Researchers on the Texas Biomedical Analysis Institute (Texas Biomed) have recognized a pressure of chicken flu remoted from a human in Texas that carries a particular set of mutations, making it more proficient at replicating in human cells and inflicting extreme illness in mice. This pressure was in comparison with one present in dairy cattle, and the findings are detailed in Rising Microbes & Infections.
The invention underscores a major concern concerning the H5N1 strains of chicken flu presently circulating within the U.S.: the virus’s speedy mutation when it infects a brand new host species.
H5N1, which is of course current in wild birds and lethal to chickens, has lately unfold to a variety of mammals and, for the primary time within the spring of 2024, started infecting dairy cows.
As of early 2025, the outbreak had unfold by means of herds throughout a number of states within the U.S. and contaminated dozens of individuals, largely farm staff. To this point, most individuals contaminated expertise delicate sickness and eye irritation and the virus just isn’t spreading between individuals. The primary H5N1 dying within the U.S. was reported in January 2025 following publicity to contaminated chickens.
“The clock is ticking for the virus to evolve to extra simply infect and doubtlessly transmit from human to human, which might be a priority,” mentioned Texas Biomed Professor Luis Martinez-Sobrido, Ph.D., whose lab makes a speciality of influenza viruses and has been finding out H5N1 because the outbreak started final 12 months. The crew has developed specialised instruments and animal fashions to check prophylactic vaccines and therapeutic antivirals.
Human vs. bovine
Within the current examine, they in contrast H5N1 strains remoted from a human affected person and from dairy cattle in Texas.
“There are 9 mutations within the human pressure that weren’t current within the bovine pressure, which suggests they occurred after human an infection,” Dr. Martinez-Sobrido mentioned.
In mouse research, they discovered that in comparison with the bovine pressure, the human pressure replicated extra effectively, triggered extra extreme illness, and was present in a lot greater portions in mind tissue. Additionally they examined a number of FDA-approved antiviral drugs to see in the event that they have been efficient in opposition to each virus strains in cells.
“Luckily, the mutations didn’t have an effect on the susceptibility to FDA-approved antivirals,” mentioned Workers Scientist Ahmed Mostafa Elsayed, Ph.D., first writer of the examine.
Antivirals will probably be a key line of protection ought to a pandemic happen earlier than vaccines are broadly obtainable, Dr. Martinez-Sobrido mentioned. That is very true since people haven’t any preexisting immunity in opposition to H5N1 and seasonal flu vaccines seem to supply very restricted safety, in keeping with a separate examine performed in collaboration with Aitor Nogales, Ph.D., on the Heart for Animal Well being Analysis in Spain.
Subsequent steps and proposals
Texas Biomed is now exploring the human H5N1 mutations individually to find out that are chargeable for elevated pathogenicity and virulence. The crew needs to determine what permits H5N1 to contaminate such a variety of mammal species; why H5N1 causes delicate illness in cows however is deadly in cats; and why infections through cows are much less dangerous to individuals than infections from chickens.
In a 3rd paper, Dr. Elsayed and collaborators analyzed the historical past of H5N1 in dairy cattle for the journal mBio and known as for a One Well being strategy to guard each animals and other people.
“A key precedence will probably be to eradicate chicken flu from dairy cows to attenuate the chance of mutations and transmission to individuals and different species,” Dr. Elsayed mentioned. “Steps that may be taken now embody thorough decontamination of milking tools and extra stringent quarantine necessities, which is able to assist remove the virus extra rapidly in cows.”
References:
“Replication kinetics, pathogenicity and virus-induced mobile responses of cattle-origin influenza A(H5N1) isolates from Texas, United States” by Ahmed Mostafa, Ramya S. Barre, Anna Allué-Guardia, Ruby A. Escobedo, Vinay Shivanna, Hussin Rothan, Esteban M. Castro, Yao Ma, Anastasija Cupic, Nathaniel Jackson, Mahmoud Bayoumi, Jordi B. Torrelles, Chengjin Ye, Adolfo García-Sastre and Luis Martinez-Sobrido, 8 January 2025, Rising Microbes & Infections.
DOI: 10.1080/22221751.2024.2447614
“Avian influenza A (H5N1) virus in dairy cattle: origin, evolution, and cross-species transmission” by Ahmed Mostafa, Mahmoud M. Naguib, Aitor Nogales, Ramya S. Barre, James P. Stewart, Adolfo García-Sastre and Luis Martinez-Sobrido, 13 November 2024, mBio.
DOI: 10.1128/mbio.02542-24
“Are we serologically ready in opposition to an avian influenza pandemic and will seasonal flu vaccines assist us?” by Iván Sanz-Muñoz, Javier Sánchez-Martínez, Carla Rodríguez-Crespo, Corina S. Concha-Santos, Marta Hernández, Silvia Rojo-Rello, Marta Domínguez-Gil, Ahmed Mostafa, Luis Martinez-Sobrido, Jose M. Eiros and Aitor Nogales, 31 December 2024, mBio.
DOI: 10.1128/mbio.03721-24