26 July 2019

Tick saliva

It's more complex than one might expect:
Ticks evolved this molecular cocktail because they, unlike virtually any other blood feeder, feed for days at a time on a single host. Most tick species feed only once during each stage of their life cycle (larva, nymph, adult), so they have to get a “voluminous blood meal” out of each host, says Sarah Bonnet, who studies ticks at the French National Institute for Agricultural Research. A tick might even wait years between feedings. In the meantime, it must subsist entirely on its previous blood meal...

When a tick starts to feed, it doesn’t suck blood out of blood vessels. Instead, it secretes enzymes in its saliva that destroy a small ring of host tissue. This creates a “feeding cavity,” which Ribeiro likens to a “lake of blood.” “The tick sucks blood from that lake,” he says. For this strategy to work though, ticks also need to make proteins that prevent blood from clotting, as it normally wants to do in an injury site. Over the course of days, a host’s body will try to heal the wound by sending cells that make collagen. Normally, this would allow the wound to scar over, but tick saliva has molecules to counteract this, too...

To start, ticks secrete molecular “mops,” which bind to and neutralize histamine. Histamine is best known for causing itching and redness, but it also plays an important role in opening up blood vessels to allow immune cells to get to a site of injury. Tick saliva prevents this, so tick bites don’t itch and immune cells can’t get to the bite. Tick saliva also degrades pain-inducing molecular signals in a host. That’s why tick bites also do not hurt. Ticks then inject molecules that neutralize or evade a suite of white blood cells that would otherwise be eating or attacking an invader.

The exact cocktail of a tick’s saliva proteins changes every few hours, Ribeiro says. The thousands of proteins in its saliva are highly redundant in function, and the tick cycles through them as a way of circumventing a host’s immune system. Immune systems take time to recognize and react to a foreign tick protein, and this strategy simply doesn’t give a host’s cells a chance to do that. Suppose, Ribeiro says, “Monday a tick starts feeding on you and injecting the saliva in you.” By Friday, when your body can mount a proper immune response against those first proteins, “the tick has already changed the repertoire.”
More information at The Atlantic.

5 comments:

  1. Every tick bite I've had has itched unmercifully. And I live in tick country so I've thousands of bites. I laugh (silently) when someone says they got a bite "the other day". I average four or five a day in the summer.

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    1. Just curious - what general part of what country do you live in, and what type of work?

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  2. I live in central piedmont North Carolina. We have livestock and I clear lots of brush. I am planting some specimen trees and reestablishing wildlife habitat.

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    1. Wow. I wouldn't want to sit too close to you on the bus...

      :-)

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  3. I live in an area w/ lymes. I've been bitten several times. this wasn't intended to rhyme. ...with high treatment expense, a defense trick, is burning the bites with incense sticks. (...eh)

    See it doesn't quite rhyme but it works (if you have a better one please post it).

    A hot nail heated on the stove works too. It caramelizes the various proteins that cause allergic reactions and kills any lymes bacteria in the immediate vicinity (like 1/8 of an inch). It has to be done before they get established: within a few minutes of poking their head in. Yes it hurts and it'll leave a scar but it'll do that anyhow and there'll be no allergic reaction if you let it cook till there's a white spot on your skin about 3/16 of an inch across. (ouch)

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