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Hello and welcome to "Sick Notes"
My name is Ed Hope, a junior doctor in the UK
And on this channel, we talk about medicine, the human body, hospitals,
all types of medical things and explain it in simple terms.
Over the last couple weeks, I've been looking at "Cells At Work"
I probably would have binge watched the whole season by now.
But I've been holding it back because you guys have been really
enjoying the review so thank you so much
So, let's crack on with episode 3 of "Cells At Work"
[Audio from episode clip]
So I recognise this chap
by his uniform.
Uh, this is one of the cytotoxic T cells
So you know the soldiers we saw in the early episode.
So, before they become these soldiers
they have this kind of immature state: why this chap has a cap on
that says "NAIVE".
So the job of these cells is actually to kill your own cells
when they either become infected or damaged.
[Audio from episode clip]
Hang on a minute, did the-[laughing]
did the white blood cell's shoe just fall off there?
I'm not quite sure what that's a reference to.
Cool, so this is the zombie episode. I've been looking forward to this one.
Usually at the start of the scene they tell you what organ you're in.
I'm guessing by the fact that we've got these shots of the sewers
and that we got an immature T cell here
that we're in the lymphatic system of the body.
Now, before med school, the lymphatic system
used to confuse the hell out of me.
And having it as a sewer is a really good analogy.
So you imagine all that fluid and nutrients that leak out of the blood vessels
to supply your cells. Well, how does that all get collected?
Well, it gets collected in a series of ducts
called the "lymphatic system", and they drain all the way
back up and go back into the bloodstream just above your heart.
Because it's a drain-like system, so any bacteria
and viruses will also drain into there,
so it's a really good place for our immune system to do its work of
recognising the bacteria and learning how to fight it.
That's why when we get a throat infection
you'll feel the glands - the lymph nodes - in your neck swelling up.
[#1, 2, 3, 4. We are cells at work.#]
[Audio from episode clip]
So, as we've predicted in the very first episode,
the zombies represent cells infected by a virus.
Another really good analogy.
I remember my highschool biology teacher asking me:
"Are viruses alive or dead?"
It was a bit of a trick question
because they're neither, because they're never alive in the first place.
The only way they can kind of reproduce and grow,
some of the things that a living needs to do, is through a host cell.
So just like a computer virus on a USB stick
it won't just replicate on its own, it needs a computer
to replicate that virus.
And it's really important to know that bacteria are different to viruses
'cause that's why antibiotics only work on bacterial infections,
not viral infections, even though the symptoms may be very similar.
[Audio from episode clip]
[Laughing]
[Audio from episode clip]
Wow! Respect to the macrophage!
[Audio from episode clip]
So, I was waiting for them to show this:
You may have noticed throughout the series that whenever a neutrophil destroys
a bacteria or a virus, that's it.
It just moves on to the next one, whereas the macrophage here
is capturing part of the virus so we can identify
the virus more easily later and therefore destroy it more easily.
The part that it's capturing, we call an "antigen"
and for that reason the macrophage is an antigen presenting cell;
because it will present this antigen to other immune cells
and activate them.
For example: it can activate the T cells that we've seen here
to turn a naive and immature T cell into a mature cytotoxic T cell.
The macrophage is also part of the myeloid family tree that I showed you in the last episode.
So let me add it to the gang.
So, remember we had this process called "hematopoiesis" - literally meaning: "production of blood"
that happens in the bone marrow. So we have our stem cell,
our myeloid progenitor cell, of which we can get our red blood cell,
our neutrophil,
and our megakaryocyte - the ones that produce platelets.
Also produced from this sort of family is the macrophage.
[Audio from episode clip]
This is pretty much what it's like when you first start life as a junior doctor.
[Audio from episode clip]
Quite a subtle one here, but seeing the neutrophils sort of migrate
between the buildings here is a nice little reference
probably driven by chemical messengers
to see what the immune activity's all about.
But we call this process "extravasation",
so they're able to sort of squeeze through in-between cells to get to where they need to go.
[Audio from episode clip]
So we see the infection is spreading quite rapidly.
