Biology:Angiopellosis
Angiopellosis (cell extravasation) is the movement of cells out of the circulatory system, into the surrounding tissue. This process is specific to non-leukocytic cells; white blood cells (leukocytes) employ diapedesis for movement out of circulation. Angiopellosis was discovered by studying the way that stem cells reach damaged tissue when injected or infused into the circulatory system.[1] It has been found that circulating tumor cells (CTCs) possess this ability to exit blood vessels through angiopellosis during the process of metastasis.[2] Angiopellosis involves cell–cell recognition by the blood vessel wall (endothelial cells), and the active remodeling of the blood vessel to allow the cell to exit.[3]
Mechanism
Angiopellosis extravasation occurs as a means for cells that are not native to the circulation to exit. This includes adult stem cells that are injected intravenously for therapies. Cells that are normally found in circulation (i.e. blood cells) either extravasate through diapedesis (white blood cells), or do not extravasate and remain in circulation (red blood cells).
Angiopellosis was first observed by researchers studying the mechanism by which intravenously injected stem cells arrived at damaged tissue.[1] They discovered that the injected stem cells prompted the blood vessel walls to undergo extensive changes at the cellular level, resulting in the removal of the cell from within the vessel (lumen) into the surrounding tissue.[4]
Below is a brief summary of each of the steps currently thought to be involved in angiopellosis:
Upon entering the circulation, the cell (or clump of cells) travels through the circulatory system and eventually attaches to or becomes lodged within the blood vessel wall. This prompts a series of events that ends with the cell exiting circulation:
- The endothelial cells of the vessel recognize the cell through membrane-specific recognition. Recognition of the cell is vital, and is thought to be what prevents cells native to the circulation from randomly extravasating via angiopellosis.
- Once attached or lodged, the exiting cell(s) elicit activity from the endothelial cells of the blood vessel: the endothelial cells extend protrusions and actively remodel themselves around the exiting cells.[5]
- The exiting cell will then be either actively "pushed" from the inside of the blood vessel, or the vascular cells will remodel around the cell so that the cell no longer remains inside the vessel.[6]
Differences from Leukocyte Extravasation
The most notable difference is the physical mechanism the cells use to exit. During angiopellosis, the endothelial cells are the most active in the process, while in diapedesis it is the white blood cell that are the most physically active during the process.
During angiopellosis the extravasating cell remains round in morphology and only slightly changes shape as a result of the vasculature remodeling around it; during diapedesis, the white blood cells significantly change shape as they squeeze between the cells of the blood vessel wall.
Angiopellosis allows for the extravasation of multiple cells during a single event. The blood vessel will actively remodel around a cluster/group of cells and allow the cells to exit in a single event. Diapedesis only allows for a single white blood cell to migrate across the blood vessel wall at a given time. Although multiple white blood cells can leave simultaneously, they all elicit separate diapedesis extravasation events.
There are further temporal and molecular difference between the two processes.[7]
Stem cell infusion therapy
Stem cell infusion therapy is a type of infusion therapy in which stem cells are infused into the blood. These stem cells then exit the blood vessels and preferentially migrate to damaged tissue as part of the regeneration process.[8] Angiopellosis has been shown to be the mechanism by which stem cells extravasate and reach damaged tissue[9][10]
See also
References
- ↑ 1.0 1.1 Allen, Tyler A.; Gracieux, David; Talib, Maliha; Tokarz, Debra A.; Hensley, M. Taylor; Cores, Jhon; Vandergriff, Adam; Tang, Junnan et al. (January 2017). "Angiopellosis as an Alternative Mechanism of Cell Extravasation". Stem Cells 35 (1): 170–180. doi:10.1002/stem.2451. ISSN 1066-5099. PMID 27350343.
- ↑ Allen, Tyler A.; Asad, Dana; Amu, Emmanuel; Hensley, M. Taylor; Cores, Jhon; Vandergriff, Adam; Tang, Junnan; Dinh, Phuong-Uyen et al. (2019-09-01). "Circulating tumor cells exit circulation while maintaining multicellularity, augmenting metastatic potential". Journal of Cell Science 132 (17): jcs231563. doi:10.1242/jcs.231563. ISSN 0021-9533. PMID 31409692.
- ↑ "Researchers Show How Stem Cells Exit Bloodstream | Medicilon Inc". http://www.medicilon.com/201675185955-2/.
- ↑ "Stem Cell Finding May Improve Understanding of Metastatic Cancers". 2016-06-29. https://www.genengnews.com/topics/translational-medicine/stem-cell-finding-may-improve-understanding-of-metastatic-cancers/.
- ↑ Valenzuela Alvarez, Matias; Gutierrez, Luciana M.; Correa, Alejandro; Lazarowski, Alberto; Bolontrade, Marcela F. (January 2019). "Metastatic Niches and the Modulatory Contribution of Mesenchymal Stem Cells and Its Exosomes". International Journal of Molecular Sciences 20 (8): 1946. doi:10.3390/ijms20081946. PMID 31010037.
- ↑ Tang, Jun-Nan; Cores, Jhon; Huang, Ke; Cui, Xiao-Lin; Luo, Lan; Zhang, Jin-Ying; Li, Tao-Sheng; Qian, Li et al. (2018). "Concise Review: Is Cardiac Cell Therapy Dead? Embarrassing Trial Outcomes and New Directions for the Future". STEM CELLS Translational Medicine 7 (4): 354–359. doi:10.1002/sctm.17-0196. ISSN 2157-6580. PMID 29468830.
- ↑ Poltavtseva, R. A.; Poltavtsev, A. V.; Lutsenko, G. V.; Svirshchevskaya, E. V. (2019-03-01). "Myths, reality and future of mesenchymal stem cell therapy". Cell and Tissue Research 375 (3): 563–574. doi:10.1007/s00441-018-2961-4. ISSN 1432-0878. PMID 30456646.
- ↑ RegMedNet (2016-07-08). "Stem cell angiopellosis: the great escape". https://www.regmednet.com/users/3641-regmednet/posts/10363-stem-cell-angiopellosis-the-great-escape.
- ↑ "New Way Out: Researchers Show How Stem Cells Exit Bloodstream". https://news.ncsu.edu/2016/06/angiopellosis/.
- ↑ Tang, Junnan; Su, Teng; Huang, Ke; Dinh, Phuong-Uyen; Wang, Zegen; Vandergriff, Adam; Hensley, Michael T.; Cores, Jhon et al. (January 2018). "Targeted repair of heart injury by stem cells fused with platelet nanovesicles". Nature Biomedical Engineering 2 (1): 17–26. doi:10.1038/s41551-017-0182-x. ISSN 2157-846X. PMID 29862136.
Original source: https://en.wikipedia.org/wiki/Angiopellosis.
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