Your search keyword '"Offerman K"' showing total 5 results

1. Berichten van de Rijksdienst voor het Oudheidkundig Bodemonderzoek, Volume 31

Author

Es, W.A. van, Regteren Altena, J.F. van, Woltering, P.J., Mank, W.C. (eds.), Willems, W.J.H., Hallewas, D.P., Stapert, D., Sanden, W.A.B. van der, Letterle, F., Heeringen, R.M. van, Trierum, M.C. van, Hulst, R.S., Perizonius, W.R.K., Pot, Tj., Kars, H., Broekman, J.A., Goubitz, O., Offerman, K., and RCE

Subjects

Archaeology

Published

2008

2. Influence of the lumpy skin disease virus (LSDV) superoxide dismutase homologue on host transcriptional activity, apoptosis and histopathology.

Author

Munyanduki H, Douglass N, Offerman K, Carulei O, and Williamson AL

Subjects

Animals, Apoptosis immunology, Cattle, Chickens immunology, Chickens virology, Female, Lumpy Skin Disease immunology, Lumpy skin disease virus immunology, Mice, Mice, Inbred BALB C, Superoxide Dismutase immunology, Transcription, Genetic immunology, Vaccination methods, Vaccines, Attenuated immunology, Vaccinia virus genetics, Vaccinia virus immunology, Viral Vaccines immunology, Apoptosis genetics, Host-Pathogen Interactions genetics, Lumpy Skin Disease genetics, Lumpy Skin Disease virology, Lumpy skin disease virus genetics, Superoxide Dismutase genetics, Transcription, Genetic genetics

Abstract

Lumpy skin disease virus (LSDV), a Capripoxvirus, is of economic importance in the cattle industry and is controlled by vaccination. A comparison was made of the host response to the two LSDV vaccines Neethling and Herbivac LS, with reference to the well-studied Orthopoxvirus, modified vaccinia Ankara (MVA), in a mouse model. Because the vaccines differ at the superoxide dismutase homologue (SOD) gene locus, recombinant SOD knock-out and knock-in nLSDV vaccines were constructed and all four vaccines were tested for the induction and inhibition of apoptosis. The SOD homologue was associated both with induction of apoptosis as well as inhibition of camptothecin-induced apoptosis. Histological analysis of chorioallantoic membranes of fertilized hens' eggs infected with the four different vaccines indicated marked mesodermal proliferation associated with vaccines containing the full-length SOD homologue as well as increased immune cell infiltration. Our findings suggest that the SOD homologue may influence vaccine immunogenicity.

Published

2020

3. Six host-range restricted poxviruses from three genera induce distinct gene expression profiles in an in vivo mouse model.

Author

Offerman K, Deffur A, Carulei O, Wilkinson R, Douglass N, and Williamson AL

Subjects

Animals, Female, Genetic Vectors genetics, HIV Infections genetics, HIV-1 pathogenicity, Humans, Immunoglobulin G genetics, Interferons genetics, Mice, Mice, Inbred BALB C, Up-Regulation genetics, Vaccines genetics, Host Specificity genetics, Poxviridae genetics, Transcriptome genetics

Abstract

Background: Host-range restricted poxviruses make promising vaccine vectors due to their safety profile and immunogenicity. An understanding of the host innate immune responses produced by different poxvirus vectors would aid in the assessment, selection and rational design of improved vaccines for human and veterinary applications. Novel avipoxviruses are being assessed to determine if they are different from other poxvirus vectors. Analysis of the transcriptome induced in a mouse model would aid in determining if there were significant differences between different poxvirus vectors which may reflect different adjuvant potential as well as establish if they should be further evaluated as vaccine vectors., Results: We compared host transcript abundance in the spleens of BALB/c mice twenty four hours after intravenous infection (10(5) pfu/mouse) with six host-restricted poxvirus species from three genera, namely Lumpy Skin Disease virus (LSDV), Canarypox virus (CNPV), Fowlpox virus (FWPV), modified vaccinia Ankara (MVA) and two novel South African avipoxviruses, Feral Pigeonpox virus (FeP2) and Penguinpox virus (PEPV). These six viruses produced qualitatively and quantitatively distinct host responses with LSDV, followed by MVA, inducing the greatest interferon (IFN) response. FeP2 and PEPV caused very little change to host transcript abundance compared to the other 4 viruses tested. CNPV and FWPV induced the up regulation of two immunoglobulin genes (Ighg and Ighg3 (IgG3)) with CNPV inducing a third, Ighm (IgM). HIV-1-specific IgG3 antibodies have been correlated with decreased risk of HIV-1 infection in the RV144 trial, which included a CNPV-based vector (Yates et al. (Sci Transl Med, 6(228) p228, 2014). Up regulation of IgG3 by CNPV and FWPV but not the other poxviruses tested in vivo, implies that these two avipoxvirus-vector backbones may be involved in stimulation of the clinically important IgG3 antibody subclass. Differential transcript abundance associated with the different poxviruses is further discussed with particular emphasis on responses related to immune responses., Conclusion: Six, genetically diverse host-restricted poxviruses produce different responses in a mouse model early after infection. These differences may affect the immune response induced to vaccine antigen in vectors based on these viruses. The two novel avipoxviruses were clearly distinguishable from the other viruses.

