In cell biology, a lymphokine-activated killer cell (also known as a LAK cell) is a white blood cell that has been stimulated to kill tumor cells. If lymphocytes are cultured in the presence of Interleukin 2, it results in the development of effector cells which are cytotoxic to tumor cells.
Video Lymphokine-activated killer cell
Mechanism
It has been shown that lymphocytes, when exposed to Interleukin 2, are capable of lysing fresh, non-cultured cancer cells, both primary and metastatic. LAK cells respond to these lymphokines, particularly IL-2, by lysing tumor cells that were already known to be resistant to NK cell activity.
The mechanism of LAK cells is distinctive from that of natural killer cells because they can lyse cells that NK cells cannot. LAK cells are also capable of acting against cells that do not display the major histocompatibility complex, as has been shown by the ability to cause lysis in non-immunogenic, allogeneic and syngeneic tumors. LAK cells are specific to tumor cells and do not display activity against normal cells.
Maps Lymphokine-activated killer cell
Cancer Treatment
LAK cells, along with the administration of IL-2 have been experimentally used to treat cancer in mice and humans, but there is very high toxicity with this treatment - Severe fluid retention was the major side effect of therapy, although all side effects resolved after interleukin-2 administration was stopped.
Notes and references
External links
- Lymphokine-Activated Killer Cells at the US National Library of Medicine Medical Subject Headings (MeSH)
Source of the article : Wikipedia
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