SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4296143781> ?p ?o ?g. }

Showing items 1 to 100 of ±181 with 100 items per page.

W4296143781 endingPage "102474" @default.
W4296143781 startingPage "102474" @default.
W4296143781 abstract "Diastolic dysfunction (DD) underlies heart failure with preserved ejection fraction (HFpEF), a clinical syndrome associated with aging that is becoming more prevalent. Despite extensive clinical studies, no effective treatment exists for HFpEF. Recent findings suggest that oxidative stress contributes to the pathophysiology of DD, but molecular mechanisms underpinning redox-sensitive cardiac remodeling in DD remain obscure. Using transgenic mice with mitochondria-targeted NOX4 overexpression (Nox4TG618) as a model, we demonstrate that NOX4-dependent mitochondrial oxidative stress induces DD in mice as measured by increased E/E′, isovolumic relaxation time, Tau Glantz and reduced dP/dtmin while EF is preserved. In Nox4TG618 mice, fragmentation of cardiomyocyte mitochondria, increased DRP1 phosphorylation, decreased expression of MFN2, and a higher percentage of apoptotic cells in the myocardium are associated with lower ATP-driven and maximal mitochondrial oxygen consumption rates, a decrease in respiratory reserve, and a decrease in citrate synthase and Complex I activities. Transgenic mice have an increased concentration of TGFβ and osteopontin in LV lysates, as well as MCP-1 in plasma, which correlates with a higher percentage of LV myocardial periostin- and ACTA2-positive cells compared with wild-type mice. Accordingly, the levels of ECM as measured by Picrosirius Red staining as well as interstitial deposition of collagen I are elevated in the myocardium of Nox4TG618 mice. The LV tissue of Nox4TG618 mice also exhibited increased ICaL current, calpain 2 expression, and altered/disrupted Z-disc structure. As it pertains to human pathology, similar changes were found in samples of LV from patients with DD. Finally, treatment with GKT137831, a specific NOX1 and NOX4 inhibitor, or overexpression of mCAT attenuated myocardial fibrosis and prevented DD in the Nox4TG618 mice. Together, our results indicate that mitochondrial oxidative stress contributes to DD by causing mitochondrial dysfunction, impaired mitochondrial dynamics, increased synthesis of pro-inflammatory and pro-fibrotic cytokines, activation of fibroblasts, and the accumulation of extracellular matrix, which leads to interstitial fibrosis and passive stiffness of the myocardium. Further, mitochondrial oxidative stress increases cardiomyocyte Ca2+ influx, which worsens CM relaxation and raises the LV filling pressure in conjunction with structural proteolytic damage." @default.
W4296143781 created "2022-09-17" @default.
W4296143781 creator A5001082023 @default.
W4296143781 creator A5001535755 @default.
W4296143781 creator A5003153429 @default.
W4296143781 creator A5012032007 @default.
W4296143781 creator A5019213719 @default.
W4296143781 creator A5048318737 @default.
W4296143781 creator A5061836929 @default.
W4296143781 creator A5066070606 @default.
W4296143781 creator A5078941242 @default.
W4296143781 creator A5086729202 @default.
W4296143781 creator A5087087326 @default.
W4296143781 creator A5090198091 @default.
W4296143781 date "2022-11-01" @default.
W4296143781 modified "2023-10-16" @default.
W4296143781 title "Mitochondrial oxidative stress contributes to diastolic dysfunction through impaired mitochondrial dynamics" @default.
W4296143781 cites W1191391069 @default.
W4296143781 cites W130195441 @default.
W4296143781 cites W1500939659 @default.
W4296143781 cites W1535736016 @default.
W4296143781 cites W1884222370 @default.
W4296143781 cites W1967380913 @default.
W4296143781 cites W1969227814 @default.
W4296143781 cites W1971723295 @default.
W4296143781 cites W1976196376 @default.
W4296143781 cites W1977551186 @default.
W4296143781 cites W1983102904 @default.
W4296143781 cites W2011348831 @default.
W4296143781 cites W2013340573 @default.
W4296143781 cites W2032234589 @default.
W4296143781 cites W2039924353 @default.
W4296143781 cites W2046616002 @default.
W4296143781 cites W2059487482 @default.
W4296143781 cites W2074989777 @default.
W4296143781 cites W2088820231 @default.
W4296143781 cites W2104954806 @default.
W4296143781 cites W2116381107 @default.
W4296143781 cites W2116562304 @default.
W4296143781 cites W2117205119 @default.
W4296143781 cites W2119252648 @default.
W4296143781 cites W2119880033 @default.
W4296143781 cites W2123801725 @default.
W4296143781 cites W2126295988 @default.
W4296143781 cites W2127730885 @default.
W4296143781 cites W2143410022 @default.
W4296143781 cites W2143588920 @default.
W4296143781 cites W2148030708 @default.
W4296143781 cites W2150888479 @default.
W4296143781 cites W2154395080 @default.
W4296143781 cites W2154818247 @default.
W4296143781 cites W2159511438 @default.
W4296143781 cites W2159551258 @default.
W4296143781 cites W2204863745 @default.
W4296143781 cites W2337529943 @default.
W4296143781 cites W2346053177 @default.
W4296143781 cites W2364050795 @default.
W4296143781 cites W2412094990 @default.
W4296143781 cites W2492002659 @default.
W4296143781 cites W2527933700 @default.
W4296143781 cites W2535378661 @default.
W4296143781 cites W2561472366 @default.
W4296143781 cites W2587823769 @default.
W4296143781 cites W2612219720 @default.
W4296143781 cites W2617530533 @default.
W4296143781 cites W2758507511 @default.
W4296143781 cites W2773684928 @default.
W4296143781 cites W2783025516 @default.
W4296143781 cites W2790757962 @default.
W4296143781 cites W2797279684 @default.
W4296143781 cites W2802543878 @default.
W4296143781 cites W2804520674 @default.
W4296143781 cites W2808838098 @default.
W4296143781 cites W2809961376 @default.
W4296143781 cites W2899738277 @default.
W4296143781 cites W2900845703 @default.
W4296143781 cites W2911567788 @default.
W4296143781 cites W2915285292 @default.
W4296143781 cites W2921482995 @default.
W4296143781 cites W2935956047 @default.
W4296143781 cites W2940988242 @default.
W4296143781 cites W2945334580 @default.
W4296143781 cites W2950438903 @default.
W4296143781 cites W2965980735 @default.
W4296143781 cites W2982662935 @default.
W4296143781 cites W2997118474 @default.
W4296143781 cites W3023329097 @default.
W4296143781 cites W3045337298 @default.
W4296143781 cites W3047565664 @default.
W4296143781 cites W3094845407 @default.
W4296143781 cites W3193297191 @default.
W4296143781 cites W4213263301 @default.
W4296143781 cites W4289857126 @default.
W4296143781 doi "https://doi.org/10.1016/j.redox.2022.102474" @default.
W4296143781 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36183542" @default.
W4296143781 hasPublicationYear "2022" @default.
W4296143781 type Work @default.
W4296143781 citedByCount "10" @default.