Molecular identification of neuraminidase gene mutations in influenza A/H1N1 and A/H3N2 isolates of Mazandaran province, north of Iran.

OBJECTIVES: The neuraminidase (NA) mutations causing resistance to NA inhibitors (NAIs) mostly compromise the fitness of influenza viruses. Considering the importance of these mutations, constant monitoring of the effectiveness of available drugs is critical. This study aimed to identify NA mutations in the influenza A/H1N1 and A/H3N2 subtypes in the samples of Mazandaran, Iran from 2016 to 2020. METHODS: In this cross-sectional study, 20 influenza A/H1N1 and 20 influenza A/H3N2 samples were included in the study. After design of appropriate primers for NA gene, all samples subjected to RT-PCR and electrophoresis. Then the PCR product was sequenced to determine the mutations. RESULTS: In the present study, no oseltamivir resistance-related mutations were detected. Still, NA gene showed variations compared to the vaccine strains. In A/H1N1, a total of 43 mutations were detected. Similarly, in A/H3N2, a total of 66 mutations were observed. In all isolates of H1N1, N200S, N248D and I321V mutations were detected in the antigenic site of NA protein, which can affect vaccine incompatibility and virus escape from the host's immune system. Also, H150R mutation was observed in the NA active site of H3N2, which is the cause of agglutination by NA protein. Also, S245N mutation was identified as a new N-Glycosylation site of H3N2 subtype. CONCLUSIONS: The study of NA gene sequences revealed no oseltamivir resistance mutations. In H1N1 isolates, ca. 97% identities and in the H3N2 subtype, 96% identities were observed compared to reference isolate of 2009, which indicates the importance of constant monitoring of the emergence of the drug resistance mutations.

Molecular characterization of the neuraminidase gene of influenza B virus in Northern Iran.

Neuraminidase inhibitors are the only FDA-approved class of antiviral agents against influenza B viruses. Resistance to these drugs has been reported from different parts of the world; however, there seems to be not enough information about this issue in Iran. We aimed to study the genetic evolution of these viruses as well as the presence of possible mutations concerning drug resistance in northern Iran. RNA was extracted from naso- and oropharyngeal swabs and amplified by one-step RT-PCR for detection and sequencing of the neuraminidase gene. All the data were edited and assembled utilizing BioEdit DNASequence Alignment Editor Software, and the phylogenetic tree was constructed via MEGA software version 10. Finally, resistance-associated mutations and B-cell epitopes substitutions were assessed by comparing our sequences with the counterparts in the reference strains. Comparing our sequences with reference strains revealed that the analyzed isolates of influenza B pertained to the B-Yamagata lineage, had a few B-cell epitopes alterations, and contained no particular mutations concerning resistance against neuraminidase inhibitors, such as oseltamivir. Our findings suggest that all the strains circulating in northern Iran and hopefully other parts of the country can be considered sensitive to this class of drugs. Although it is promising, we strongly recommend additional investigations to evaluate the impact of such drug-resistant mutations in other regions, which in turn will assist the public health agencies in taking immediate and effective therapeutic measures into account when needed.

Genotyping and sequence characterization of the NSP4 gene of human group A rotavirus strains in Northern Iran.

Rotavirus is known to be responsible for remarkable numbers of severe diarrheal episodes and even death in infants and young children. In this study, we aimed to survey genetic diversity and variation analysis of viroporin, which is encoded by the rotavirus NSP4 segment. Thirty-five rotavirus-positive specimens were obtained, and RNA extraction and polymerase chain reaction amplification were performed. After the sequencing process, four specimens were excluded, and the final 31 samples remained for genetic diversity and variation analysis. The predominant single G/P combination was G1P[8] (~78%), followed by G2P[8] (~13%), and equal percentages (3%) of G2P[4], G3P[8], and G-non-typeable-P[8]. Further analyses revealed that variations could be found in the three regions of NSP4, including VP4 binding site (aa 112-146), double-layered particle binding site (aa 161-175), and finally, in the predicted amphipathic alpha-helix. Phylogenic tree analysis demonstrated that the mentioned samples clustered with genotype E1 and E2 reference sequences. As previously reported in the literature, in this study, it was revealed that no apparent correlation exists in the deduced amino acid sequences corresponding to this region between the rotaviruses collected from patients with and without diarrhea.