| Literature DB >> 23758678 |
Yongtao Li1, Wei Zou, Guangmin Jia, Jianjiang Ke, Jiping Zhu, Xian Lin, Hongbo Zhou, Meilin Jin.
Abstract
Since the emergence of the 2009 pandemic (H1N1) virus (2009/Entities:
Mesh:
Substances:
Year: 2013 PMID: 23758678 PMCID: PMC3686621 DOI: 10.1186/1297-9716-44-41
Source DB: PubMed Journal: Vet Res ISSN: 0928-4249 Impact factor: 3.683
2009/H1N1 Influenza viruses used in this study
| A/swine/Nanchang/3/2010 (H1N1) | 3/10 | JF275917-JF275924 | Tracheal mucus | 10-5.5 | 103TCID50 |
| A/swine/Nanchang/5/2010 (H1N1) | 5/10 | JF275933-JF275940 | Tracheal mucus | 10-3.2 | NCb |
| A/swine/Nanchang/6/2010 (H1N1) | 6/10 | JF275941-JF275948 | Tracheal mucus | 10-4.4 | NC |
| A/swine/Nanchang/F9/2010 (H1N1) | F9/10 | JF275925-JF275932 | Lung tissue | 10-4.48 | 102.98TCID50 |
| A/Liaoning /14/2009(H1N1) | LN/09 | KC683492-KC683499 | Nasal swab | 10-5.5 | NC |
aThe 50% mouse lethal dose (MLD50) was determined by intranasally inoculating groups of ten mice with serial 10-fold dilutions of each virus in a final volume of 50 μL and calculated by the method of Reed and Muench [25].
bNC indicates the MLD50 of the strains could not be counted due to low mortality or no lethality for mice.
The amino acid mutations in the proteins of the 2009/H1N1 pig isolates
| CA/04 | T | A | D | D | S | L | D | G | V | S | V | N | I |
| LN/09 | T | A | D | D | S | L | D | G | V | S | V | N | I |
| 3/10 | L | D | G | S | |||||||||
| 5/10 | L | D | S | ||||||||||
| 6/10 | D | G | S | ||||||||||
| F9/10 | G | ||||||||||||
aThe complete genomic sequences for the referent strain A/California/04/2009 are available in the GenBank database under accession numbers FJ966079.1-FJ966086.1. The genomic sequences of strains used in this study are in the GenBank database and the accession numbers are shown in Table 1.
bItalics show the common mutations of 2009/H1N1 pig isolates compared with the human strains.
cThe HA protein sequence is shown with the 17 amino acids of signaling peptide sequences at the N-terminal.
dBold letters indicate the mutations between the 2009/H1N1 pig isolates.
Figure 1Weight loss and mortality of mice inoculated with different 2009/H1N1 virues in mice. Six-week-old BALB/c mice were inoculated intranasally with 103TCID50 viruses, with 10 mice per group. The mice that lost 25% of its preinoculation body weight were humanely euthanized with quick cervical dislocation and the data were expressed as the survival percentage of mice infected with 103TCID50 viruses (A). Body weight of mice infected with of each virus was measured for 14 dpi (B).
Figure 2Comparison of the viral replication in mice of different 2009/H1N1 strains in a dose dependent manner. Five mice of each group were infected with a dose series of the viruses (102-105 TCID50), euthanized at 3 and 6 dpi and the titers in lung homogenates of mice were determined using absolute quantitative PCR on 3 (A) and 6 dpi (B) respectively. The values were calculated through a standard curve which was generated by ten-fold serial dilutions of standard plasmid harboring NP gene of 2009/H1N1 virus. The results are presented as mean ± SEM of virus copy numbers. × indicates the infection dose in the groups exceeds the content of the original virus. ND means the virus could be not detected. Significant differences were observed at 3/10 and F9/10 compared with 5/10, 6/10 and LN/09 (* p < 0.05).
Figure 3Comparison of Lung pathology in mice infected with different H1N1/2009 viruses on 5 dpi. In 3/10-infected mice lungs, signs of acute interstitial pneumonia with infiltration of large amount of lymphocytes (arrow a) and atelectasis (arrow b) were present. Lung tissues in lesion areas of F9/10-infected mice show acute pneumonia with alveolar wall thickening, large amounts of infiltration of inflammatory cells and bleeding (arrow c). The pathological changes of lung tissues infected with 5/10 and 6/10 viruses just show certain alveolar wall thickening (arrow d) and bronchial exudates (arrow e). LN/09-infected mice only show slight alveolar wall thickening in lung lesions (arrow f). Images were obtained on an Olympus BX-50 light microscope at 50-fold original magnifications (50×).
Figure 4Cytokine production of lungs in BALB/c mice infected with different H1N1/2009 viruses. On 3, 5, 7 and 9 dpi respectively, the lung homogenates from mice inoculated with the four 2009/H1N1 pig isolates (3/10, F9/10, 5/10 and 6/10), a human isolate designed LN/09 and control mice were prepared and tested for the production of cytokines IL-1β, IL-6, IL-10, IL-12 (p40), TNFα and IFN-γ by ELISA assay. The results are presented as mean ± SD (n = 3) of protein levels.The statistical analysis at each time point was performed compared to data for LN/09 virus or other viruses with lower cytokine levels (* p < 0.05).