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Summary of Huberman Lab Podcast Episode: The Effects of Alcohol on Your Body, Brain & Health | Huberman Lab

Podcast: Huberman Lab
10 min. read

— Description —

Discover the damaging effects of chronic alcohol intake on the brain, including diminished inhibition and rewiring of neural circuitry Learn how abstinence can reverse some of these effects, but chronic users may still experience long-lasting consequences Find out how alcohol affects memory, sedation, and the risk of developing dependence

Uncover the link between alcohol consumption and increased stress and anxiety Plus, explore the connection between alcohol and breast cancer risk, as well as its impact on estrogen levels.

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The Effects of Alcohol on Your Body, Brain & Health | Huberman Lab

Table of contents

Key Takeaways

Introduction

Biochemistry Of Alcohol

What Happens To Our Brain When We Drink?

Effect Of Alcohol Consumption On Serotonin

Genetics & Alcohol

Gut-Liver-Brain Axis

Understanding Hangovers & Day After Drinking Symptoms

Brief Overview Of Alcohol Tolerance

Food & Alcohol Intake

Alcohol & Pregnancy

Alcohol & Hormones

Are There Any Benefits To Alcohol?

Resources

Key Takeaways

  • Chronic alcohol intake, even at low to moderate levels (1-2 drinks per day or 7-14 per week), can disrupt the brain
  • When people drink, the prefrontal cortex and top-down inhibition are diminished and impulsive behavior increases – this is true in the short term while drinking, and rewires circuitry outside of drinking events in chronic drinkers (even those who drink 1-2 nights per week, long term)
  • Damaging effects to the prefrontal cortex and rewiring of neural circuitry are reversible with 2-6 months of abstinence for most social/casual drinkers; chronic users will partially recover but likely feel long-lasting effects
  • When people drink there is a shutdown of the prefrontal cortex and circuits that control memory, then there’s a fork in the road: group 1 – people who feel sedated after a few drinks; group 2 – people who do not feel sedated after a few drinks (predisposition to alcoholism)
  • People who start drinking at a younger age (13-15) are more likely to develop dependence, regardless of the history of alcoholism in their family; people who delay drinking to early 20s are less likely to develop dependence even if there’s a family history
  • People who drink consistently (even in small amounts i.e., 1 per night) experience increases in cortisol release from adrenal glands when not drinking so feel more stress and more anxiety when not drinking
  • With increased alcohol tolerance, you get less and less of the feel good blip and more and more of the pain signaling (so behaviorally you drink more to try to activate those dopamine and serotonin molecules again)
  • The risk of breast cancer increases among women who drink – for every 10 grams of alcohol consumed per day, there’s a 4-13% increase in the risk of cancer (alcohol increases tumor growth & suppresses molecules that inhibit tumor growth)
  • Regular consumption of alcohol increases estrogen levels of males and females through aromatization

Introduction

  • Dr. Andrew Huberman, Ph.D. is a Professor of Neurobiology and Ophthalmology at Stanford University School of Medicine. His lab focuses on neural regeneration, neuroplasticity, and brain states such as stress, focus, fear, and optimal performance.
  • In this episode of the Huberman Lab podcast, Andrew Huberman takes a deep dive into all things related to alcohol, its consumption, its effects on the brain and body, alcoholism, and much more. He breaks down the physiological effects that drinking alcohol has on the brain and body at different levels of consumption and over time, genetic differences that predispose certain individuals to alcoholism, alcohol metabolism, and so much more in this must-listen episode.
  • Host: Andrew Huberman (@hubermanlab)

Biochemistry Of Alcohol

  • Alcohol is both water and fat-soluble – when you drink alcohol it can pass through all the cells and tissues of your body, including the blood-brain barrier (unlike most drugs & substances which attach to the surface of cells)
  • Three types of alcohol: (1) isopropyl; (2) methyl; (3) ethyl/ethanol – the only one fit for human consumption (though it’s still toxic)
  • Alcohol is metabolized in the liver (ethanol to acetyl aldehyde to acetate)
  • Alcohol is empty calories: the process of breaking down alcohol is energetically costly but it contains no nutritive value
  • Being drunk is a poison-induced disruption in neural circuitry caused by acetyl aldehyde as the alcohol is being metabolized
  • People with problematic drinking or chronic drinking tend to feel very good after drinking – occasional drinkers will have a briefer state of feeling good which quickly fades

What Happens To Our Brain When We Drink?

