Lipotoxicity contributes to endothelial dysfunction: A focus on the contribution from ceramide

Symons, J. David; Abel, E. Dale

doi:10.1007/s11154-012-9235-3

Cited by 88 publications

(81 citation statements)

References 72 publications

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“…Fat deposits in such ectopic tissues are unhealthy and can initiate tissue inflammation, endoplasmic reticulum (ER) stress, and endothelial dysfunction, accelerating the development of obesityassociated pathologies, such as insulin resistance and type 2 diabetes (T2D) (Hotamisligil et al, 1993(Hotamisligil et al, , 1996Ozcan et al, 2004). In line with this proposed model of lipotoxicity, ectopic accumulation of reactive lipid species such as diacylglycerol, free fatty acids, free cholesterol, and ceramides have all been demonstrated to impair systems metabolism through local tissue inflammation and induction of ER stress (Unger, 2002;Virtue and Vidal-Puig, 2008;Symons and Abel, 2013;Contreras et al, 2014).…”

Section: Introductionmentioning

confidence: 94%

Anti-Obesity Therapy: from Rainbow Pills to Polyagonists

et al. 2018

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Section: Introductionmentioning

confidence: 94%

Anti-Obesity Therapy: from Rainbow Pills to Polyagonists

et al. 2018

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“…Treatments targeting ceramides may be potentially very effective for preventing or treating these conditions (Mielke et al ., 2015). For example, elevated plasma ceramides cause vascular endothelial dysfunction by promoting endothelial cell growth arrest, oxidative stress, senescence and death, disrupting insulin signaling and increasing inflammation (Zhang et al ., 2012; Symons & Abel, 2013). Perhaps through these same mechanisms, ceramides may contribute to the early stages of atherosclerosis (Ichi et al ., 2006; Bismuth et al ., 2008) and the accumulation of ceramide in the myocardium may cause cardiac dysfunction in obese and diabetic individuals, even in the absence of hypertension and myocardial ischemia (Park & Goldberg, 2012).…”

Section: Introductionmentioning

confidence: 99%

Circulating ceramides are inversely associated with cardiorespiratory fitness in participants aged 54–96 years from the Baltimore Longitudinal Study of Aging

Fabbri

Simonsick

et al. 2016

Aging Cell

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SummaryCardiorespiratory fitness (VO 2 peak) declines with age and is an independent risk factor for morbidity and mortality in older adults. Identifying biomarkers of low fitness may provide insight for why some individuals experience an accelerated decline of aerobic capacity and may serve as clinically valuable prognostic indicators of cardiovascular health. We investigated the relationship between circulating ceramides and VO 2 peak in 443 men and women (mean age of 69) enrolled in the Baltimore Longitudinal Study of Aging (BLSA). Individual species of ceramide were quantified by HPLC–tandem mass spectrometry. VO 2 peak was measured by a graded treadmill test. We applied multiple regression models to test the associations between ceramide species and VO 2 peak, while adjusting for age, sex, blood pressure, serum LDL, HDL, triglycerides, and other covariates. We found that higher levels of circulating C18:0, C20:0, C24:1 ceramides and C20:0 dihydroceramides were strongly associated with lower aerobic capacity (P < 0.001, P < 0.001, P = 0.018, and P < 0.001, respectively). The associations held true for both sexes (with men having a stronger association than women, P value for sex interaction <0.05) and were unchanged after adjusting for confounders and multiple comparison correction. Interestingly, no significant association was found for C16:0, C22:0, C24:0, C26:0, and C22:1 ceramide species, C24:0 dihydroceramide, or total ceramides. Our analysis reveals that specific long‐chain ceramides strongly associate with low cardiovascular fitness in older adults and may be implicated in the pathogenesis of low fitness with aging. Longitudinal studies are needed to further validate these associations and investigate the relationship between ceramides and health outcomes.

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“…Эффекты адипонек-тина опосредуются через их потенцирование дей-ствий инсулина, повышения образования NO, стиму-лирование синтеза простагландинов через ЦОГ-2, и активацию аденозинмонофосфата, который также активирует протеинкиназу и подавляет α-адрено-рецептор-стимулированную гипертрофию КМЦ [26]. Адипонектин регулирует тканевой уровень церами-дов путем активации церамидазы, которая гидроли-зует церамид [27].…”

Section: нейрогуморальные механизмы развитияunclassified

“…Лептин сти-мулирует сердечную гипертрофию напрямую через сложные механизмы сигнализирования клеток и кос-венно через свое влияние на артериальное давление и СНС [26]. Лептин также оказывает отрицательное инотропное воздействие на кардиомиоциты через эндогенную продукцию NO.…”

Section: нейрогуморальные механизмы развитияunclassified