# Comparative Mutational Analysis and the Glycosylation Patterns of a Peruvian Isolated Avian Influenza A Virus H5N1: Exploring Possible Viral Spillover Events Within One Health Approach

**Authors:** Sandra Landazabal-Castillo, Lucero Alva-Alvarez, Dilan Suarez-Agϋero, Enrique Mamani-Zapana, Egma Mayta-Huatuco

PMC · DOI: 10.3390/vetsci12040392 · 2025-04-21

## TL;DR

This study compares the genetic and glycosylation changes in a Peruvian H5N1 avian influenza virus to understand its evolution and potential spillover risks to other species.

## Contribution

The study identifies novel mutations and glycosylation pattern changes in H5N1 viruses from a Peruvian isolate, offering insights into viral evolution and spillover potential.

## Key findings

- 603 amino acid changes were detected across H5N1 viruses, including mutations in HA, NA, PA, and PB1 proteins.
- Significant changes in N-linked glycosylation sites were observed in HA and NA proteins.
- The study highlights the importance of monitoring mutational and glycosylation profiles for tracking H5N1 evolution.

## Abstract

Influenza A virus is a pathogen of significant global concern for public health and wildlife conservation. A deeper understanding of its mutational/glycosylation profile is essential, given its broad host range capabilities. This study provides the comparative variations found in all segmented proteins of the H5N1 viruses analyzed, some of the findings must be highlighted within the One Health framework.

(1) Background: The ongoing panzootic of highly pathogenic avian influenza virus (HPAIV) of subtype H5N1, clade 2.3.4.4b, has decimated wild/domestic birds and mammals’ populations worldwide with reports of sporadic cases in humans. (2) Methods: This study aimed to compare the mutational profile of H5N1 avian Influenza virus isolated from a Peruvian natural reserve, with recent data from other related international studies made in human and different species of domestic and wild birds and mammals. Briefly, the near complete protein sequences of the Influenza virus coming from a Calidris alba were analyzed at a multisegmented level, together with 55 samples collected between 2022 and 2024 in different countries. Moreover, the glycosylation patterns were also predicted in silico. (3) Results: A total of 603 amino acid changes were found among H5N1 viruses analyzed, underscoring the detection of critical mutations HA:11I, HA:211I, HA:336T, HA:492D, HA:527I, NA:10T, NA:269L, NA:405T, NP:377N, PA:57R, PA:68S, PA:322V/L, PA:432I, PB2:539V, PB1:207R, PB1:375N, PB1:264D, PB1:429R, PA-X:250Q, PB1-F2:65R, and PB1-F2:42Y, as well as PA:13V, PA-X:13V, PA20T, PA-X:20T, PA:36T PA-X:36T, PA:45S, PA-X:45S, PA:57Q, PA-X:57Q, PA:61I, PA-X:61I, PA:68S, PA-X:68S, PA:70V, PA-X:70V, PA:75Q, PA-X:75Q, PA:85T, PA-X:85T, PA:86I, PA-X:86I, PA:100I, PA-X:100I, PA:142E, PA-X:142E, PA:160E, PA-X:160E, PA:211I, PA-X:211Y, among others, considered of importance under the One Health perspective. Similarly, changes in the N-linked glycosylation sites (NLGs) predicted in both HA and NA proteins were found, highlighting the loss/acquisition or changes in some NLGs, such as 209NNTN, 100 NPTT, 302NSSM (HA) and 70NNTN, 68NISS, and 50NGSV (NA). (4) Conclusions: This study provides our understanding about the evolution of current Influenza A viruses H5N1 HPAIV circulating globally. These findings outline the importance of surveillance updating mutational profiles and glycosylation patterns of these highly evolved viruses.

## Linked entities

- **Proteins:** ha (hair bristles), XK (X-linked Kx blood group antigen, Kell and VPS13A binding protein), PNP (purine nucleoside phosphorylase), AMY2A (amylase alpha 2A), PB2 (polymerase PB2), SMR3A (submaxillary gland androgen regulated protein 3A), Pax (Paxillin), PB1-F2 (PB1-F2 protein)
- **Species:** Calidris alba (taxon 279936)

## Full-text entities

- **Species:** Homo sapiens (human, species) [taxon 9606], unidentified influenza virus (species) [taxon 11309], H5N1 subtype (serotype) [taxon 102793]

## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12031540/full.md

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Source: https://tomesphere.com/paper/PMC12031540