Method for identifying attenuated chickenpox virus Oka strain or

Details Method for identifying attenuated chickenpox virus Oka strain or Method for identifying attenuated chickenpox virus Oka strain or

1998-01-15

2000-07-25

Wortman, Donna C.

Chemistry: molecular biology and microbiology

Measuring or testing process involving enzymes or...

Involving virus or bacteriophage

435 912, 4353201, 4241861, 4242301, 536 2433, C12Q 170, C12P 1934, C12N 700, C07H 2104

Patent

active

060935359

DESCRIPTION:

BRIEF SUMMARY
BACKGROUND OF THE INVENTION

1. Field of the Invention
The present invention relates to a method for identifying the attenuated varicella virus Oka strain. More particularly, the present invention relates to a method for identifying the attenuated varicella virus Oka strain or a strain derived therefrom capable of functioning as an attenuated varicella live vaccine virus, and an isolated virus strain which is substantially the same virus strain as identified as the attenuated varicella virus Oka strain or a strain derived therefrom by the above method. The present invention also relates to an attenuated varicella virus Oka strain antigen. The present invention further relates to a pair of novel primers which are advantageously, effectively usable in the method of the present invention.
2. Prior Art
As is well known, attenuated live varicella vaccines used today are manufactured from a seed strain of varicella-zoster virus (hereinafter, frequently referred to simply as "varicella virus") which is a virus derived from the attenuated varicella virus Oka strain (see Examined Japanese Patent Application Publication No. 53-41202 and U.S. Pat. No. 3,985,615), and the attenuated live vaccines are used widely throughout the world {Requirements for Varicella Vaccine (Live) Adopted 1984: WHO Technical Report Series, No. 725, pp. 102-124, 1985}. To ensure the safety and effectiveness of the vaccine, the number of passages of a virus used for producing the vaccine is under the control of a seed lot system, taking into consideration the potential genetic mutation which is likely to occur during the passage. That is, the manufacturers are under an obligation to produce varicella vaccines only from the virus derived from the approved seed virus for the live varicella vaccine, wherein the number of passages of the virus is not more than 10 as counted from the approved seed virus which is counted as 0 passage. In other words, the quality control and quality assurance of the attenuated live varicella vaccine rely upon the fulfillment of the seed lot system by the manufacturers, and the quality of the vaccine has not been determined by a direct genetic analysis of a seed virus genomic DNA or a vaccine virus genomic DNA.
Further, from the viewpoint of epidemiology which involves a tracing of the effects of a varicella vaccine and a post-market surveillance (PMS), the virological difference between the fresh wild-type strains isolated from the naturally infected varicella patients and the vaccine virus strains derived from the above-mentioned Oka strain needs to be determined, and various methods have been attempted for determination of the virological difference. Since the gene of a VZV genome and the structure of the gene were reported (Journal of General Virology, 67, 1759-1816, 1986), various determination methods of the virological difference based on the differences between the properties and characteristics of the strains, such as the difference in DNA sequence between the different VZV strains (Journal of Virology, 59, 660-668, 1986), the difference in the absence or presence of a restriction enzyme PstI cleavage site (Japanese Journal of Experimental Medicine, 59, 233-237, 1989), the difference in RFLP (restriction fragment length polymorphism) of the PCR (polymerase chain reaction) product (Journal of Virology, 66, 1016-1020, 1992), and the difference in the absence or presence of a restriction enzyme PstI restriction site which is taken in combination with the difference in RFLP of the PCR product (Journal of Clinical Microbiology, 33, 658-660, 1995). However, all of these methods are not sufficient and cannot be used for exact identification of the Oka strain.
In other words, for quality control and quality assurance of the vaccine and from the viewpoint of epidemiology which involves a tracing of the effects of the vaccine and a PMS, it is critically important to identify or determine the above-mentioned attenuated varicella virus Oka strain or a strain derived therefrom capable of functioning as an attenuated vari

REFERENCES:
patent: 3985615 (1976-10-01), Kubo
Davison et al., J. Gen. Virol., vol. 67, pp. 1759-1816 (1986).
Kinchington et al., Journal of Virology,, vol. 59, No. 3, pp. 660-668 (Sep. 1986).
Hondo et al., Japanese Journal of Experimental Medicine, vol. 59, No. 6, 233-237 (1989).
LaRussa et al., Journal of Virology, vol. 66, No. 2, pp. 1016-1020 (Feb. 1992).
Takada et al., Journal of Clinical Microbiology, vol. 33, No. 3, pp. 658-660 (Mar. 1995).
Hayakawa et al., The Journal of Infectious Diseases, vol. 149, No. 6, pp. 956-963 (Jun. 1984).
Orita et al., Proc. Natl. Acad. Sci. USA, vol. 86, pp. 2766-2770 (Apr. 1989).
Adams et al. Jan. 1989 Journal of Medical Virology 29: 38-45.
Gelb et al. Jan. 1990 Advances in Experimental Medicine and Biology 278: 59-69.
Hayakawa et al. Jan. 1984 Journal of Infectious Diseases 149:6 956-963.
Hayakawa et al. Jan. 1986 J Gen Virol. 67:1817-1829.
Kinchington et al. Jan. 1990 Advances in Experimental Medicine and Biology 278:83-91.
Shiraki et al. Jan. 1991 J Med Virol. 33: 128-132.
Sequence alignments for Davison and Kinchington, Feb. 1999.
Takada et al. Jan. 1995 J Clin Microbiol. 33:658-660.
Kinchington et al. Jan. 1986 J Virology 59: 660-668.
Davison et al. Jan. 1986 J Gen Virol 67:1759-1816.

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