ADAPTATION OF HUMAN ROTAVIRUS STRAINS OF GROUP A TO THE REPRODUCTION IN PASSAGED CELL CULTURES

The incidence of rotavirus gastroenteritis in the world still has no tendency to reduction. The development of an effective vaccine would reduce or, in the future, even defeat this highly contagious dangerous disease. However, both in Russia and abroad there is still no developed technique for adapting and cultivating strains of the human rotavirus A that would stably produce a high "yield" of virus progeny in transplanted culture cells. The phenomenon of gene exchange for the segmented genome of rotavirus was used by foreign researchers to create the rotavirus vaccine using reassortant strains which are the result of joint cultivation of low-titer (1-2·106 virions per ml) human rotavirus strains and rotavirus strains of animals, such as monkey rotavirus SA-11 or Nebraska calf rotavirus diarrhea providing a relatively high "yield" of virus progeny (1·107-1·108). It is clear that such vaccine compositions will not be able to replace a full-fledged vaccine of human rotavirus strains of different serotypes, but they can be used for the time being as a solution to the problem. Ideally, a rotavirus vaccine is needed that includes the full set of G and P serotypes of rotaviruses circulating in the territory of their application. The paper describes an original technique for adaptation and cultivation of human rotaviruses of group A on the culture of transplantable cells developed by the authors. This technique allows 5·108 virions to be obtained per 1 ml of culture fluid. High-titer cultivated strains of human rotavirus that can be used as vaccine strains were obtained, as well as highly-active antigens for the construction of diagnostic test-systems.