The Chemical Mind: Crash Course Psychology #3


BAHHHHHH! Did I scare you? What exactly happens when we get scared? How does our brain make our body react? Just what are Neurotransmitters? In this episode of Crash Course Psychology, Hank takes us to the simplest part of the complex system of our brains and nervous systems; The Neuron.


Transcript Provided by YouTube:

00:00
Say it’s late at night, you’re home alone drifting off to sleep, just, entering that
00:06
dream about Fritos, and then suddenly there’s a banging at the door!
00:09
Suddenly you’re wide awake and it feels like your heart’s gonna explode.
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You jump up ready to run out the back door, possibly grab a Phillips head screwdriver
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and stab it into the darkness until it sticks into something.
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Now whether it’s a Weeping Angel or your neighbor looking to borrow a can of beans, it doesn’t
00:23
really matter because when you heard that sudden noise, your startled brain released
00:28
an icy typhoon of chemicals.
00:30
And everything that’s now going through your mind, like your urge to flee, your urge to
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defend yourself, that internal debate about whether Weeping Angels are even real and “Woah!
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Where’s the cat?”
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All that?
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Is just a result of those chemicals.
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Our brains and our nervous systems and the substances they produce and are always bathed
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in are amazingly complex nuanced systems.
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And even though we’re always talking about our mental activities being somehow separate
00:53
from all the biological stuff going on in our bodies, in reality, the moods, ideas,
00:57
impulses, that flash through our minds are spurred by our biological condition.
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As psychologists like to say, “Everything psychological is biological.”
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So one way to understand how your mind works is to look at how the chemistry of your body
01:10
influences how you think, sense, and feel about the world around you.
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To do that, we begin at the simplest level, the system with the smallest parts, it’s all
01:20
about the neuron, baby.
01:26
[Intro]
01:29
Neurons, or nerve cells, are the building blocks that comprise our nervous systems.
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Neurons share the same basic makeup as our other cells, but they have electrochemical
01:39
mojo that lets them transmit messages to each other.
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Your brain alone is made up of billions of neurons, and to understand why we think or
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dream or do anything, you gotta first understand how these little transmitters work.
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You actually have several different types of neurons in your body, from ones that are
01:53
less than a millimeter long in your brain to ones that run the whole length of your
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leg!
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Yes, you have cells as long as your legs, which is nothing compared to the hundred and
02:03
fifty feet the nerve cells of some dinosaurs had to be, I’m getting off topic, sorry.
02:07
No matter how big a nerve is, they all have the same three basic parts: the soma, dendrites,
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and axon.
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The soma, or cell body, is basically the neuron’s life support; it contains all that necessary
02:19
cell action like the nucleus, DNA, mitochondria, ribosomes, and such.
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So, if the soma dies, the whole neuron goes with it.
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The dendrites, as bushy and branch-like as the trees they’re named after, receive messages
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and gossip from other cells.
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They’re the listeners, whispering what they hear back to the soma.
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The axon is the talker.
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This long, cable-like extension transmits electrical impulses from the cell body out
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to other neurons or glands or muscles.
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Whereas the dendrites are short and bushy, the axon fiber is long, and, depending on
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what type of neuron it is, is sometimes encased in a protective layer of fatty tissue, called
02:54
the myelin sheath.
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It’s almost like an insulated electrical wire, the myelin sheath speeds up the transmission
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of messages, and if it degrades, as it does with those affected with multiple sclerosis,
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those signals are degraded as well, eventually leading to lack of muscle control.
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Neurons transmit signals either when stimulated by sensory input or triggered by neighboring
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neurons.
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The dendrites pick up the signal and activate the neuron’s action potential, or firing impulse,
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that shoots an electrical charge down the axon to its terminals and towards the neighboring
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neurons.
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The contact points between neurons are called synapses.
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All those bushy little dendrites are decorated with synapses that almost but don’t quite
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touch the neighboring axon in the tiniest game of “I’m not touching you!” of all time.
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They’re less than a millionth of an inch apart.
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And that microscopic cleft is called the synaptic gap.
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So, when an action potential runs down to the end of an axon, it activates the chemical
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messengers that jump that tiny synaptic gap, flying like that little air kiss and landing
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on the receptor sites of the receiving neuron.
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Those messengers are neurotransmitters.
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Although neurotransmitters slide right into their intended receptors like a key into a
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lock, they don’t stay bonded to the receiving neuron.
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They just sort of pop out, having excited or inhibited the receiving neuron’s trigger,
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then the extras immediately get reabsorbed by the neuron that released them in the first
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place in a process called reuptake.
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Kinda like, “Here you go, oh, psych!”
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So neurons communicate with neurotransmitters which in turn cause motion and emotion; they
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help us move around, make jazz hands, learn, feel, remember, stay alert, get sleepy, and
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pretty much do everything we do.
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Some of them just make you feel good, like the endorphins we get flooded with after running
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ten miles or falling in love or eating a really good piece of pie.
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We’ve got over 100 different kinds of these brilliant neurotransmitters — some are excitatory
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and others are inhibitory, and all are good reminders that everything psychological is
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also biological.
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Excitatory neurotransmitters rev up the neuron, increasing the chances it will fire off an
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action potential.
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Norepinephrine is one you’re probably familiar with, it helps control alertness and arousal.
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Glutamate is another, involved in memory, but an over-supply of it can wig out the brain
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and cause seizures and migraines which is why some people are sensitive to all that
