Membranes Are Saturated By Beta-Blockers

[Clyde]

Lifelong treatment with atenolol decreases membrane fatty acid unsaturation and oxidative stress in heart and skeletal muscle mitochondria and improves immunity and behavior, without changing mice longevity​

Abstract​

The membrane fatty acid unsaturation hypothesis of aging and longevity is experimentally tested for the first time in mammals. Lifelong treatment of mice with the β1-blocker atenolol increased the amount of the extracellular-signal-regulated kinase signaling protein and successfully decreased one of the two traits appropriately correlating with animal longevity, the membrane fatty acid unsaturation degree of cardiac and skeletal muscle mitochondria, changing their lipid profile toward that present in much more longer-lived mammals. This was mainly due to decreases in 22:6n-3 and increases in 18:1n-9 fatty acids. The atenolol treatment also lowered visceral adiposity (by 24%), decreased mitochondrial protein oxidative, glycoxidative, and lipoxidative damage in both organs, and lowered oxidative damage in heart mitochondrial DNA. Atenolol also improved various immune (chemotaxis and natural killer activities) and behavioral functions (equilibrium, motor coordination, and muscular vigor). It also totally or partially prevented the aging-related detrimental changes observed in mitochondrial membrane unsaturation, protein oxidative modifications, and immune and behavioral functions, without changing longevity. The controls reached 3.93 years of age, a substantially higher maximum longevity than the best previously described for this strain (3.0 years). Side effects of the drug could have masked a likely lowering of the endogenous aging rate induced by the decrease in membrane fatty acid unsaturation. We conclude that it is atenolol that failed to increase longevity, and likely not the decrease in membrane unsaturation induced by the drug.

 

[Jamsey]

Very cool. Points to adrenaline as a causative factor in aging related cell membrane unsaturation. Also, interesting that the treated animals had higher visceral adiposity, as adrenaline tends to be correlated with burning fat instead of the reality of it leading to higher adiposity or fat storage

 

[Elie]

Keep in mind though that many long-time users experience fatigue and other antimetabolic side effects with potential for heart failure

 

[Jamsey]

Very cool. Points to adrenaline as a causative factor in aging related cell membrane unsaturation. Also, interesting that the treated animals had higher visceral adiposity, as adrenaline tends to be correlated with burning fat instead of the reality of it leading to higher adiposity or fat storage

Wanted to comment to correct a mistake I made. I meant to say treated animals had lower visceral adiposity(24% lower).