Register      Login
Wildlife Research Wildlife Research Society
Ecology, management and conservation in natural and modified habitats
Shopping Cart: ( empty )
You are here: Home > Journals > WR > WR07007
RESEARCH ARTICLE
Contents Vol 34(7)

Prospects for immunocontraception in the European red fox (Vulpes vulpes)

T. Strive A B C , C. M. Hardy A B and G. H. Reubel A B
+ Author Affiliations
- Author Affiliations

A CSIRO Entomology, GPO Box 1700, Canberra, ACT 2601, Australia.

B Invasive Animals Cooperative Research Centre, 3D1 University of Canberra, ACT 2601, Australia.

C Corresponding author. Email: tanja.strive@csiro.au

Wildlife Research 34(7) 523-529 https://doi.org/10.1071/WR07007
Submitted: 9 January 2007  Accepted: 15 August 2007   Published: 13 December 2007

Abstract

The European red fox is an introduced pest species in Australia for which improved means of control are urgently needed. Research efforts have focussed recently on the development of novel biological control methods to reduce the serious impact this species continues to have on both native fauna and the sheep industry. The ultimate goal has been to generate an antifertility vaccine for use on foxes that relies on a process termed ‘immunocontraception’. A variety of proteins derived from sperm and oocytes, together with different delivery vectors, have been experimentally assessed for their ability to induce immunocontraceptive responses in foxes. Vaccine vectors screened have included Salmonella typhimurium, vaccinia virus and canine herpesvirus but suppression of fertility has yet to be achieved with any combination of antigen and delivery vector. Downregulation of fox mucosal antibodies during oestrus, lack of vector replication and low antibody responses to the target antigens have been the main constraints in successful fertility control. The fox is not well known as an experimental animal and the logistics of dealing with this difficult-to-handle species proved to be a major challenge when compared with other species, such as rabbits and mice. Despite these difficulties, research on fox immunocontraception has generated important insights into the reproductive biology, husbandry, biology and basic immunology of viral vectors in European red foxes. This information represents a valuable knowledge base should antifertility vaccination for foxes be revisited in the future.


Acknowledgements

The authors are grateful to Dr Franck Boué, Agence Française de Sécurité Sanitaire des Aliments, Nancy, France, for providing access to the captive fox colony during years of excellent collaboration and for allowing us to refer to some of his unpublished results. We are also grateful to T. Robinson, D. Halliday and an anonymous referee for critically reviewing this manuscript. Funding for this research was obtained from the Vertebrate Pest Control Cooperative Research Centre, The Pest Animal Control Cooperative Research Centre, The Australian Nature Conservation Agency, Environment Australia and the Australian Department of Environment and Heritage.


References

Adler, H. , Messerle, M. , and Koszinowski, U. H. (2003). Cloning of herpesviral genomes as bacterial artificial chromosomes. Reviews in Medical Virology 13, 111–121.
Crossref | GoogleScholarGoogle Scholar | PubMed | Appel M. J. G. (1987). Canine Herpesvirus. In ‘Herpesviruses of carnivores’. (Ed. M. J. G. Appel.) pp. 5–15. (Elsevier: Amsterdam.)

Beaton, S. , Cleary, A. , ten Have, J. , and Bradley, M. P. (1994). Cloning and characterization of a fox sperm protein FSA-1. Reproduction, Fertility and Development 6, 761–770.
Crossref | GoogleScholarGoogle Scholar | Bomford M. (1990). ‘A role for fertility control in wildlife?’ (Australian Government Publishing Service: Canberra.)

Bradley, M. P. (1994). Experimental strategies for the development of an immunocontraceptive vaccine for the European red fox, Vulpes vulpes. Reproduction, Fertility and Development 6, 307–317.
Crossref | GoogleScholarGoogle Scholar | Choudhury S., Srivastava N., Narwal P. S., Rath A., Jaiswal S., and Gupta S. K. (2007). Feasibility and challenges in the development of immunocontraceptive vaccine based on zona pellucida glycoproteins. In ‘Gamete biology: emerging frontiers on fertility and contraceptive development’. (Eds S. K. Gupta, K. Koyama, J. F. Murray.) Society of Reproduction and Fertility, Nottingham University Press, Nottingham, UK. Vol 63, 479–493.

de Jersey, J. , Hinds, L. A. , and Bradley, M. P. (1997). Regulation of reproductive tract immunoglobulins by oestradiol-17beta in the European red fox. Reproduction, Fertility and Development 9, 531–538.
Crossref | GoogleScholarGoogle Scholar | Jalkanen L. (1992). ‘The female silver fox compared to the blue fox.’ (Jordbrugsforlaget: Copenhagen)