Published

2015

4. The complete genome sequences of poxviruses isolated from a penguin and a pigeon in South Africa and comparison to other sequenced avipoxviruses.

Author

Offerman K, Carulei O, van der Walt AP, Douglass N, and Williamson AL

Subjects

Animals, Avipoxvirus classification, Evolution, Molecular, Gene Order, Molecular Sequence Data, Phylogeny, Poxviridae Infections virology, Sequence Analysis, DNA, South Africa, Synteny, Avipoxvirus genetics, Avipoxvirus isolation & purification, Bird Diseases virology, Columbidae, Genome, Viral, Poxviridae Infections veterinary, Spheniscidae

Abstract

Background: Two novel avipoxviruses from South Africa have been sequenced, one from a Feral Pigeon (Columba livia) (FeP2) and the other from an African penguin (Spheniscus demersus) (PEPV). We present a purpose-designed bioinformatics pipeline for analysis of next generation sequence data of avian poxviruses and compare the different avipoxviruses sequenced to date with specific emphasis on their evolution and gene content., Results: The FeP2 (282 kbp) and PEPV (306 kbp) genomes encode 271 and 284 open reading frames respectively and are more closely related to one another (94.4%) than to either fowlpox virus (FWPV) (85.3% and 84.0% respectively) or Canarypox virus (CNPV) (62.0% and 63.4% respectively). Overall, FeP2, PEPV and FWPV have syntenic gene arrangements; however, major differences exist throughout their genomes. The most striking difference between FeP2 and the FWPV-like avipoxviruses is a large deletion of ~16 kbp from the central region of the genome of FeP2 deleting a cc-chemokine-like gene, two Variola virus B22R orthologues, an N1R/p28-like gene and a V-type Ig domain family gene. FeP2 and PEPV both encode orthologues of vaccinia virus C7L and Interleukin 10. PEPV contains a 77 amino acid long orthologue of Ubiquitin sharing 97% amino acid identity to human ubiquitin., Conclusions: The genome sequences of FeP2 and PEPV have greatly added to the limited repository of genomic information available for the Avipoxvirus genus. In the comparison of FeP2 and PEPV to existing sequences, FWPV and CNPV, we have established insights into African avipoxvirus evolution. Our data supports the independent evolution of these South African avipoxviruses from a common ancestral virus to FWPV and CNPV.

Published

2014

5. Phylogenetic and histological variation in avipoxviruses isolated in South Africa.

Author

Offerman K, Carulei O, Gous TA, Douglass N, and Williamson AL

Subjects

Animals, Avipoxvirus classification, Bird Diseases epidemiology, Bird Diseases pathology, Birds, DNA, Viral genetics, Gene Expression Regulation, Viral physiology, Genetic Variation, Molecular Sequence Data, Phylogeny, Poxviridae Infections epidemiology, Poxviridae Infections pathology, Poxviridae Infections virology, RNA, Viral genetics, South Africa epidemiology, Viral Proteins genetics, Viral Proteins metabolism, Avipoxvirus genetics, Avipoxvirus isolation & purification, Bird Diseases virology, Poxviridae Infections veterinary

Abstract

Thirteen novel avipoxviruses were isolated from birds from different regions of South Africa. These viruses could be divided into six groups, according to gross pathology and pock appearance on chick chorioallantoic membranes (CAMs). Histopathology revealed distinct differences in epidermal and mesodermal cell proliferation, as well as immune cell infiltration, caused by the different avipoxviruses, even within groups of viruses causing similar CAM gross pathology. In order to determine the genetic relationships among the viruses, several conserved poxvirus genetic regions, corresponding to vaccinia virus (VACV) A3L (fpv167 locus, VACV P4b), G8R (fpv126 locus, VLTF-1), H3L (fpv140 locus, VACV H3L) and A11R-A12L (fpv175-176 locus) were analysed phylogenetically. The South African avipoxvirus isolates in this study all grouped in clade A, in either subclade A2 or A3 of the genus Avipoxvirus and differ from the commercial fowlpox vaccines (subclade A1) in use in the South African poultry industry. Analysis of different loci resulted in different branching patterns. There was no correlation between gross morphology, histopathology, pock morphology and phylogenetic grouping. There was also no correlation between geographical distribution and virus phenotype or genotype.

Published

2013