaccine to prevent infection and disease from 2009 pandemic A/H1N1. All vaccines tested provided partial protection ranging from reduction of pneumonia lesions to significant reduction in virus replication in the lung and nose. The multivalent vaccines demonstrated partial protection; however, none was able to prevent all nasal shedding or clinical disease. An experimental homologous 2009 A/H1N1 monovalent vaccine provided optimal protection with no virus detected from nose or lung at any time point in addition to amelioration of clinical disease. Based on cross-protection demonstrated with the vaccines evaluated in this study, the U.S. swine herd likely has significant immunity to the 2009 A/H1N1 from prior vaccination or natural exposure. However, consideration should be given for development of monovalent homologous vaccines to best protect the swine population thus limiting shedding and the potential transmission of 2009 A/H1N1 from pigs to people.

Experimental infection of United States swine with a Chinese highly pathogenic strain of porcine reproductive and respiratory syndrome virus.

Abstract The pathogenesis of Type 2 highly pathogenic porcine reproductive and respiratory syndrome virus (HP-PRRSV) in 10-week old swine in the United States was investigated. rJXwn06, rescued from an infectious clone of Chinese HP-PRRSV, replicated in swine with at least 100-fold increased kinetics over U.S. strain VR-2332. rJXwn06 caused significant weight loss, exacerbated disease due to bacterial sepsis and more severe histopathological lung lesions in pigs exposed to HP-PRRSV than to those infected with VR-2332. Novel findings include identification of bacterial species present, the degree of thymic atrophy seen, and the inclusion of contact animals that highlighted the ability of HP-PRRSV to rapidly transmit between animals. Furthermore, comprehensive detailed cytokine analysis of serum, bronchoalveolar lavage fluid, and tracheobronchial lymph node tissue homogenate revealed a striking elevation in levels of cytokines associated with both innate and adaptive immunity in HP-PRRSV infected swine, and showed that contact swine differed in the degree of cytokine response.

Genomic sequence and virulence comparison of four Type 2 porcine reproductive and respiratory syndrome virus strains

Porcine reproductive and respiratory syndrome virus (PRRSV) is a ubiquitous and costly virus that exhibits substantial sequence and virulence disparity among diverse isolates. In this study, we compared the whole genomic sequence and virulence of 4 Type 2 PRRSV isolates. Among the 4 isolates, SDSU73, MN184, and NADC30 were all clearly more virulent than NADC31, and among the 3 more virulent isolates, there were subtle differences based on viral replication, lung lesions, lymphadenopathy, febrile response, decreased weight gains, and cytokine responses in the lung. Lesions consistent with bacterial bronchopneumonia were present to varying degrees in pigs infected with PRRSV, and bacteria typically associated with the porcine respiratory disease complex were isolated from the lung of these pigs. Genomic sequence evaluation indicates that SDSU73 is most similar to the nucleotide sequence of JA142, the parental strain of Ingelvac(®) PRRS ATP, while the nucleotide sequences of NADC30 and NADC31 are more similar to strain MN184. Both the NADC30 and NADC31 isolates of PRRSV, isolated in 2008, maintain the nonstructural protein 2 (nsp2) deletion seen in MN184 that was isolated in 2001, but NADC31 has two additional 15 and 36 nucleotide deletions, and these strains are 8-14% different on a nucleotide basis from the MN184 strain. These results indicate that newer U.S. Type 2 strains still exhibit variability in sequence and pathogenicity and although PRRSV strains appear to be reducing the size of the nsp2 over time, this does not necessarily mean that the strain is more virulent.

A colorimetric assay for quantitating bovine neutrophil bactericidal activity.

