SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4366286704> ?p ?o ?g. }

Showing items 1 to 100 of ±164 with 100 items per page.

W4366286704 endingPage "7403" @default.
W4366286704 startingPage "7403" @default.
W4366286704 abstract "Human mitochondria contain a circular genome that encodes 13 subunits of the oxidative phosphorylation system. In addition to their role as powerhouses of the cells, mitochondria are also involved in innate immunity as the mitochondrial genome generates long double-stranded RNAs (dsRNAs) that can activate the dsRNA-sensing pattern recognition receptors. Recent evidence shows that these mitochondrial dsRNAs (mt-dsRNAs) are closely associated with the pathogenesis of human diseases that accompany inflammation and aberrant immune activation, such as Huntington’s disease, osteoarthritis, and autoimmune Sjögren’s syndrome. Yet, small chemicals that can protect cells from a mt-dsRNA-mediated immune response remain largely unexplored. Here, we investigate the potential of resveratrol (RES), a plant-derived polyphenol with antioxidant properties, on suppressing mt-dsRNA-mediated immune activation. We show that RES can revert the downstream response to immunogenic stressors that elevate mitochondrial RNA expressions, such as stimulation by exogenous dsRNAs or inhibition of ATP synthase. Through high-throughput sequencing, we find that RES can regulate mt-dsRNA expression, interferon response, and other cellular responses induced by these stressors. Notably, RES treatment fails to counter the effect of an endoplasmic reticulum stressor that does not affect the expression of mitochondrial RNAs. Overall, our study demonstrates the potential usage of RES to alleviate the mt-dsRNA-mediated immunogenic stress response." @default.
W4366286704 created "2023-04-20" @default.
W4366286704 creator A5002448349 @default.
W4366286704 creator A5014240047 @default.
W4366286704 creator A5017364498 @default.
W4366286704 creator A5031393194 @default.
W4366286704 creator A5044138731 @default.
W4366286704 creator A5050514444 @default.
W4366286704 date "2023-04-17" @default.
W4366286704 modified "2023-10-18" @default.
W4366286704 title "Resveratrol Attenuates the Mitochondrial RNA-Mediated Cellular Response to Immunogenic Stress" @default.
W4366286704 cites W1490055743 @default.
W4366286704 cites W15333016 @default.
W4366286704 cites W1801560648 @default.
W4366286704 cites W1859082030 @default.
W4366286704 cites W1964986597 @default.
W4366286704 cites W1972779889 @default.
W4366286704 cites W1974311748 @default.
W4366286704 cites W1980496649 @default.
W4366286704 cites W1983495786 @default.
W4366286704 cites W1987779112 @default.
W4366286704 cites W1990579890 @default.
W4366286704 cites W1991474602 @default.
W4366286704 cites W1997849655 @default.
W4366286704 cites W2001501946 @default.
W4366286704 cites W2010519395 @default.
W4366286704 cites W2013130286 @default.
W4366286704 cites W2020040871 @default.
W4366286704 cites W2021469759 @default.
W4366286704 cites W2028106143 @default.
W4366286704 cites W2033448006 @default.
W4366286704 cites W2037869037 @default.
W4366286704 cites W2040117188 @default.
W4366286704 cites W2045085416 @default.
W4366286704 cites W2046678117 @default.
W4366286704 cites W2055340082 @default.
W4366286704 cites W2058142015 @default.
W4366286704 cites W2059795667 @default.
W4366286704 cites W2064230441 @default.
W4366286704 cites W2069037616 @default.
W4366286704 cites W2069748048 @default.
W4366286704 cites W2072502632 @default.
W4366286704 cites W2078575160 @default.
W4366286704 cites W2082632613 @default.
W4366286704 cites W2083821543 @default.
W4366286704 cites W2088071723 @default.
W4366286704 cites W2092800155 @default.
W4366286704 cites W2097301420 @default.
W4366286704 cites W2099649427 @default.
W4366286704 cites W2104005232 @default.
W4366286704 cites W2104999225 @default.
W4366286704 cites W2111921130 @default.
W4366286704 cites W2117499294 @default.
W4366286704 cites W2133897047 @default.
W4366286704 cites W2146887970 @default.
W4366286704 cites W2153059926 @default.
W4366286704 cites W2169232755 @default.
W4366286704 cites W2169456326 @default.
W4366286704 cites W2169589032 @default.
W4366286704 cites W2170819005 @default.
W4366286704 cites W2176461640 @default.
W4366286704 cites W2179438025 @default.
W4366286704 cites W2277742836 @default.
W4366286704 cites W2331628193 @default.
W4366286704 cites W2396708142 @default.
W4366286704 cites W2511085375 @default.
W4366286704 cites W2530157596 @default.
W4366286704 cites W2567103208 @default.
W4366286704 cites W2593652049 @default.
W4366286704 cites W2596381798 @default.
W4366286704 cites W2626267614 @default.
W4366286704 cites W2734635583 @default.
W4366286704 cites W2774356813 @default.
W4366286704 cites W2811286571 @default.
W4366286704 cites W2883018577 @default.
W4366286704 cites W2889300844 @default.
W4366286704 cites W2964849163 @default.
W4366286704 cites W2973265448 @default.
W4366286704 cites W2995946562 @default.
W4366286704 cites W3037477656 @default.
W4366286704 cites W3045052464 @default.
W4366286704 cites W3155937532 @default.
W4366286704 cites W3176496431 @default.
W4366286704 cites W3192075866 @default.
W4366286704 cites W4211098639 @default.
W4366286704 cites W4214642462 @default.
W4366286704 cites W4214821673 @default.
W4366286704 cites W4223592293 @default.
W4366286704 cites W4290775428 @default.
W4366286704 cites W4292572949 @default.
W4366286704 cites W4296046266 @default.
W4366286704 cites W4297375516 @default.
W4366286704 cites W4307263140 @default.
W4366286704 cites W4313557101 @default.
W4366286704 doi "https://doi.org/10.3390/ijms24087403" @default.
W4366286704 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37108567" @default.
W4366286704 hasPublicationYear "2023" @default.
W4366286704 type Work @default.