๐๐ญ๐ฎ๐๐ฒ ๐ฎ๐ง๐ฏ๐๐ข๐ฅ๐ฌ ๐ง๐๐ฎ๐ซ๐๐ฅ ๐ฉ๐๐ญ๐ก๐ฐ๐๐ฒ ๐ฉ๐ซ๐จ๐ฆ๐จ๐ญ๐ข๐ง๐ ๐ซ๐๐ ๐๐ง๐๐ซ๐๐ญ๐ข๐จ๐ง ๐๐๐ญ๐๐ซ ๐ญ๐ซ๐๐ฎ๐ฆ๐๐ญ๐ข๐ ๐ข๐ง๐ฃ๐ฎ๐ซ๐ข๐๐ฌ
๐๐ฉ๐ช๐๐๐๐จ ๐๐ญ๐ฅ๐ก๐ค๐ง๐๐ฃ๐ ๐ฉ๐๐ ๐ฃ๐๐ช๐ง๐๐ก ๐ฅ๐ง๐ค๐๐๐จ๐จ๐๐จ ๐๐ฃ๐ซ๐ค๐ก๐ซ๐๐ ๐๐ฃ ๐๐๐ก๐ก ๐ง๐๐๐๐ฃ๐๐ง๐๐ฉ๐๐ค๐ฃ ๐๐ง๐ ๐ค๐ ๐๐ง๐ช๐๐๐๐ก ๐๐ข๐ฅ๐ค๐ง๐ฉ๐๐ฃ๐๐, ๐๐จ ๐ฉ๐๐๐ฎ ๐๐ค๐ช๐ก๐ ๐ฅ๐๐ซ๐ ๐ฉ๐๐ ๐ฌ๐๐ฎ ๐ฉ๐ค๐ฌ๐๐ง๐๐จ ๐ฉ๐๐ ๐๐๐ซ๐๐ก๐ค๐ฅ๐ข๐๐ฃ๐ฉ ๐ค๐ ๐ข๐ค๐ง๐ ๐๐๐๐๐๐ฉ๐๐ซ๐ ๐ฉ๐ง๐๐๐ฉ๐ข๐๐ฃ๐ฉ๐จ ๐๐ค๐ง ๐ข๐๐ฃ๐ฎ ๐ฅ๐๐ฉ๐๐ค๐ก๐ค๐๐๐๐จ ๐๐จ๐จ๐ค๐๐๐๐ฉ๐๐ ๐ฌ๐๐ฉ๐ ๐ฉ๐๐ ๐ข๐ช๐ฉ๐๐ฉ๐๐ค๐ฃ๐จ ๐ค๐ง ๐๐๐ฉ๐๐ง๐๐ค๐ง๐๐ฉ๐๐ค๐ฃ ๐ค๐ ๐๐๐ก๐ก๐จ. ๐๐๐๐ง๐ค๐๐ก๐๐, ๐ฉ๐๐ ๐๐ง๐๐๐ฃโ๐จ ๐ง๐๐จ๐๐๐๐ฃ๐ฉ ๐๐ข๐ข๐ช๐ฃ๐ ๐๐๐ก๐ก๐จ, ๐๐๐๐ค๐ข๐ ๐๐๐ฉ๐๐ซ๐ ๐๐ฃ ๐ง๐๐จ๐ฅ๐ค๐ฃ๐จ๐ ๐ฉ๐ค ๐ฅ๐๐ฉ๐๐ค๐ก๐ค๐๐๐๐จ, ๐จ๐ค๐ข๐๐ฉ๐๐ข๐๐จ ๐ก๐๐๐๐๐ฃ๐ ๐ฉ๐ค ๐๐๐ง๐ค๐ฃ๐๐ ๐๐ฃ๐๐ก๐๐ข๐ข๐๐ฉ๐๐ค๐ฃ ๐๐ฃ๐ ๐ฉ๐๐ ๐จ๐๐๐ง๐ง๐๐ฃ๐ ๐ค๐ ๐ฉ๐๐จ๐จ๐ช๐.
Studies exploring the neural processes involved in cell regeneration are of crucial importance, as they could pave the way towards the development of more effective treatments for many pathologies associated with the mutations or deterioration of cells. Microglia, the brainโs resident immune cells, become active in response to pathologies, sometimes leading to chronic inflammation and the scarring of tissue.
Cell regeneration mechanisms thus regulate the reactivity of different glial cells, including microglia, preventing further damage and promoting recovery. While many past studies have explored the processes involved in inflammation, many questions about how the brain can successfully recover after injuries or pathologies remain unanswered.
Researchers at LMU Munich, Helmholtz Zentrum Munich, Johannes Gutenberg-Universitรคt (JGU), and other institutes in Germany have recently carried out a study on zebrafish aimed at better understanding the processes underpinning brain regeneration in both animals and humans. Their findings, published in Nature Neuroscience, unveiled a microglial state characterized by the accumulation of lipid droplets and TDP-43+, a RNA-binding protein, which delayed or prevented post-injury brain regeneration.
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