  • Some acetyl aldehyde and acetate make it across the blood-brain barrier
  • Slight suppression of neurons in the prefrontal cortex, the area responsible for thinking, planning, suppression of impulsive behavior
  • Alcohol has a very strong effect in suppressing the neural networks of memory formation and storage (that’s why we forget what happened when we drink)
  • High levels of alcohol consumption (12-24 drinks per week) absolutely cause degeneration of neurons (specifically the neocortex)
  • Low to moderate consumption (1-2 drinks per day; 7-14 drinks per week) is also linked to thinning of the neocortex
  • People who regularly drink 1-2 nights per week experience changes in the neural circuitry of the prefrontal cortex even when not drinking: this is because of an increase in the number of synapses in the connection that control habitual behavior and a reduction in synapses that control behavior
  • Neural circuits can be modified back to their original state with 2-6 months of abstinence in most casual/social drinkers; those with chronic substance abuse may have long-lasting effects
  • There is no evidence that 1-2 drinks a month or every few months (or longer) has an effect on neural circuitry

Effect Of Alcohol Consumption On Serotonin

  • Serotonin is involved in many of the circuits in the brain involved in mood, self-image, and how we see ourselves
  • When alcohol is converted to acetyl aldehyde it disrupts mood circuitry, making them hyperactive (early inhibition release) until it plummets, and energized mood is suppressed losing alertness and arousal
  • If increasing amounts of alcohol makes you (or someone around you) feel better and better without falling off, that person is a future alcoholic or has a strong predisposition to become one (the threshold is way higher than most people)
  • “Blackout drunk” – the activity of neurons in the hippocampus are shutoff so you can’t remember anything
  • Alcohol changes the relationship between the hypothalamus in the pituitary gland and adrenals which maintains balance in what you see as stressful – the level of cortisol is increased substantially in people who regularly drink

Genetics & Alcohol

  • The genes modified by chronic drinking fall along pathways related to the control of serotonin receptors, GABA receptors, and hypothalamic-pituitary axis (combined with the environment)
  • If you get very red when you drink, chances are you have low alcohol dehydrogenase and get a buildup of toxic effects without being able to metabolize
  • Alcoholism: there isn’t a single gene but if you have one or more relatives who are chronic abusers of alcohol, you are likely predisposed
  • People who start drinking at a younger age (13-15) are more likely to develop dependence, regardless of history of alcoholism in their family
  • If you have a genetic predisposition to alcoholism but delay the drinking age to around 21, the likelihood of alcohol use disorder and alcoholism drops

Gut-Liver-Brain Axis

  • Your gut runs from your throat to the end of your intestine
  • The gut and brain communicate via nerve cells (specifically Vagus nerve) and chemical signaling
  • The gut also communicates via chemical signaling to the liver
  • The liver also communicates to the brain via chemical and nerve signaling
  • Alcohol induces a disruption in the gut microbiome by indiscriminately killing bacteria and healthy gut microbiota, which may ultimately cause leaky gut
  • The metabolism of alcohol in the liver is pro-inflammatory (releasing inflammatory cytokines)
  • The disruption to major neural circuits causes inflammation of the brain and body and actually leads to the desire to drink more
  • Replenishing gut microbiota is promising to reduce inflammatory cytokines – 2-4 servings of low sugar fermented foods (kimchi, kefir, etc.)