A colorimetric assay was developed for quantitating bovine neutrophil bactericidal activity against Staphylococcus aureus. The procedure used the tetrazolium compound, 3-[4,5-dimethylthiazol-2-yl]-2,5-diphenyltetrazolium bromide (MTT). The assay was conducted by incubating antibody-opsonized S. aureus with neutrophils in microtiter plates for 1 h at a ratio of 10 bacteria per neutrophil. Neutrophils were then lysed with saponin. The MTT was added and samples were incubated for 10 min. Live S. aureus reduced MTT to purple formazan. Dead bacteria and lysed neutrophils did not react with MTT. Bacterially-reduced formazan was solubilized by adding isopropanol and formazan production was quantitated by measuring absorption at 560 nm. Absorption of formazan was directly related to viable bacteria cell number and was used to determine the number of S. aureus not killed by neutrophils. The percentage of bacteria killed by neutrophils was determined by extrapolation from a standard formazan curve that was derived by incubating MTT with known numbers of S. aureus. The colorimetric MTT assay detected suppressed bactericidal activity after in vitro treatment of bovine neutrophils with colchicine, cytochalasin B, or phorbol 12-myristate 13-acetate. In vitro treatment of neutrophils with low levels of recombinant bovine interferon gamma (rBoIFN-gamma) enhanced bactericidal activity, whereas high levels decreased activity. These results suggest the colorimetric MTT bactericidal assay is efficacious in detecting modulation of bovine neutrophil bactericidal activity. Furthermore, the MTT assay has many advantages over traditional bactericidal assays in that it is sensitive, inexpensive, requires less than 3 h to complete, and can analyze many neutrophil samples in a single day.

In vivo growth of porcine reproductive and respiratory syndrome virus engineered nsp2 deletion mutants

Abstract Prior studies on PRRSV strain VR-2332 non-structural protein 2 (nsp2) had shown that as much as 403 amino acids could be removed from the hypervariable region without losing virus viability in vitro. We utilized selected nsp2 deletion mutants to examine in vivo growth. Young swine (4 pigs/group; 5 control swine) were inoculated intramuscularly with one of 4 nsp2 deletion mutants (rΔ727–813, rΔ543–726, rΔ324–523, rΔ324–726) or full-length recombinant virus (rVR-2332). Serum samples were collected on various days post-inoculation and analyzed by HerdChek* ELISA, PRRSV real time RT-PCR, gamma interferon (IFN-γ) ELISA, and nucleotide sequence analysis of the entire nsp2 coding region. Tracheobronchial lymph node weight compared to body weight was recorded for each animal and used as a clinical measurement of viral pathogenesis. Results showed that all deletion mutants grew less robustly than full-length recombinant virus, yet all but the large deletion virus (rΔ324–726) recovered to parental viral RNA levels by study end. Swine receiving the rΔ727–813 mutants had a significant decrease in lymph node enlargement compared to rVR-2332. While swine infection with rVR-2332 caused a rapid rise in serum IFN-γ levels, the IFN-γ protein produced by infection with 3 of the 4 deletion mutant viruses was significantly reduced, perhaps due to differences in viral growth kinetics. The rΔ543–726 nsp2 mutant virus, although growth impaired, mimicked rVR-2332 in inducing a host serum IFN-γ response but exhibited a 2-week delay. Targeted sequencing showed that all deletions were stable in the region coding for nsp2 after one swine passage. The data suggested that the selected nsp2 deletion mutants were growth attenuated in swine, altered the induction of serum IFN-γ, an innate cytokine of unknown function in PRRSV clearance, and pointed to a domain that may influence tracheobronchial lymph node size.

Chinese and Vietnamese strains of HP-PRRSV cause different pathogenic outcomes in United States high health swine

An infectious clone of a highly pathogenic PRRSV strain from Vietnam (rSRV07) was prepared and was demonstrated to contain multiple amino acid differences throughout the genome when compared to Chinese highly pathogenic PRRSV strain rJXwn06. Virus rescued from the rSRV07 infectious clone was compared to rJXwn06 and US Type 2 prototype strain VR-2332 to examine the effects of virus genotype and phenotype on in vitro growth, and virus challenge dose on in vivo pathogenicity and host response. After swine inoculation at high- and low-doses of virus, rSRV07 was shown to replicate to an approximately 10-fold lower level in serum than rJXwn06, produced lower body temperatures than rJXwn06 and resulted in decreased mortality. Furthermore, a 9-plex cytokine panel revealed that the cytokine responses varied between different strains of PRRSV, as well as between tissues examined and by inoculum dose.

