Immune Cells Squeeze Through Cellular Barriers

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Immune cells, specifically white blood cells or leukocytes, can migrate through cellular barriers such as the endothelial lining of blood vessels and bowel epithelium. This process, known as Trans-Endothelial cell Migration (TEM) or diapedesis, allows leukocytes to move from the bloodstream to sites of injury or infection without compromising the integrity of the blood vessel. The mechanisms by which these cells navigate through tight junctions and between endothelial cells have been a topic of ongoing research and debate among biologists and immunologists. Understanding these processes is crucial for insights into inflammation and immune response.
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Our immune cells are able to squeeze themselves through cellular barriers such as the lining of blood vessels and bowel epithelium.

I am wondering: how do they do that, exactly which cells do it, and are they also able to go through tight junctions?
 
Biology news on Phys.org
"NEW YORK, N.Y. -- Under normal conditions white blood cells, or leukocytes, circulate in the blood stream waiting to be called by damaged tissue to the site of injury or infection. Movement of the leukocytes into the damaged tissue from the blood requires the cells to squeeze between the endothelial cells that line the blood vessel walls. This rapid process is called Trans-Endothelial cell Migration (TEM), or diapedesis, and leads to the normal inflammation of the tissue. However the white blood cell must migrate through the endothelial cells of the vessel wall without jeopardizing the integrity of the blood vessel. Just how this is accomplished has long been a source of debate among biologists and immunologists."

http://www.news.cornell.edu/Chronicle/03/4.3.03/Weill-recycle_cells.html
 
Last edited by a moderator:
Originally posted by Adrian
Just how this is accomplished has long been a source of debate among biologists and immunologists."
so I asked the right question, let me take a look at the link..
 

Thread 'Here comes COVID-19 version BA.2, BA.4, BA.5,...'

Popular article referring to the BA.2 variant: Popular article: (many words, little data) https://www.cnn.com/2022/02/17/health/ba-2-covid-severity/index.html Preprint article referring to the BA.2 variant: Preprint article: (At 52 pages, too many words!) https://www.biorxiv.org/content/10.1101/2022.02.14.480335v1.full.pdf [edited 1hr. after posting: Added preprint Abstract] Cheers, Tom
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