Jones, B. D. , Ghori, N. , and Falkow, S. (1994). Salmonella typhimurium initiates murine infection by penetrating and destroying the specialized epithelial M cells of the Peyer’s patches. Journal of Experimental Medicine 180, 15–23.
Crossref | GoogleScholarGoogle Scholar | PubMed | McLeod R. (2004). ‘Counting the cost: impact of invasive animals in Australia 2004.’ (Cooperative Research Centre for Pest Animal Control: Canberra). Available at http://www.invasiveanimals.com/images/pdfs/Mcleod.pdf (verified 12 October 2007).

Messerle, M. , Crnkovic, I. , Hammerschmidt, W. , Ziegler, H. , and Koszinowski, U. H. (1997). Cloning and mutagenesis of a herpesvirus genome as an infectious bacterial artificial chromosome. Proceedings of the National Academy of Sciences of the United States of America 94, 14759–14763.
Crossref | GoogleScholarGoogle Scholar | PubMed | Saunders G., Coman B., Kinnear J., and Braysher M. (1995). ‘Managing vertebrate pests – foxes.’ (Australian Government Publishing Service: Canberra.)

Saunders G., Lane C., Harris S., and Dickman C. (2006). Foxes in Tasmania: a report on the incursion of an invasive species. Invasive Animals Cooperative Research Centre, Canberra. Available at http://www.dpiw.tas.gov.au/inter.nsf/Publications/LBUN-6R26GG?open (verified 12 October 2007).

Srinivasan, J. , Tinge, S. , Wright, R. , Herr, J. C. , and Curtiss, R. (1995). Oral immunization with attenuated Salmonella expressing human sperm antigen induces antibodies in serum and the reproductive tract. Biology of Reproduction 53, 462–471.
Crossref | GoogleScholarGoogle Scholar | PubMed |

Srivastava, N. , Santhanam, R. , Sheela, P. , Mukund, S. , Thrakal, S. S. , Malik, B. S. , and Gupta, S. K. (2002). Evaluation of the immunocontraceptive potential of Escherichia coli-expressed recombinant dog ZP2 and ZP3 in a homologous animal model. Reproduction (Cambridge, England) 123, 847–857.
PubMed |

Strive, T. , Hardy, C. M. , French, N. , Wright, J. D. , Nagaraja, N. , and Reubel, G. H. (2006). Development of canine herpesvirus based antifertility vaccines for foxes using bacterial artificial chromosomes. Vaccine 24, 980–988.
Crossref | GoogleScholarGoogle Scholar | PubMed |

Strive, T. , Hardy, C. M. , Wright, J. , and Reubel, G. H. (2007). A virus vector based on Canine Herpesvirus for vaccine applications in canids. Veterinary Microbiology 119, 173–183.
Crossref | GoogleScholarGoogle Scholar | PubMed |

Suri, A. (2005). Contraceptive vaccines targeting sperm. Expert Opinion on Biological Therapy 5, 381–392.
Crossref | GoogleScholarGoogle Scholar | PubMed |

ten Have, J. , Beaton, S. , and Bradley, M. P. (1998). Cloning and characterization of the cDNA encoding the PH20 protein in the European red fox Vulpes vulpes. Reproduction, Fertility and Development 10, 165–172.
Crossref | GoogleScholarGoogle Scholar |

Tyndale-Biscoe, C. H. (1991). Fertility control in wildlife. Reproduction, Fertility and Development 3, 339–343.
Crossref | GoogleScholarGoogle Scholar |

Verdier, Y. , Chaffaux, S. , and Boue, F. (2002a). Identification of post-vasectomy sperm auto-antigens in fox (Vulpes vulpes) by two-dimensional gel electrophoresis and Western blotting. Journal of Reproductive Immunology 54, 65–80.
Crossref | GoogleScholarGoogle Scholar | PubMed |

Verdier, Y. , Rouet, N. , Artois, M. , and Boue, F. (2002b). Partial characterization of antigenic sperm proteins in foxes (Vulpes vulpes). Journal of Andrology 23, 529–536.
PubMed |

Xuan, X. , Tuchiya, K. , Sato, I. , Nishikawa, Y. , and Onoderaz, Y. , et al. (1998). Biological and immunogenic properties of rabies virus glycoprotein expressed by canine herpesvirus vector. Vaccine 16, 969–976.
Crossref | GoogleScholarGoogle Scholar | PubMed |