TY  - JOUR
A1  - Vignon-Zellweger, Nicolas
A1  - Relle, Katharina
A1  - Kienlen, Elodie
A1  - Alter, Markus L.
A1  - Seider, Patrick
A1  - Sharkovska, Juliya
A1  - Heiden, Susi
A1  - Kalk, Philipp
A1  - Schwab, Karima
A1  - Albrecht-Kuepper, Barbara
A1  - Theuring, Franz
A1  - Stasch, Johannes-Peter
A1  - Hocher, Berthold
T1  - Endothelin-1 overexpression restores diastolic function in eNOS knockout mice
JF  - Journal of hypertension
N2  - Background The cardiac nitric oxide and endothelin-1 (ET-1) systems are closely linked and play a critical role in cardiac physiology. The balance between both systems is often disturbed in cardiovascular diseases. To define the cardiac effect of excessive ET-1 in a status of nitric oxide deficiency, we compared left ventricular function and morphology in wild-type mice, ET-1 transgenic (ET+/+) mice, endothelial nitric oxide synthase knockout (eNOS(-/-)) mice, and ET(+/+)eNOS(-/-) mice.
 Methods and results eNOS(-/-) and ET(+/+)eNOS(-/-) mice developed high blood pressure compared with wild-type and ET+/+ mice. Left ventricular catheterization showed that eNOS(-/-) mice, but not ET(+/+)eNOS(-/-), developed diastolic dysfunction characterized by increased end-diastolic pressure and relaxation constant tau. To elucidate the causal molecular mechanisms driving the rescue of diastolic function in ET(+/+)eNOS(-/-) mice, the cardiac proteome was analyzed. Two-dimensional gel electrophoresis coupled to mass spectrometry offers an appropriate hypothesis-free approach. ET-1 overexpression on an eNOS(-/-) background led to an elevated abundance and change in posttranslational state of antioxidant enzymes (e. g., peroxiredoxin-6, glutathione S-transferase mu 2, and heat shock protein beta 7). In contrast to ET(+/+)eNOS(-/-) mice, eNOS(-/-) mice showed an elevated abundance of proteins responsible for sarcomere disassembly (e. g., cofilin-1 and cofilin-2). In ET(+/+)eNOS(-/-) mice, glycolysis was favored at the expense of fatty acid oxidation.
 Conclusion eNOS(-/-) mice developed diastolic dysfunction; this was rescued by ET-1 transgenic overexpression. This study furthermore suggests that cardiac ET-1 overexpression in case of eNOS deficiency causes specifically the regulation of proteins playing a role in oxidative stress, myocytes contractility, and energy metabolism.
KW  - cardiovascular diseases
KW  - endothelin
KW  - nitric oxide
Y1  - 2011
U6  - https://doi.org/10.1097/HJH.0b013e3283450770
SN  - 0263-6352
SN  - 1473-5598
VL  - 29
IS  - 5
SP  - 961
EP  - 970
PB  - Lippincott Williams & Wilkins
CY  - Philadelphia
ER  - 
TY  - JOUR
A1  - Eichelmann, Fabian
A1  - Sellem, Laury
A1  - Wittenbecher, Clemens
A1  - Jäger, Susanne
A1  - Kuxhaus, Olga
A1  - Prada, Marcela
A1  - Cuadrat, Rafael
A1  - Jackson, Kim G.
A1  - Lovegrove, Julie A.
A1  - Schulze, Matthias Bernd
T1  - Deep lipidomics in human plasma: cardiometabolic disease risk and effect of dietary fat modulation
JF  - Circulation
N2  - Background: In blood and tissues, dietary and endogenously generated fatty acids (FAs) occur in free form or as part of complex lipid molecules that collectively represent the lipidome of the respective tissue. We assessed associations of plasma lipids derived from high-resolution lipidomics with incident cardiometabolic diseases and subsequently tested if the identified risk-associated lipids were sensitive to dietary fat modification. Methods: The EPIC Potsdam cohort study (European Prospective Investigation into Cancer and Nutrition) comprises 27 548 participants recruited within an age range of 35 to 65 years from the general population around Potsdam, Germany. We generated 2 disease-specific case cohorts on the basis of a fixed random subsample (n=1262) and all respective cohort-wide identified incident primary cardiovascular disease (composite of fatal and nonfatal myocardial infarction and stroke; n=551) and type 2 diabetes (n=775) cases. We estimated the associations of baseline plasma concentrations of 282 class-specific FA abundances (calculated from 940 distinct molecular species across 15 lipid classes) with the outcomes in multivariable-adjusted Cox models. We tested the effect of an isoenergetic dietary fat modification on risk-associated lipids in the DIVAS randomized controlled trial (Dietary Intervention and Vascular Function; n=113). Participants consumed either a diet rich in saturated FAs (control), monounsaturated FAs, or a mixture of monounsaturated and n-6 polyunsaturated FAs for 16 weeks. Results: Sixty-nine lipids associated (false discovery rate<0.05) with at least 1 outcome (both, 8; only cardiovascular disease, 49; only type 2 diabetes, 12). In brief, several monoacylglycerols and FA16:0 and FA18:0 in diacylglycerols were associated with both outcomes; cholesteryl esters, free fatty acids, and sphingolipids were largely cardiovascular disease specific; and several (glycero)phospholipids were type 2 diabetes specific. In addition, 19 risk-associated lipids were affected (false discovery rate<0.05) by the diets rich in unsaturated dietary FAs compared with the saturated fat diet (17 in a direction consistent with a potential beneficial effect on long-term cardiometabolic risk). For example, the monounsaturated FA-rich diet decreased diacylglycerol(FA16:0) by 0.4 (95% CI, 0.5-0.3) SD units and increased triacylglycerol(FA22:1) by 0.5 (95% CI, 0.4-0.7) SD units. Conclusions: We identified several lipids associated with cardiometabolic disease risk. A subset was beneficially altered by a dietary fat intervention that supports the substitution of dietary saturated FAs with unsaturated FAs as a potential tool for primary disease prevention.
KW  - cardiovascular diseases
KW  - cholesterol
KW  - diabetes mellitus
KW  - type 2
KW  - diet
KW  - food
KW  - and nutrition
KW  - epidemiology
KW  - lipids
Y1  - 2022
U6  - https://doi.org/10.1161/CIRCULATIONAHA.121.056805
SN  - 0009-7322
SN  - 1524-4539
VL  - 146
IS  - 1
SP  - 21
EP  - 35
PB  - Lippincott Williams & Wilkins
CY  - Philadelphia
ER  -