Rings of Death

We make pore-forming proteins that poke holes in cells and kill them. Why?

Gasdermin proteins are parts of the immune system, and exist in bacteria as well. It was only in 2016 that their mechanism of action was discovered, as forming unusual pores. The function of these pores was originally assumed to be offensive, killing enemy cells. But it quickly became apparent that they more often kill the cells that make them, as the culmination of a process called pyroptosis, a form of (inflammatory) cell suicide. Further work has only deepened the complexity of this system, showing that gasdermin pores are more dynamic and tunable in their action than originally suspected.

The structure is quite striking. The protein starts as an auto-inhibited storage form, sitting around in the cell. When the cell comes under attack, a cascade of detection and signaling occurs that winds up expressing a family of proteases called caspases. Some of these caspases can cut the gasdermin proteins, removing their inhibitory domain and freeing them to assemble into multimers. About 26 to 32 of these activated proteins can form a ring on top of a membrane (let's say the plasma membrane), which then cooperatively jut down their tails into the membrane and make a massive hole in it.

Overall structure of assembled gasdermin protein pores.

Simulations of pore assembly, showing how the trapped membrane lipids would pop out of the center, once pore assembly is complete.

These holes, or pores, are big enough to allow small proteins through, and certainly all sorts of chemicals. So one can understand that researchers thought that these were lethal events. And gasdermins are known to directly attack bacterial cells, being responsible in part for defense against Shigella bacteria, among others. But then it was found that gasdermins are the main way that important cytokines like the highly pro-inflammatory IL-1β get out of the cell. This was certainly an unusual mode of secretion, and the gasdermin D pore seems specifically tailored, in terms of shape and charge, to conduct the mature form of IL-1β out of the cell. 

It also turned out that gasdermins don't always kill their host cells. Indeed, they are far more widely used for temporary secretion purposes than for cell killing. And this secretion can apparently be regulated, though the details of that remain unclear. In structural terms, gasdermins can apparently form partial and mini-pores that are far less lethal to their hosts, allowing, by way of their own expression levels, a sensitive titration of the level of response to whatever danger the cell is facing.

Schematic of how lower concentrations of gasdermin D (lower path, blue) allow smaller pores to form with less lethality.

Equally interesting, the bacterial forms of gasdermin have just begun to be studied. While they may have other functions, they certainly can kill their host cell in a suicide event, and researchers have shown that they can shut down phage infection of a colony or lawn of bacterial cells. That is, if a phage-infected cell can signal and activate its gasdermin proteins fast enough, it can commit suicide before the phage has time to fully replicate, beating the phage at its own race of infection and propagation. 

Bacteria committing suicide for the good of the colony or larger group? That introduces the theme of group selection, since committing suicide certainly doesn't do the individual bacterium any good. It is only in a family group, clonal colony, or similar community that suicide for the sake of the (genetically related) group makes sense. We, as multicellular organisms, are way past that point. Our cells are fully devoted to the good of the organism, not themselves. But to see this kind of heroism among bacteria is, frankly, remarkable.

Bacteria have even turned around to attack the attacker. The Shigella bacteria mentioned above, which are directly killed by gasdermins, have evolved an enzymatic activity that tags gasdermin with ubiquitin, sending it to the cellular garbage disposal and saving themselves from destruction. It is an interesting validation of the importance of gasdermins and the arms race that is afoot, within our bodies.

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