Immunity system complexity: role of mucus (Introduction)

by David Turell , Monday, October 14, 2019, 19:27 (1656 days ago) @ David Turell

It actually changes the properties of infectious bacteria:

https://phys.org/news/2019-10-reveals-mucus-microbes.html

"More than 200 square meters of our bodies—including the digestive tract, lungs, and urinary tract—are lined with mucus. In recent years, scientists have found some evidence that mucus is not just a physical barrier that traps bacteria and viruses, but it can also disarm pathogens and prevent them from causing infections.

"A new study from MIT reveals that glycans—branched sugar molecules found in mucus—are responsible for most of this microbe-taming. There are hundreds of different glycans in mucus, and the MIT team discovered that these molecules can prevent bacteria from communicating with each other and forming infectious biofilms, effectively rendering them harmless.

"'What we have in mucus is a therapeutic gold mine," says Katharina Ribbeck, the Mark Hyman, Jr. Career Development Professor of Biological Engineering at MIT. "These glycans have biological functions that are very broad and sophisticated. They have the ability to regulate how microbes behave and really tune their identity."

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"The average person produces several liters of mucus every day, and until recently this mucus was thought to function primarily as a lubricant and a physical barrier. However, Ribbeck and others have shown that mucus can actually interfere with bacterial behavior, preventing microbes from attaching to surfaces and communicating with one another.

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"To explore that possibility, she isolated glycans and exposed them to Pseudomonas aeruginosa. Upon exposure to mucin glycans, the bacteria underwent broad shifts in behavior that rendered them less harmful to the host. For example, they no longer produced toxins, attached to or killed host cells, or expressed genes essential for bacterial communication.

"This microbe-disarming activity had powerful consequences on the ability of this bacterium to establish infections. Ribbeck has shown that treatment of Pseudomonas-infected burn wounds with mucins and mucin glycans reduces bacterial proliferation, indicating the therapeutic potential of these virulence-neutralizing agents.

"'We've seen that intact mucins have regulatory effects and can cause behavioral switches in a whole range of pathogens, but now we can pinpoint the molecular mechanism and the entities that are responsible for this, which are the glycans," Ribbeck says.

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"Pseudomonas aeruginosa is just one of many opportunistic pathogens that healthy mucus keeps in check. Ribbeck is now studying the role of glycans in regulating other pathogens, including Streptococcus and the fungus Candida albicans, and she is also working on identifying receptors on microbe cell surfaces that interact with glycans.

Her work on Streptococcus has shown that glycans can block horizontal gene transfer, a process that microbes often use to spread genes for drug resistance.

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"Ribbeck suspects that glycans in mucus also play a key role in determining the composition of the microbiome—the trillions of bacterial cells that live inside the human body. Many of these microbes are beneficial to their human hosts, and glycans may be providing them with nutrients they need, or otherwise helping them to flourish, she says. In this way, mucus-associated glycans are similar to the many oligosaccharides found in human milk, which also contains a wide array of sugars that can regulate microbe behavior."

Comment: Mucus represents the purpose of invention in evolution. This is another aspect of how immunity is designed to protect us. We share this with all animals, but not our special form of consciousness.