Influenza circulating strains in Argentina exhibit differential induction of cytotoxicity and caspase-3 in vitro.

BACKGROUND: Human influenza infections are a significant cause of morbidity worldwide. Though damage to the respiratory epithelium and has been related to apoptosis, which occurs subsequent to influenza virus infection, little information is available regarding cell cytotoxicity of human strains. OBJECTIVE: To study cytotoxicity performed in vitro by various circulating strains in Argentina. The study sample consisted of three vaccine strains (H1N1, H3N2, and B) administered during 1999-2000 in South America and three strains isolated from clinical samples, one, NAC (H1N1) obtained from an adult inpatient with human pneumonia; and the other two (T) and (T2) (H3N2) with influenza syndrome. Viral antigen was detected by an immunofluorescence test, conducted prior to viral isolation in MDCK cells. Strains were subtyped by the hemmaglutination inhibition test. Cytotoxic properties were determined by lactate dehydrogenase reaction (LDH), crystal violet staining and Hoechst staining. Caspase-3 activity, morphological changes of apoptosis, and viral yields were measured in MDCK infected cells. RESULTS AND CONCLUSIONS: Cells infected by each of the strains exhibited apoptosis morphology by Hoechst staining and caspase-3 activity was high for both H1N1 strains. Further, high levels of LDH activity were detected for NAC and H3N2 strains tested, indicating the possible role of different viral proteins or functions on cell cytotoxicity. The NAC strain, isolated from human pneumonia and antigenically related to A/New Caledonia /20/99 (H1N1), was the highest cytotoxic strain and an excellent inducer of caspase-3 activity. In turn, no parameter was related to different viral yields. We conclude that human strains studied in this paper may be useful tools in the characterization of molecular determinants involved in viral cytopathogenicity.

Antigenic and genomic relation between human influenza A (H3N2) viruses circulating in Argentina during 1998 and the H3N2 vaccine component.

OBJECTIVE: Due to the lack of correlation from 1994 to 1997 between the A H3N2 component of the influenza vaccine recommended for this period and the circulating viruses in Argentina, we decided to study the antigenic and genomic relationships of the 1998 A H3N2 Argentine circulating strains with the corresponding vaccine component for that year as recommended by the World Health Organization (WHO). METHODS: We selected 18 influenza A H3N2 strains isolated in Argentina during 1998 to carry out an antigenic and genomic study of their hemagglutinin (HA) and neuraminidase (NA) proteins. For the genomic study we added 3 isolates from Uruguay. We compared the Argentine and Uruguayan strains with available reference strains. RESULTS: We found that all 18 strains from Argentina were similar to the A/Sydney/5/97 (H3N2) strain, as opposed to the A/Wuhan/359/95 (H3N2) strain, which was the vaccine component. This result was confirmed by the genomic study. CONCLUSIONS: The approach that we applied in Argentina has improved the quality and quantity of information about influenza in the country. This type of work should be encouraged in other countries in order to help choose the most appropriate vaccine components each year and provide individuals with the best possible protection against influenza.

[Antigenic relationship between influenza A (H3N2) strains circulating in Argentina and vaccine strains]. / Estudio antigenico de cepas de influenza A (H3N2) circulantes en la Argentina y su relacion con las cepas vacunales.

Influenza epidemic season occurs usually from May to September in Argentina, so that the vaccine produced in the northern hemisphere to be administered during October-November may be out of phase for Argentina. In order to determine if the locally circulating strains in Argentina are antigenically close by related to the vaccine strains administered, they were compared with the influenza viruses isolated from May 1994 to December 1997. Clinical samples (9866) were nasopharyngeal aspirates from children hospitalized for acute lower respiratory tract infection and nasal-pharyngeal swabs from adults with influenza syndrome. Initial laboratory diagnosis was performed by immunofluorescence assay, followed by isolation in MDCK cells. Influenza A viruses (242) were detected and subtyped by hemagglutination inhibition (HAI) with WHO FLU Reagent Kit. A subset of the isolated viruses was antigenically analyzed by the WHO Collaborating Center at CDC, Atlanta, USA. Influenza A (H3N2) viruses characterized as circulating in Argentina during the last four years matched partially with the antigens present in the vaccines administered during 1994-97 period. These antigenic variants sometimes circulate late in the year (October 1994 and 1997) initiating the following influenza season and becoming prevalent. They were present 2 years later in the vaccine formula administered in the southern hemisphere. The HAI results of our isolates show that they are highly specific with the homologous antiserum and much less specific with antibodies against vaccine strains. The difference is 16 to 64 fold different. These results demonstrate the need to intensify influenza laboratory surveillance in order to obtain the best possible vaccine.

Estudio antigenico de cepas de influenza A (H3N2) circulantes en la Argentina y su relacion con las cepas vacunales. / [Antigenic relationship between influenza A (H3N2) strains circulating in Argentina and vaccine strains]

Influenza epidemic season occurs usually from May to September in Argentina, so that the vaccine produced in the northern hemisphere to be administered during October-November may be out of phase for Argentina. In order to determine if the locally circulating strains in Argentina are antigenically close by related to the vaccine strains administered, they were compared with the influenza viruses isolated from May 1994 to December 1997. Clinical samples (9866) were nasopharyngeal aspirates from children hospitalized for acute lower respiratory tract infection and nasal-pharyngeal swabs from adults with influenza syndrome. Initial laboratory diagnosis was performed by immunofluorescence assay, followed by isolation in MDCK cells. Influenza A viruses (242) were detected and subtyped by hemagglutination inhibition (HAI) with WHO FLU Reagent Kit. A subset of the isolated viruses was antigenically analyzed by the WHO Collaborating Center at CDC, Atlanta, USA. Influenza A (H3N2) viruses characterized as circulating in Argentina during the last four years matched partially with the antigens present in the vaccines administered during 1994-97 period. These antigenic variants sometimes circulate late in the year (October 1994 and 1997) initiating the following influenza season and becoming prevalent. They were present 2 years later in the vaccine formula administered in the southern hemisphere. The HAI results of our isolates show that they are highly specific with the homologous antiserum and much less specific with antibodies against vaccine strains. The difference is 16 to 64 fold different. These results demonstrate the need to intensify influenza laboratory surveillance in order to obtain the best possible vaccine.