NL2025154B1 - Method for preparing a vaccine against viruses - Google Patents

Abstract

A method for preparing a vaccine against a virus is described, characterized in that the virus is cultured and the virus is subsequently sterilized, in particular by gamma irradiation. Also disclosed is a vaccine thus obtained and the use of a sterilized virus for the preparation of such a vaccine.

Description

Method for preparing a vaccine against viruses The invention relates to a vaccine against viruses, to such a vaccine and to the use of a sterilized virus for the preparation of such a vaccine.

At present, the world is looking for vaccines against viral infections. Currently, the Coronavirus, in particular Covid-19, is at the center of attention in this regard. There has also been a search for a vaccination against HIV viruses for a long time.

Vaccination ensures that antibodies are generated via the immune system that target the surface structure of the antigen, in this case the virus.

The immune system is in serious trouble, because the multiplying viruses outclass the immune system in quantity. This is especially the case when the viruses have a rapid multiplication cycle.

Until now, vaccines have been developed in such a way that special components of the product to be combated, i.e. the intact virus particle, are counterfeited in order to generate large quantities of antibodies directed against these components. The effort for this is very great and takes a lot of time.

The above problem is solved by providing a vaccine in which the total surface of the virus is presented to the immune system, and the invention therefore provides a method for preparing a vaccine against a virus and is characterized in that the virus is cultured and the virus is then sterilized.

A clear definition of the virus is desirable for the preparation of the desired vaccine. Based on this, the virus can be grown in large quantities using suitable substrates. These processes and proper substrate choice are known per se in the art. Until now, however, intact viruses have not been cultivated on a large scale.

The viruses have exactly the surface against which the immune system raises antibodies and thus develops the potential immunization.

In a next step, the viruses are sterilized in such a way that their hereditary material, i.e. the DNA and/or RNA, is disrupted, making it impossible to propagate the virus. This can be done in a simple manner by using radioactive radiation, in particular gamma radiation. This high-energy radiation can disrupt the complexes of the DNA and/or RNA in such a way that the viruses can no longer reproduce and are therefore sterile, as it were dead.

To this end, the cultured viruses are preferably exposed to strong and intensive gamma radiation, preferably with a dose of 5-12 kGray, more in particular 9-11 kGray, most preferably around 10 kGray, in order to have absolute certainty that the irradiated viruses are sterile and can no longer reproduce. Those skilled in the art know what dosages and exposure times are required to sterilize the virus of interest. In a very favorable case, the viruses are contained together with the substrate in containers which are transmissive to gamma radiation, such as in particular glass vessels. These are absolutely transparent to gamma rays. The irradiation preferably takes place when the virus is in the culture substrate, but can also be purified first.

Although the virus can also be sterilized by other means known in the art, the advantage of the gamma radiation is that the DNA is disrupted, but not the surface of the virus. It is precisely this virus surface that is the only stimulation of the immune system. The sterile mixture of dead virus and culture substrate can then form the desired vaccine. The virus can also be further isolated from the substrate and optionally further purified and/or processed in a manner known in the art and then used as a vaccine.

The virus is preferably a Coronavirus or an HIV virus. Such viruses have so far been difficult to combat with vaccines. The virus is preferably the Covid-19 virus, against which a vaccine has not yet been developed, given the focus on immunization with components of the virus rather than with intact sterilized virus.

The invention also relates to a vaccine comprising a sterilized virus as described above, and to a use of such a sterilized virus for the preparation of a vaccine against the virus in question.

Claims (17)

CONCLUSIONS A method for preparing a vaccine against a virus, characterized in that the virus is cultured and the virus is subsequently sterilized. Method according to claim 1, characterized in that the sterilization takes place with gamma radiation. Method according to claim 2, characterized in that the gamma radiation amounts to a dose of 5-12 kGray. Method according to claim 3, characterized in that the gamma radiation amounts to a dose of 9-11 kGray. Method according to any one of the preceding claims, characterized in that the virus is irradiated in a culture substrate. A method according to any one of the preceding claims, characterized in that the total sterilized material is used as a vaccine. Method according to any one of the preceding claims, characterized in that the sterilized virus is purified. A method according to any one of the preceding claims, characterized in that the virus is a Coronavirus or HIV virus. Method according to claim 8, characterized in that the virus is Covid-19. 10. Vaccine comprising a sterilized virus. A vaccine, according to claim 10, comprising a gamma-ray sterilized virus. A vaccine according to claim 10 or 11, wherein the virus is a Coronavirus or HIV virus. The vaccine of claim 12, wherein the virus is Covid-19. 14. Use of a sterilized virus for the preparation of a vaccine against this virus. Use according to claim 14, characterized in that the virus is sterilized by gamma radiation. Use according to claim 14 or 15, characterized in that the virus is a Coronavirus or HIV virus. Use according to claim 16, characterized in that the virus Covid-19.