Staff Publications

Staff Publications

  • external user (warningwarning)
  • Log in as
  • language uk
  • About

    'Staff publications' is the digital repository of Wageningen University & Research

    'Staff publications' contains references to publications authored by Wageningen University staff from 1976 onward.

    Publications authored by the staff of the Research Institutes are available from 1995 onwards.

    Full text documents are added when available. The database is updated daily and currently holds about 240,000 items, of which 72,000 in open access.

    We have a manual that explains all the features 

    Current refinement(s):

    Records 1 - 3 / 3

    • help
    • print

      Print search results

    • export

      Export search results

    Check title to add to marked list
    Next-generation salmonid alphavirus vaccine development
    Hikke, M.C. - \ 2016
    Wageningen University. Promotor(en): Just Vlak, co-promotor(en): Gorben Pijlman. - Wageningen : Wageningen University - ISBN 9789462577404 - 159
    alphavirus - atlantic salmon - rainbow trout - vaccine development - immunity - virology - fish culture - aquaculture - biotechnology - alfavirus - europese zalm - regenboogforel - vaccinontwikkeling - immuniteit - virologie - visteelt - aquacultuur - biotechnologie

    ABSTRACT

    Aquaculture is essential to meet the current and future demands for seafood to feed the world population. Atlantic salmon and rainbow trout are two of the most cultured aquaculture species. A pathogen that threatens these species is salmonid alphavirus (SAV). A current inactivated virus vaccine against SAV provides cross-protection against all SAV subtypes in salmonids and reduces mortality amongst infected fish. However, protection is not 100% and due to virus growth at low temperature, the vaccine production process is time consuming. In addition, the vaccine needs to be injected into the fish, which is a cumbersome process. The work described in this thesis aimed to increase the general knowledge of SAV and to assess current vaccine technologies, and to use this knowledge in designing next-generation vaccines for salmonid aquaculture.

    An alternative cell line to support SAV proliferation was identified, however, the virus production time could not yet outcompete the current SAV production system. Making use of the baculovirus insect cell expression system, multiple enveloped virus-like particle (eVLP), and core-like particle (CLP) prototype vaccines were produced in insect cells at high temperature. An in vivo vaccination study showed, however, that these vaccines could not readily protect Atlantic salmon against SAV. The low temperature-dependent replication of SAV was attributed to the glycoprotein E2, and it was found that E2 only correctly travelled to the cell surface at low temperature, and in the presence of glycoprotein E1. The biological impact of this finding was confirmed in the development and in vivo testing of a DNA-launched replicon vaccine. The effective DNA-launched replicon vaccine was extended by delivery of the capsid protein in trans. It was hypothesized that viral replicon particles (VRP) were formed in vivo, which would cause an additional single round of infection and might further elevate the immune response in comparison to the replicon vaccine. A second animal trial indicated that the inclusion of capsid did not yet improve vaccine efficacy. This trial however did show that a DNA vaccine transiently expressing the SAV structural proteins provided superior protection over both replicon vaccines (with and without capsid).

    In this thesis, some virus characteristics, such as the cause of temperature-dependency of SAV replication, of an unique aquatic virus were further explored. The production and in vivo testing of multiple next-generation vaccines defined the prerequisites for induction of a potent immune response in Atlantic salmon. A prototype DNA-launched replicon vaccine has shown potential for further development. The research described in this thesis contributes to the development of next-generation vaccines in the challenging area of fish vaccinology.

    Bodybuilders met schubben (interview met A. Palstra)
    Palstra, A.P. - \ 2013
    Visionair : het vakblad van sportvisserij Nederland (2013)28. - ISSN 1569-7533 - p. 4 - 7.
    vissen - danio rerio - europese zalm - zwemmen - dierfysiologie - weerstand - stress - kweekvis - fishes - danio rerio - atlantic salmon - swimming - animal physiology - resistance - stress - farmed fish
    Een getrainde vis is een fitte vis, kan een adagium worden in het visonderzoek. Want vissen die genoeg zwemmen groeien harder, zijn minder stressgevoelig en beter bestand tegen ziekten. Hoe dat precies werkt wordt langzaam duidelijk.
    The role of Lake IJsselmeer, a closed-off estuary of the River Rhine, in rehabilitation of salmonid populations
    Hartgers, E.M. ; Buijse, A.D. - \ 2002
    Fisheries Management and Ecology 9 (2002). - ISSN 0969-997X - p. 127 - 138.
    europese zalm - salmo trutta - migratie - salmonidae - herstel - nederland - ijsselmeer - rijn - Lake IJsselmeer - atlantic salmon - salmo trutta - migration - salmonidae - rehabilitation - netherlands - lake ijssel - river rhine - Rhine - Salmo salar
    To clarify the function of Lake IJsselmeer for salmonids, catch data collected throughout the year between 1995 and 1999 were related to various possible migratory strategies known for these species
    Check title to add to marked list

    Show 20 50 100 records per page

     
    Please log in to use this service. Login as Wageningen University & Research user or guest user in upper right hand corner of this page.