Immunity; asymmetric cell division (Introduction)

by David Turell @, Monday, April 11, 2016, 19:02 (2908 days ago) @ David Turell

In immunity T cells play a very important role. There are two types of T cells: those that attack immediately and others that memorize attacks for future defense:-http://medicalxpress.com/news/2016-04-reveal-immune-cells.html-"Asymmetric cell division generates two types of cells with distinct properties. This type of cell division is essential for producing various cell types and plays an important role in development. Rather than producing two identical daughter cells, the cells undergoing asymmetric division produce daughter cells that are fated for vastly different roles. In the case of activated T cells, researchers knew that one daughter cell became the rapidly dividing effector T cells that launch the immediate attack on infectious agents and other threats. The other daughter cell became the slowly dividing memory T cells that function like sentries to provide long-term protection against recurring threats. Until now, the mechanism underlying the process was unknown.-***-"'Our study shows that the way in which the regulatory protein c-Myc distributes during asymmetric cell division directly influences the fate and roles of activated T cells," said corresponding author Douglas Green, Ph.D., St. Jude Department of Immunology chair. "We also show how this asymmetry is established and sustained."-"The researchers worked with cells growing in the laboratory and in mice. Scientists showed that during asymmetric cell division of activated T cells, high levels of c-Myc accumulated in one daughter cell. There, c-Myc functioned like a shot of caffeine to launch and sustain the rapid proliferation of effector T cells, including those in mice infected with the influenza virus. In contrast, the daughter cells with low levels of c-Myc functioned like memory T cells, proliferating to mount an immune response a month later when mice were again exposed to the virus.-"Researchers also identified the metabolic and signaling pathways that serve as a positive feedback loop to sustain the high levels of c-Myc that effector T-cells require to maintain their identities and function. The scientists showed that disrupting certain components of the system disturbed c-Myc production, which altered the fate of T cells and caused effector T cells to operate like memory T cells.-***-"c-Myc is an important transcription factor that regulates expression of a variety of genes and plays a pivotal role in cell growth, differentiation and death via apoptosis (programmed cell death). Excessive or inappropriate production of c-Myc is a hallmark of a wide variety of cancers. Previous research from Green and his colleagues showed that c-Myc also drives metabolic changes following T cell activation. The metabolic reprogramming fuels proliferation of effector T cells. "Activated T cells divide every four to six hours. There is no other cell in adults that can divide that fast, not even cancer cells," Green explained."-Comment: If one looks at purposeful development, one wonders how communities of cells knew to pick out this particular regulatory protein and all of the regulatory feed-back loop proteins that control the level of c-Myc. As Prof. Tour points out, the complexity of evolutionary advancement is mind-boggling, but perhaps not for a certain mind..


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