Association of class I bovine lymphocyte antigen complex alleles with in vitro blood neutrophil functions, lymphocyte blastogenesis, serum complement and conglutinin levels in dairy cattle

Ninety-eight lactating Holstein cows from two genetic lines selected for high and average milk production were used in the study. Five peripheral blood samples were collected over a 60-day period from each cow for evaluation of neutrophil function, lymphocyte blastogenesis, leukocyte count, and serum complement and conglutinin levels. Blood samples were typed for antigens encoded by alleles at the bovine major histocompatibility complex (BoLA) A locus. Alleles w14(w8), w20A, and w19(w6) were the most frequent of 14 alleles present in this herd. Association of BoLA type with immune function results was examined by using gene substitution models including and ignoring sire effects. Alleles w15(w8) and w16 were associated with greater circulating mononuclear cell and total leukocyte numbers, while w27(w10), w11, and w20A were associated with lower numbers of these cell types. Alleles EU28D and w20A were positively and negatively associated with granulocyte percentage, respectively. Allele w16 was associated with greater antibody-independent neutrophil cytotoxicity, unstimulated lymphocyte proliferation, serum conglutinin activity, and with lower antibody-dependent neutrophil cytotoxicity. Allele w19(w6) was associated with decreased conglutinin activity and decreased neutrophil iodination. Increased antibody-dependent neutrophil cytotoxicity was observed for animals bearing allele w14(w8), and decreased neutrophil iodination, serum conglutinin, and nonstimulated lymphocyte blastogenesis were observed in individuals carrying w20A or EU28D. Significance of both sire and BoLA complex effects suggests that both major histocompatibility complex genes and background genes of the sire significantly affect immune function. This research suggests BoLA-A locus genes may be major genes or markers for closely linked major genes involved in regulation of nonspecific immune function.

FUNCTIONAL ASSESSMENT OF BOVINE MONOCYTES ISOLATED FROM PERIPHERAL BLOOD

Bovine monocytes were isolated from the peripheral blood of cattle by adherence of peripheral blood mononuclear cells to plastic. Three in vitro methods were modified to evaluate bovine monocyte function. These methods were: (1) ingestion of 125I-iododeoxyuridine labeled Staphylococcus aureus; (2) antibody-dependent cell-mediated cytotoxicity; (3) luminol-dependent and native chemiluminescence. Description of monocyte isolation and assay development is discussed in the text. Assays to evaluate monocyte function are useful for assessing immune status of the animal.

Chemically Induced Immunomodulation in Domestic Food Animals

There is extensive research underway on development of chemical immunomodulators for use in humans. This research is primarily driven by the need for therapeutic immunomodulators for use in patients with cancer or AIDS. Currently, there are no chemicals approved as immunomodulators by the Food and Drug Administration for use in domestic food animals. There is considerable potential for applying the rapid advances in immunomodulation research to benefit domestic animals. In domestic food animals, immunomodulators have the greatest potential for prevention and perhaps therapy in early stages of infectious diseases associated with immunosuppression. There are many different causes for immunosuppression and many different molecular mechanisms responsible for defective function of immune cells. It is unlikely that any one immunomodulator will be capable of preventing or reversing all of these various causes of immunosuppression. Therefore, research is needed to understand the mechanisms of immunosuppression and the mechanism of action of immunomodulators so that rational approaches can be developed for their prophylactic and therapeutic use. Without this information and information on effective dosages and duration of action, attempts to use immunomodulators clinically are likely to produce discouraging results.

Cloning, sequencing, and analysis of cDNA encoding bovine granulocyte-colony stimulating factor.

Neutrophils play a critical role in defending against bacterial infections. Hematopoietic growth factors are a class of regulatory cytokines that are required for stimulation, proliferation, and differentiation of blood cells. Granulocyte colony stimulating factor (G-CSF) is a cytokine that induces proliferation and maturation of precursor myeloid cells in the bone marrow into fully differentiated neutrophils. G-CSF also modulates the functional activity of mature neutrophils. Treatment with G-CSF significantly enhances neutrophil phagocytic activity and killing of bacteria and fungi. We have isolated and sequenced a cDNA clone encoding bovine G-CSF (bG-CSF) from an endothelial cell cDNA library using primers designed from ovine G-CSF. The full length cDNA is 1460 nucleotides with 585 nucleotides comprising the open reading frame. Sequence analysis shows 95% identity with ovine, 89% with porcine, 85% with human, and 76% with murine G-CSF. The deduced G-CSF protein consists of 174 amino acids with 95% identity to ovine, 86% to porcine, 81% to human, and 71% to murine. The signal peptide of G-CSF is 21 amino acids long which is nine amino acids shorter than that of human and murine G-CSF. RT-PCR analysis shows that neither freshly isolated nor ConA stimulated neutrophils express G-CSF mRNA. Mononuclear cells, however, expressed G-CSF mRNA after 48 h incubation with or without ConA stimulation.