We use the term "incubation period"
to describe the amount of time between the initial infection
and when symptoms are showing.
So this can be anywhere from a couple of days, like influenza - the flu virus we see here,
to many years in a virus like HIV.
So there's been so much going on in this episode already,
I wanted to just explain a couple of concepts that I keep going over.
So, the way viruses infect cells,
and also how we're able to recognise cells that have been infected by a virus.
[#Music#]
So here is our cell membrane
made up of sort of fatty molecules, that's why I've made it yellow.
And we have a nucleus.
So our nucleus contains all the genetic material for the whole body,
but obviously we only want certain ones for this cell to work.
This is our DNA all coiled up like so.
So let's just say for argument's sake that this is a cell in the throat;
so one of it's jobs is to produce mucus
that we saw in the first episode,
helps capture bacteria and viruses so we can get rid of them.
So let's just say that this cell wants to produce some more machinery
that helps produce mucus.
So how does this do this?
So just part of the DNA that we want will be turned into messenger RNA (mRNA)
through something we call the "transcription".
It's called messenger RNA because it then travels out into the cell
to the ribosomes.
So these are gonna represent our ribosomes.
So the messenger RNA will travel out of the nucleus
to the ribosomes
where it will turn the message into proteins, what we call "translations".
So in our example these proteins will make a little
biological machinery that will create some mucus.
So it's important to know that the cell knows what and when to do things
by communicating with other cells either directly or through chemicals
that interact with these receptors on it's surface.
So these receptors here are how the cell communicates.
So how to viruses take advantage of this?
So this is gonna represent our virus. So kind of in it's simplest form, a virus is
this protein capsule, so very different to our lipid membrane
that has a piece of genetic material in it.
In the case of influenza we have some RNA in.
The virus also has some receptors on it's surface.
Now, because we talked earlier, the antigens
are anything that our body can use to recognise a virus,
these are often called "surface antigens"
and you can see these surface antigens
sticking out on top of the virus in Cells At Work.
So, one of these surface antigens may happen to interact
with one of the receptors on the end of the cell
granting the virus access to the cell.
So that's why viruses only infect certain cells
so it may just infect a particular species,
like a virus that infects dogs might not affect us
or specific cells in a species so virus that infects our liver might not affect our skin.
In this example, we're using influenza so we know
it's got the right receptor to make this handshake
this kind of lock and key that can, uh, infect
the cells of our respiratory tract.
And you may say "Well why do our cells have these receptors if they can be abused like this?"
And it's because our cells need to communicate with each other, right?
Lots of complex interactions going on.
It's sort of like saying
"Well why don't you stop your house getting burgled by not having any windows or any doors?"
Well, it can't do the job of a house then, can it?
So, once inside the cell, the hijack really starts taking place.
So the viral genetic material enter the nucleus
and hijack our system here.
So the mRNA that goes to the ribosomes will be
information to produce more viruses...
[#Music#]
...that'll then burst out
of the cell and infect more cells.
[#Music#]
So how does your body know that this cell has been infected
and know it wants to kill it with the cytotoxic T cells?
Well first of all, we saw briefly
that the macrophages will break down these viruses and find out these antigens,
and so the cytotoxic T cells will be primed to know to look out for these antigens.
But currently it can't see any of these antigens on the cell.
Well your cell is very clever
so it's constantly putting anything from inside the cell onto it's surface.
So, as soon as this virus comes in here
your cell will put part of the virus
on the outside of itself.
And that can be anything, it could be the surface antigen,
it could be part of the DNA of the virus,
it could be part of the virus' capsule.
So now your cell is holding up a flag for the cytotoxic T cells
by putting parts of the virus on the outside of the cell
[Audio from episode clip]
Awww. I think we've all been there haven't we,
I mean, particularly taking me back to my medical career at med school
...this was... You never feel like you're quite good enough do you.
[Audio from episode clip]
So we go on this hero journey of discovery with Naive cytotoxic T cell,
meeting the dendritic cell,
we're getting spoiled for choice with our cells today.
