Rapamycin and Longevity: What the Research Really Says with Dr. Ben Bikman episode artwork

EPISODE · Sep 12, 2024 · 32 MIN

Rapamycin and Longevity: What the Research Really Says with Dr. Ben Bikman

from The Metabolic Classroom with Dr. Ben Bikman

In today’s episode of The Metabolic Classroom, Dr. Ben Bikman delivers a lecture focusing on the drug rapamycin and its impact on longevity.The primary discussion revolves around the role of the protein complex mTOR (mammalian target of rapamycin) in the body's aging process. While rapamycin is often touted as a drug that can inhibit mTOR and thereby promote longevity, Ben emphasizes that much of this belief is based on animal studies and lacks solid human evidence. The mTOR pathway is involved in cell growth and protein synthesis, particularly in muscle tissue, making its inhibition controversial when it comes to aging and muscle maintenance.Dr. Bikman highlights that some research suggests reducing mTOR activity by lowering protein intake might promote longevity. However, he pointed out that for older populations, higher protein consumption is correlated with reduced mortality, particularly from animal protein sources. This is especially significant when considering muscle mass, which has been consistently linked to longer lifespan. Inhibiting mTOR might impair muscle growth and maintenance, making rapamycin problematic for those aiming to preserve muscle health as they age.In addition to discussing the potential benefits of rapamycin, Ben underscores its negative side effects, including immune suppression, increased triglycerides (which elevate the risk of heart disease), and the inhibition of muscle protein synthesis. He also raises concerns about the drug’s ability to reduce testosterone levels and hinder reproductive health in both men and women. Given that reproduction is a key element of both evolutionary theory and many religious doctrines, Dr. Bikman questions the wisdom of using a drug that compromises reproductive function.Dr. Bikman concludes by connecting the role of insulin to mTOR activation. He argues that insulin has a much stronger effect on mTOR than dietary protein does, and prolonged elevated insulin levels, common in modern diets, keep mTOR constantly active. This chronic activation of mTOR may hinder longevity more than protein intake or rapamycin inhibition.Instead of relying on drugs like rapamycin, Ben suggests that reducing insulin levels through dietary interventions like fasting may be a more effective and natural way to manage mTOR activity and promote healthy aging.https://www.insuliniq.com My favorite meal-replacement shake: https://gethlth.com (discount: BEN10)My favorite electrolytes (and more): https://redmond.life (discount: BEN15)My favorite allulose source: https://rxsugar.com (discount: BEN20)References:Due to character length constraints, references are not posted here. However, for a complete list, we respond quickly. Please email: [email protected] with your request, and be sure to mention which classroom episode you are referring to.#Longevity #Rapamycin #AgingScience #mTOR #Healthspan #Autophagy #MuscleHealth #BenBikman #MetabolicHealth #HealthyAging #AntiAging #FastingBenefits #InsulinResistance #ImmuneHealth #ProteinSynthesis #HeartHealth #TestosteroneHealth #ReproductiveHealth #ScientificResearch #MetabolismMatters #BenBikman #DrBenBikman Hosted on Acast. See acast.com/privacy for more information.

In today’s episode of The Metabolic Classroom, Dr. Ben Bikman delivers a lecture focusing on the drug rapamycin and its impact on longevity.The primary discussion revolves around the role of the protein complex mTOR (mammalian target of rapamycin) in the body's aging process. While rapamycin is often touted as a drug that can inhibit mTOR and thereby promote longevity, Ben emphasizes that much of this belief is based on animal studies and lacks solid human evidence. The mTOR pathway is involved in cell growth and protein synthesis, particularly in muscle tissue, making its inhibition controversial when it comes to aging and muscle maintenance.Dr. Bikman highlights that some research suggests reducing mTOR activity by lowering protein intake might promote longevity. However, he pointed out that for older populations, higher protein consumption is correlated with reduced mortality, particularly from animal protein sources. This is especially significant when considering muscle mass, which has been consistently linked to longer lifespan. Inhibiting mTOR might impair muscle growth and maintenance, making rapamycin problematic for those aiming to preserve muscle health as they age.In addition to discussing the potential benefits of rapamycin, Ben underscores its negative side effects, including immune suppression, increased triglycerides (which elevate the risk of heart disease), and the inhibition of muscle protein synthesis. He also raises concerns about the drug’s ability to reduce testosterone levels and hinder reproductive health in both men and women. Given that reproduction is a key element of both evolutionary theory and many religious doctrines, Dr. Bikman questions the wisdom of using a drug that compromises reproductive function.Dr. Bikman concludes by connecting the role of insulin to mTOR activation. He argues that insulin has a much stronger effect on mTOR than dietary protein does, and prolonged elevated insulin levels, common in modern diets, keep mTOR constantly active. This chronic activation of mTOR may hinder longevity more than protein intake or rapamycin inhibition.Instead of relying on drugs like rapamycin, Ben suggests that reducing insulin levels through dietary interventions like fasting may be a more effective and natural way to manage mTOR activity and promote healthy aging.https://www.insuliniq.com My favorite meal-replacement shake: https://gethlth.com (discount: BEN10)My favorite electrolytes (and more): https://redmond.life (discount: BEN15)My favorite allulose source: https://rxsugar.com (discount: BEN20)References:Due to character length constraints, references are not posted here. However, for a complete list, we respond quickly. Please email: [email protected] with your request, and be sure to mention which classroom episode you are referring to.#Longevity #Rapamycin #AgingScience #mTOR #Healthspan #Autophagy #MuscleHealth #BenBikman #MetabolicHealth #HealthyAging #AntiAging #FastingBenefits #InsulinResistance #ImmuneHealth #ProteinSynthesis #HeartHealth #TestosteroneHealth #ReproductiveHealth #ScientificResearch #MetabolismMatters #BenBikman #DrBenBikman Hosted on Acast. See acast.com/privacy for more information.

NOW PLAYING

Rapamycin and Longevity: What the Research Really Says with Dr. Ben Bikman

0:00 32:00

No transcript for this episode yet

We transcribe on demand. Request one and we'll notify you when it's ready — usually under 10 minutes.

No similar episodes found.

No similar podcasts found.

Frequently Asked Questions

How long is this episode of The Metabolic Classroom with Dr. Ben Bikman?

This episode is 32 minutes long.

When was this The Metabolic Classroom with Dr. Ben Bikman episode published?

This episode was published on September 12, 2024.

What is this episode about?

In today’s episode of The Metabolic Classroom, Dr. Ben Bikman delivers a lecture focusing on the drug rapamycin and its impact on longevity.The primary discussion revolves around the role of the protein complex mTOR (mammalian target of rapamycin)...

Can I download this The Metabolic Classroom with Dr. Ben Bikman episode?

Yes, you can download this episode by clicking the download button on the episode player, or subscribe to the podcast in your preferred podcast app for automatic downloads.
URL copied to clipboard!