Virus Appreciation Day, celebrated annually on 3 October, serves a dual purpose: to foster respect and understanding for viruses while raising awareness about their serious impacts on health. To mark the day, Professor John Tregoning from Imperial’s Department of Infectious Disease shares valuable insights into influenza viruses, highlighting their effects, the importance of vaccination, and ongoing research for universal vaccines against evolving strains in our latest blog.
Viruses have an enormous impact on human health, but they don’t
only infect humans. Many viruses also infect animals, plants and even bacteria.
Some viruses are quite promiscuous, infecting a wide range of animal species
before passing on to humans through a process known as zoonotic transmission.
One of the most problematic of these zoonotic infections is influenza virus.
The main natural reservoir of influenza virus is wild birds,
particularly ducks and geese. The virus can then transmit from these birds into
domestic poultry, like chickens, and to livestock, such as pigs, before
ultimately reaching people. In the past five years, a new strain of avian
influenza has emerged with an ability to infect an even wider range of
mammalian species. It has been detected in cattle in the US.
Influenza, the disease caused by the virus, poses a
substantial health burden. It resulted in nearly 15,000 deaths in the UK in the
2022-23 winter season. As well as death, it is a significant cause of
hospitalisation and general illness – with a long tail of recovery.
Additionally, influenza infection doubles the risk of heart attacks and strokes
for up to a year after illness. Given these risks, getting an influenza vaccine
this time of year is highly recommended. As I discovered researching my latest
book Live Forever one of the simplest ways of extending your life is
through vaccination. A vaccine will give you protection against the most severe
forms of disease caused by the virus and protect you against subsequent illness.Vaccines
train your body to recognise pathogens and fight them off. To do this, they
make use of a facet of immunity called immune memory. When re-exposed to the
same virus, your immune response activates faster and stronger, stopping the
infection in its tracks. Several aspects of immune memory can prevent
subsequent infections, but an important one are antibodies – this is a type of
protein that is highly specific in what it can recognise and bind. When you are
immunised with influenza vaccine, you make influenza virus specific antibodies
that can stop the virus from infecting you.
However, influenza virus is a tricky customer. It changes
its coat in an attempt to escape antibodies and this means that the vaccine can
become outdated – necessitating boosters each year. These different types of
virus are called different strains. A huge goal in influenza vaccine research
is to make a vaccine that can recognise a wider range of different influenza
virus strains, even as they mutate to evade the immune response. These are
called universal influenza vaccines; ideally you would be able to have a single
immunisation and get lifelong protection.
But there are a number of potential hurdles in the path to
developing such a vaccine, these relate to the virus itself, but also how our
immune system works and forms memory. One facet of the immune response that we
have been investigating recently is called ‘original antigen sin’ – which is
not a particularly catchy name. What it refers to is how the first exposure to
a series of similar looking viruses affects subsequent responses. It’s a bit
like how babies learn to recognise people – the first woman a baby recognises
might be called mummy and subsequently they might refer to all women as mummy
(at least for a while). In the case of original antigen sin, the immune system
may focus on familiar elements of different viruses at the expense of
recognising new or changing parts, leading to inefficiencies in responding to
variations.
Want to Learn more?
This complex interplay of virus and human immune response is an endlessly fascinating subject, unlocking its secrets can help us identify new ways to protect humans (and chickens) from infection with a deadly virus. But don’t restrict yourself to learning about it on Virus Appreciation Day – if you have found your appetite whetted – why not try our FREE massive open online course called Foundations in Virology and Vaccinology. It does exactly what it says in the link, giving an overview of viruses and vaccines, what we know about them and what we hope to discover.
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