Understanding Hangovers & Day After Drinking Symptoms

  • Sleep after even one drink is not the same quality as without alcohol– when alcohol is present in the bloodstream, the architecture of sleep is disrupted
  • Disrupted gut-microbiome
  • Headaches caused by vasoconstriction (alcohol induces vasodilation; when it wears off, it induces vasoconstriction)
    • Be careful taking NSAIDs after drinking – your liver is already taking a beating from the alcohol
  • Ingesting more alcohol will alleviate a hangover, but an even worse hangover will ensue – bad idea!
  • Deliberate cold exposure will increase epinephrine and may help with alcohol clearance in the brain and bloodstream
    • Important note: alcohol does lower core body temperature so be careful if you’ve been drinking because temperature regulation is off – don’t cold plunge while drinking
  • Alcohol is a diuretic so make sure you have plenty of electrolytes, even if you just had 1-2 drinks the night before (the night of drinking, have 1-2 glasses of water for every alcoholic beverage)
  • Your drink selection matters! And it’s not because of the sugar content, it’s the congeners (nitrates and other ingredients) – beer is least likely to cause a hangover; brandy is at the top of the list
    • Lowest to highest: beer – vodka – gin – white wine – whiskey – rum – red wine – brandy
  • There’s no magic cure for hangovers!

Brief Overview Of Alcohol Tolerance

  • Tolerance: reduced effects of alcohol with repeated exposure, mainly caused by neurotransmitters in the brain
  • When people start drinking, there’s an increase in dopamine and serotonin at the beginning of alcohol exposure
  • With increased tolerance, the negative effects of alcohol and feeling good are longer and more robust – but – there’s also a shrinking of the feel good blip that happens at the beginning

Food & Alcohol Intake

  • Alcohol moves into the bloodstream within minutes
  • If you eat something (with carbohydrates, fats, and protein) prior to drinking or while drinking, it will slow the absorption of alcohol into the bloodstream, so you won’t feel as drunk as fast – but this is not true if you eat after drinking
  • If you’re drunk and eat something, it won’t help blunt what you already drank but will blunt the effects of anything additional you drink after

Alcohol & Pregnancy

  • Don’t drink while pregnant – any amount, no matter what the internet says
  • Alcohol is a mutagen that has incredible potential to damage developing baby
  • The early postnatal brain is incredibly plastic
  • The risk of fetal alcohol syndrome (FAS) is real, and the amount of alcohol needed is unknown – the safest level during pregnancy is zero

Alcohol & Hormones

  • Alcohol promotes aromatases of androgens to estrogen
  • Accelerated or abnormal conversion of testosterone to estrogen can lead to gynecomastia, diminished sex drive, increased fat storage

Are There Any Benefits To Alcohol?

  • The truth about resveratrol (in red wine): the amount you’d need for any therapeutic effect is more than anyone should consume
  • The best amount of alcohol to drink is no alcohol
  • Alcohol increases cancer risk – taking folate and B12 may slightly help the formation of tumors (but won’t offset)
  • Alcohol exposure leads to decreases in testosterone over time (despite studies looking at acute exposure and slight increases)

Resources

  • Articles Mentioned
    • Associations between alcohol consumption and gray and white matter volumes in the UK Biobank (Nature Communications)
    • Gut Microbiota at the Intersection of Alcohol, Brain, and the Liver (Journal of Clinical Medicine)
    • Tolerance to alcohol: A critical yet understudied factor in alcohol addiction (Pharmacology Biochemistry and Behavior)
    • Associations Between Drinking and Cortical Thickness in Younger Adult Drinkers: Findings From the Human Connectome Project (Alcoholism: Clinical and Experimental Research)
    • Moderate Alcohol Consumption and the Risk of Breast Cancer (The New England Journal of Medicine)
    • Can alcohol promote the aromatization of androgens to estrogens? A review (Alcohol)
  • Additional Resources Discussed
    • Examine – Alcohol & Hangover

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