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MSG, or monosodium glutamate, in their Ramen.
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Inhibitory neurotransmitters on the other hand, chill neurons out, decreasing the likelihood
05:15
that the neuron will jump into action.
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GABA– gamma-aminobutyric acid– is a major inhibitory neurotransmitter, and you’ve probably
05:21
heard of serotonin which affects your mood and hunger and sleep.
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Low amounts of serotonin are linked to depression, and a certain class of antidepressants help
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raise serotonin levels in the brain.
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Some neurotransmitters like acetylcholine and dopamine play both sides and can both
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excite or inhibit neurons depending on what type of receptors they encounter.
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Acetylcholine enables muscle action and influences learning and memory; Alzheimer’s patients
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experience a deterioration of their acetylcholine producing neurons.
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Dopamine, meanwhile, is associated with learning, movement, and pleasurable emotions, and excessive
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amounts of it are linked to schizophrenia as well as addictive and impulsive behavior.
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So neurotransmitters are basically your nervous system’s couriers.
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But they aren’t the only chemical messengers delivering the news; they’ve got some competition
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brewing in the endocrine system.
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And if you’ve been through puberty, you know what I’m talking about: hormones.
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Like neurotransmitters, hormones act on the brain, and indeed some of them are chemically
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identical to certain neurotransmitters.
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Hormones affect our moods, arousal, and circadian rhythm, they regulate our metabolism, monitor
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our immune system, signal growth, and help with sexual reproduction.
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You could say that most of them boil down to the basics: attraction, appetite, and aggression.
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Whereas neurons and synapses flick on and off, sending messages with amazing speed,
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the endocrine system likes to take its time, delivering the body’s slow chemical communications
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through a set of glands that secrete hormones into the bloodstream where they’re ferried
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to other tissues, especially the brain.
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So while the nervous and endocrine systems are similar, in that they both produce chemicals
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destined to hit up certain receptors, they operate at very different speeds.
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It’s like, if the nervous system wants to get in touch with you, it sends you a text.
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But if the endocrine system has a message, it will like lick the stamp, and put it on,
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and write your address, and then a note and a pen on paper, and then fold it up and put
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and mail it to you with the Post Office.
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But fast isn’t always better, and your body will remember that letter longer than the
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text.
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Hormones, they linger.
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Which helps explain why it takes some time to simmer down after a moment of severe fright
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or anger.
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And our endocrine systems have a few important hormone brewing glands.
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We’ve got a pair of adrenal glands snuggled up against our kidneys that secrete adrenaline,
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that famous fight or flight hormone that jacks up your heart rate, blood pressure and blood
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sugar, giving you that tidal wave of energy preparing you to run like heck or punch that
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charging baboon in the throat; the pancreas sits right next to the adrenal gland and oozes
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insulin and glucagon hormones that monitor how you absorb sugar, your bodies main source
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of fuel.
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Your thyroid and parathyroid glands at the base of your throat secrete hormones that
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regulate your metabolism and monitor your body’s calcium levels; if you have testicles,
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they’re secreting your sex hormones like estrogen and testosterone, and if you’ve got ovaries,
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they’re doing that job.
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And all those glands are super important, but there is one gland that rules them all,
08:03
and in the darkness binds them: the pituitary gland.
08:05
Although it’s just a little pea-sized nugget hidden deep in the bunker of the brain, it
08:10
is the most influential gland in this system.
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It releases a vital growth hormone that spurs physical development and that love hormone,
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oxytocin, that promotes warm, fuzzy feelings of trust and social bonding.
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What really makes the pituitary the master gland is that its secretions boss around the
08:25
other endocrine glands, but even the pituitary has a master in the hypothalamus region of
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the brain, which we will talk more about next episode.
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So, AHHHHHHHHH! if I managed to scare you, sorry, but I’m illustrating a point.
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You have no control over being scared, but maybe now you do understand a little more
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clearly how your nervous and endocrine systems worked together to call the shots.
08:46
First, the sensory input from your eyes and ears went to your brain, the simplest bits
08:50
of your hypothalamus without even letting you analyze it and were like ahhhh, and then,
08:55
that ran down the chain of command from your pituitary to your adrenal glands, to the hormone
09:00
adrenaline, to the rest of your body and then back to your brain, which then realized that
09:04
I was just messing with you and told everybody to just calm down for once!
09:08
The whole deal is a feedback loop: your nervous system directs your endocrine system which
09:13
directs your nervous system, brain, gland, hormone, brain.
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And of course each of these systems is fantastically complex.
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Way more than we can get into here.
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So, in our next lesson, we’re gonna get all up in your brain, and delve deeper into the
09:25
different components of your nervous system, find out what your old brain is, and learn
09:30
about how much of your brain you actually use.
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In the meantime, thank you for watching this lesson in Crash Course Psychology which was
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brought to you by Zane Ice, who wants to say hi to his friend Harrison.
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Thank you, Zane.
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If you’d like to sponsor an episode and give your own shout-out, you can learn about that
09:45
and other perks available to our subbable subscribers, just go to subbable.com/crashcourse.
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This episode was written by Kathleen Yale, edited by Blake de Pastino, and our consultant
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is Dr. Ranjit Bhagwat.
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Our director and editor is Nicholas Jenkins, the script supervisor was Michael Aranda,
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who was also our sound designer, and the graphics team is Thought Cafe.


This post was previously published on YouTube.

Photo credit: Screenshot from video.