Health and Healthcare Systems

The cells in our body have 'a license to die', protecting us from infectious diseases

image of a microscope

Human cells can kill themselves to stop infectious diseases from spreading. Image: Unsplash/Yassine Khalfalli

Georgia Atkin-Smith
Research scientist, La Trobe University
Ivan Poon
Associate Professor, Biochemistry, La Trobe University
Loading...
  • When we contract diseases such as the flu, our cells can die to stop pathogens in their tracks before they spread further through our body.
  • The genetics of our cells prepare them to die if necessary, with the route to cell death dictated by both the type of cell and the pathogen.
  • Two experts explain the types of cell deaths and why they occur - and why it's important we maintain a healthy diet to prevent unnecessary cell death.

We have all heard of COVID-19, the flu and bacterial infections. But what is actually happening to our cells when we contract these diseases? Many of our body’s cells don’t live to tell the tale. But cell death isn’t necessarily a bad thing — in fact, the death of infected cells can provide a sacrificial mechanism to stop pathogens in their tracks before they can spread through our body.

Over the years, researchers have realised there are many ways for our cells to die. Our genetics contain a comprehensive “licence to die”, with the route to cell death dictated by both the type of the cell and the pathogen. Let’s check some out:

Have you read?

The dancing death

In the time it takes you to read this sentence, ten million cells in your body will have died, through a type of death called apoptosis. This term, coined in 1972 by Australian pathologist John Kerr, comes from the Greek phrase for “leaves falling from a tree”.

Apoptosis is the most common form of cell death, and has also been nicknamed the “dance of death”, because of the extraordinary shape changes exhibited by the cells under a microscope as they sacrifice themselves.

For example, apoptotic cells dying from radiation or infection with influenza A virus (aka, the flu) generate large, bubble-like structures on their surface called blebs, before shooting out long beaded necklace-like protrusions and finally shattering into pieces.

The death of flu-infected cells is suggested to both aid and limit viral spread. Nevertheless, it’s a spectacular event to witness (and an excellent reminder to get your flu shot this winter).

Loading...

Out with a bang

Vaccinia virus is used worldwide to vaccinate against smallpox. In fact, it was the very first vaccine, developed in 1796 by Edward Jenner.

We now also know that vaccinia virus can make our cells more sensitive to a particular type of cell death, caused by a molecule called TNF. This can help prevent the disease spreading by killing off infected cells before the virus has a chance to replicate.

Many of our cells have a roughly spherical or balloon-like shape, encapsulated by a protective layer called the cell membrane. Just like bursting a balloon with a pin, puncture to the cell membrane marks the point of no return.

This process occurs during necroptosis — an explosive type of cell death in which proteins inside the cell punch holes in the membrane. The cell pops and dies, shutting down the machinery needed for viral replication.

The spider web of death

When they aren’t busy haunting our nightmares, spiders can be found weaving silken masterpieces of extraordinary detail and strength. The web of a golden orb weaving spider, for example, is strong enough to entangle small birds.

On a smaller but equally impressive scale, our immune system contains specialised cells called neutrophils that can weave a deadly web of their own and entrap bacteria. Neutrophils gallantly sacrifice themselves in the process of casting their web, in a type of cell death perhaps fittingly called NETosis.

When infected with bacteria such as Streptococcus pneumoniae, which causes pneumonia and meningitis, neutrophils eject a specialised web made from their own DNA. These webs can entangle nearby bacteria to prevent their escape until other immune cell reinforcements arrive to clear the infection. Sometimes, proteins found in these webs can also kill the bacteria - quite an impressive defence mechanism!

These are the different types of deaths cells can undertake to help the body
There are a surprising number of ways cells can lay down their lives for the greater good. Image: Author provided

The last meal

Just as our bodies are compartmentalised into organs such as the stomach, liver or heart, our individual cells also have specialised compartments. One of the cell’s “stomachs” (a structure called the “autophagosome”) engulfs and digests cellular contents such as damaged molecules through the process of autophagy.

However, in some circumstances, the machinery that drives this Pac-Man-style action can also facilitate the cell’s demise. Coincidentally, the bacteria Helicobacter pylori can infect cells of the human stomach lining, called epithelial cells, which can cause ulcers and gastritis. The cells can respond with a process called autophagic cell death, in which the induction of autophagy causes the cell to die.

A fiery death

Pyromania, derived from the Greek word pyr, meaning fire, is an obsessive desire to set things ablaze. Some of our immune cells also have the ability to self-immolate and cause inflammation as part of our response to infection.

Since its relatively recent discovery in 2001, this type of cell death, called pyroptosis, has become a hot topic (sorry) among cell biologists, and is often facilitated by a molecular complex called the inflammasome.

In 2021, understanding pyroptosis is more important than ever, as it has been linked to infection with SARS-CoV-2 infection, the virus that causes COVID-19.

Activation of the factors that cause pyroptosis may help explain the excessive inflammation seen in patients with severe COVID-19. And this could potentially offer a new way to combat the disease.

Discover

What is the World Economic Forum doing about healthcare value and spending?

Overdosing on iron and fat

There’s no doubt the key to a long and healthy life is a balanced diet and exercise. However, sometimes we can’t resist the urge to devour a burger and fries with ice cream for dessert. With enough hard work, we can burn it off again. But for individual cells, overindulging can be fatal.

Too much iron and/or harmful types of fat molecules can cause cells to die by ferroptosis. Cells infected with Mycobacterium tuberculosis, the bacterium that causes TB, can increase their iron content and cause ferrototic cell death! Pass the salad, thanks.

Loading...
Don't miss any update on this topic

Create a free account and access your personalized content collection with our latest publications and analyses.

Sign up for free

License and Republishing

World Economic Forum articles may be republished in accordance with the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International Public License, and in accordance with our Terms of Use.

The views expressed in this article are those of the author alone and not the World Economic Forum.

Stay up to date:

Biotechnology

Share:
The Big Picture
Explore and monitor how Biotechnology is affecting economies, industries and global issues
World Economic Forum logo

Forum Stories newsletter

Bringing you weekly curated insights and analysis on the global issues that matter.

Subscribe today

These collaborations are already tackling climate-driven health risks but more can be done to find solutions

Fernando J. Gómez and Elia Tziambazis

December 20, 2024

Investing in children’s well-being: The urgent need for expanded mental health and psychosocial support funding

About us

Engage with us

  • Sign in
  • Partner with us
  • Become a member
  • Sign up for our press releases
  • Subscribe to our newsletters
  • Contact us

Quick links

Language editions

Privacy Policy & Terms of Service

Sitemap

© 2024 World Economic Forum