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Home NEWS Science News Biology

Like bacteria firing spearguns

Bioengineer by Bioengineer
March 4, 2022
in Biology
Reading Time: 4 mins read
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Injection system of Cyanobacteria
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Many bacteria have sophisticated molecular injection devices that are used to do some amazing things. For example, a bacterium inoculates certain molecules into a worm larva via such a nanomachine composed of proteins, which triggers the transformation of the larva into an adult worm. Other bacteria use such molecular weapons to kill foreign strains of bacteria or insect larvae, or they defend themselves against scavenger cells.

Injection system of Cyanobacteria

Credit: Graphic: from Weiss G., et al, Nature Microbiology 2022

Many bacteria have sophisticated molecular injection devices that are used to do some amazing things. For example, a bacterium inoculates certain molecules into a worm larva via such a nanomachine composed of proteins, which triggers the transformation of the larva into an adult worm. Other bacteria use such molecular weapons to kill foreign strains of bacteria or insect larvae, or they defend themselves against scavenger cells.

Researchers in the group of Martin Pilhofer, Professor at the Institute of Molecular Biology and Biophysics at ETH Zurich, who specializes in such molecular injection machines, have just described two novel injection systems in the journal Nature Microbiology: one made by cyanobacteria, also known as blue-​green algae, and one by the marine bacterium Algoriphagus machipongonensis.

The newly discovered so-​called contractile injection systems (CISs) work fundamentally differently than previously described devices and have a few unique features. As a result, they also provide information about the evolutionary differences between different injection system classes.

These CISs work like molecular syringes. When the outer sheath module of the nanomachine contracts, an internal, hidden tube filled with proteins is shot out. These proteins are either injected into the environment or directly into a target cell.

A surprising anchoring in the cell

One novel CIS, which the researchers found in cyanobacteria, was not anchored in the cell membrane or loosely floating inside the cell, as expected, but was attached to the so-​called thylakoid membrane, where photosynthesis takes place in these bacteria.

“That was the biggest surprise for us,” says Gregor Weiss, lead author of the study on the cyanobacterial injection system. Despite this unusual localization, the CIS anchored in the thylakoid membrane – referred to as tCIS – fulfill their purpose. If cyanobacteria are stressed, for example by excessive salt concentrations in the water or ultraviolet light, the outer cell layers detach. This exposes the outward-​facing tCIS, ready to fire upon contact with potential target cells.

The molecular spear guns are also unexpectedly common, which according to Weiss indicates an important role in the life cycle of cyanobacteria. He suspects that the tCIS could play a role in the programmed cell death of individual cells in these multicellular cyanobacteria.

Extracellular injection system

On the other hand, the ETH researchers Jingwei Xu and Charles Ericson, who also work in Pilhofer’s group, discovered and describe a CIS produced by the marine bacterium Algoriphagus machipongonensis, which is not anchored in the cell at all, but is instead released into the environment to act on target cells in the area.

Among other things, the researchers used cryo-​electron microscopy to determine the structure of this specific subtype of ejected CIS (eCIS) in very high resolution, which no other working group had previously been able to do. “The newly discovered nano machines give us clues that contractile injection systems are more common than previously thought,” says Ericson.

From molecules to whole bacteria

These studies are special because of their interdisciplinary, diverse approach: from bacteria collected in natural ecosystems to atomic-​level models of their respective CIS. “This work shows very nicely how different techniques can be used to get an idea of ​​how these systems and structures work,” explains Weiss. In addition, the study shows that there is a need to move from laboratory strains to environmental samples in order to understand the role of injection systems in the life cycle.

Future use in biomedicine

The two studies help researchers understand how CIS-​producing organisms affect their environment. In addition, different sites in these systems shed light on how each CIS is organized for a specific purpose: specialized hair-​like receptors allow targeted binding of target cells, variable loading of these molecular sparguns causes different cellular effects, and distinct anchoring mechanisms allow the CISs completely different modes of action.

With this in mind, it is conceivable that future researchers will use the modular structure in biomedicine by redesigning it so that a molecular speargun could target specific cell types and fire drugs or antimicrobials.



Journal

Nature Microbiology

DOI

10.1038/s41564-021-01055-y

Method of Research

Experimental study

Subject of Research

Cells

Article Title

Structure of a thylakoid-anchored contractile injection system in multicellular cyanobacteria

Article Publication Date

14-Feb-2022

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