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[malbecman]

 

Looks potentially useful for those trying rapamycin (although I've not looked at the doses involved).  It does say that the life extension of met + rap looks to be the same.

 

 

 

Aging (Albany NY). 2018 Mar 22. doi: 10.18632/aging.101401. [Epub ahead of print]

Metformin reduces glucose intolerance caused by rapamycin treatment in genetically heterogeneous female mice.

Weiss R^1,2, Fernandez E^1,2, Liu Y², Strong R^1,2,3, Salmon AB^1,2,4.

Author information

Abstract

The use of rapamycin to extend lifespan and delay age-related disease in mice is well-established despite its potential to impair glucose metabolism which is driven partially due to increased hepatic gluconeogenesis. We tested whether a combination therapeutic approach using rapamycin and metformin could diminish some of the known metabolic defects caused by rapamycin treatment in mice. In genetically heterogeneous HET3 mice, we found that chronic administration of encapsulated rapamycin by diet caused a measurable defect in glucose metabolism in both male and female mice as early as 1 month after treatment. In female mice, this defect was alleviated over time by simultaneous treatment with metformin, also by diet, such that females treated with both drugs where indistinguishable from control mice during glucose tolerance tests. While rapamycin-mediated glucose intolerance was unaffected by metformin in males, we found metformin prevented rapamycin-mediated reduction in insulin and leptin concentrations following 9 months of co-treatment. Recently, the Interventions Testing Program showed that mice treated with metformin and rapamycin live at least as long as those treated with rapamycin alone. Together, our data provide compelling evidence that the pro-longevity effects of rapamycin can be uncoupled from its detrimental effects on metabolism through combined therapeutic approaches.

KEYWORDS:

AMPK; adiponectin; gluconeogenesis; insulin; interventions; leptin; mTOR

PMID: 29579736

[RWhigham]

Looks potentially useful for those trying rapamycin (although I've not looked at the doses involved).  It does say that the life extension of met + rap looks to be the same.

 

The mice in this studt had rapamycin in their food and ate it every day--that does not apply to life extensionists. It does apply to anti-rejection patients on rapamycin, showing they should take metformin.

 

It happens that metformin is also recommended for life extensionists with rapamycin, because metformin enhances rapamycin to slow aging. In  From rapalogs to anti-aging formula  Blagosklonny discusses

• Metformin
• Inhibitors of Angiotensin II at half normal therapeutic dose - Dr Green recommends candesartan
• Aspirin
• Statins - Dr Green tried a statin and discontinued it
• Beta blocker (propranolol) -  propranolol blocks thyroid T3 in liver -> very high LDL-C with long dwell time -> oxLDL -> deadly
• PDE5 inhibitors (cialis is best) - cialis is very expensive, good if you can afford it.  Horny Goat Weed is a poor man's PDE5 inhibitor
• Doxycycline - lots of side-effects. Google "Doxycycline long term use". Does not look attractive to me.
• Melatonin - a mouse study found melatonin regenerated thymus & spleen in old mice. The human equivalent dose is 20 mg/d
• Intermittent fasting  - lowers thyroid T3 -> slows metabolism  (same effect as CR with adequate nutrition)

Edited by RWhigham, 09 April 2018 - 12:10 AM.