So the dendritic cell is also an antigen presenting cell,
but it has a much more, kind of powerful, role in stimulating other cells.
Again, it's part of our myeloid family, so it would be rude not to add it to our family tree.
So here we have our dendritic cell joining it's cousins.
There is actually two types of dendritic cell, one that's produced from another route,
but we're keeping it simple today!
And it's called "dendritic" because dendritic means "tree-like"
so it has all these tree-like projections
that helps increase it's surface area
so it can fit more antigens on it's surface and
present more of them to the other immune cells.
[Audio from episode clip]
So it's a nice little story here, showing the maturation of the Naive T cell
after it sees an antigen from the dendritic cell
in reality this would happen slightly differently:
So if you imagine, all these Naive T cells would have slightly different receptors on them,
so it's only the T cell that binds strongly to the antigen on the dendritic cell
that will get activated and then proliferate.
Kind of like the glass slipper in Cinderella,
it has to match perfectly for that T cell to become mature;
and that's exactly what you want isn't it?
Because you want the T cell that can recognise that antigen the best
to be the one that matures and then proliferates
because that's the one can recognise the infected cells the best
and then kill those cells.
[Audio from episode clip]
Awww. So, if before his uncertainty was kind of like being a medical student,
this is how it feels when you graduate
and, you know, you finish your first on call job as a doctor.
[Audio from episode clip]
So here he is:
our newly matured and activated T cell, so he's proliferated as well
and he's perfectly designed to target this virus,
so I think we're going to see some, uh, the tide turning a little bit on the infection.
That's a nice way of saying he's about to smash up some zombies.
[Audio from episode clip]
[ORA ORA ORA ORA ORA ORA]
[OORRRAAAAAA]
[Audio from episode clip]
Cool, so they talk about why we get a fever in infection as well.
So, the reason they think this is because bacteria
and viruses typically like lower temperatures to reproduce,
I mean, certainly bacteria do because they tend to live on the outside world
so when they're in our body, our body increases our temperature.
It makes it slightly harder for our own cells, but a lot harder for the bacterial cells.
And there's always a debate in medicine:
Should you actually treat a fever with medications to bring the temperature down
because it's part of the body's defensive mechanism
on balance, we do treat it, because it can more likely lead to dehydration,
it can make you feel really unwell,
and also in children can lead to seizures too.
So in the hospital I work at, if someone is running a high temperature
we do give them drugs like paracetamol to help lower the temperature.
[Audio from episode clip]
I like this huge crater we see at the end of the infection,
this kind of reminds us there's often a lot of damage done,
and it's not just from the virus or the bacteria
it's often done from our immune cells sort of just eradicating everything in the area.
[Audio from episode clip]
Ah, so we have a new virus on the scene.
So we had "Influenza B" before so all our immune cells had recognised the antigens
and built up an ability to destroy "Influenza B" more easily
But now we have a different virus so our cytotoxic T cells,
they're no longer effective against this virus so
we're gonna have to go through the whole process again
00:17:36,620 --> 00:17:37,600
And there you go!

Episode 3 done! By far the most technical episode so far.
There was loads of stuff I could have talked about
but I didn't want to make this video sort of like an hour long
I really liked the sort of hero journey of the cytotoxic T cell
I thought that was a really nice things so I'd really like to know kind of what happens next!
I've got this kind of theory that we might be working to a sort of overarching theme
so I look forward to finding out.
If you want me to film a reaction to any more of these episodes
then give this video a thumbs up and let me know in the comments down below
and while you're at it, why not subscribe to the channel
and you'll be notified as soon as I do a new video
So, just leaves me to say:
Thank you all so much for all the support,
and thank you for recommending I check out this brilliant show, Cells At Work!
If you've got any other recommendations, chuck them over to me, I'll see what I can do
So until next time:
Look after those hard working cells!
[#Closing Music#]
コツ:単語をクリックしてすぐ意味を調べられます!

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Real DOCTOR reacts to CELLS AT WORK! // Episode 3 // "Influenza"

225 タグ追加 保存
林韋志 2019 年 1 月 14 日 に公開
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