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  • You are not a person, you are a planetmade of roughly 40 trillion cells.  

  • There is so much of you, that  if your cells were human-sized,  

  • you would be as big as 20 Mount Everests. For your  creepy-crawly inhabitants, this makes your body an  

  • ecosystem, rich in resources and warmth and space.  A perfect place to move into and have a family.  

  • While some of these guests are welcome, most  are not. Your immune system is the guardian  

  • of this planet, the force tasked with protecting  yourself against the constant danger of invasion.

  • Unfortunately your enemies in the  tiny world have a huge advantage.

  • Consider the effort it takes to make a single copy  of yourself and your trillions of cells. First you  

  • need to find someone who thinks you are cutedate and be awkward and if things work out in a  

  • complicated dance, two of your cells merge  together. Then you need to wait for months  

  • while the cell multiplies over and over until  it is released into the world as a human being.  

  • And even then you only have a mini copy  that needs years to become remotely useful.

  • A bacterium consists of one cell. It can make  a fully grown copy in about half an hour.  

  • A virus can turn into hundreds within  hours and billions within days.

  • Your enemies multiply orders  of magnitude faster than you.  

  • Even worse, for a bacterium or virus  your body is a hostile ecosystem  

  • applying selective pressure. Because they go  through so many generations so quickly, eventually  

  • by pure chance, there will be an individual  that mutates and adapts in just the right way  

  • to resist your defenses and then multiply quickly  again. In other words, you are facing a sheer  

  • endless variety of different enemies and youre  too slow to keep up with their evolution.

  • This is bad.

  • Luckily your immune system is just about  the most amazing thing ever. The second most  

  • complex biological system known to us, after the  human brain, and so sophisticated that we still  

  • haven’t discovered all its secrets. Since it is  so complicated we have to simplify and focus on  

  • one thing at a time. If you want the full storywait for the announcement at the end of the video!

  • Ok, so why are we not all killed by some  new bacteria or virus? In a nutshell,  

  • you actually have two immune systems, the  innate and the adaptive immune system.  

  • The innate immune system was  ready when you were born.  

  • It mostly consists of general purpose soldierswe introduced them in the last immune video.

  • The adaptive immune system carries two types of  cells T Cells and B Cells that are your super  

  • weapons and are incredibly effective and deadly  for your enemies. These cells are complicated to  

  • produce and take a lot of time to deploy but  once they are ready, they pack a real punch.

  • What makes your adaptive immune system  so powerful is that it has the largest  

  • library in the universe. It has an answer to  everything. You have at least one of these  

  • super weapon cells inside you to fight the  black death, the corona virus and the first  

  • deadly bacteria that will emerge in a city  on Mars in one hundred years. This makes it  

  • possible for you to counter the ability of  bacteria and viruses to change so rapidly.

  • How is this possible? To understand what is  going on here, we need to take one step back.

  • All organisms on earth are  made from the same basic parts,  

  • mostly proteins. Proteins are  the building blocks of life  

  • and can have billions of different shapes  - you can imagine them as 3D puzzle pieces.  

  • There are billions of different puzzle pieces  your enemies can use to construct their bodies.

  • Why is this important? Because proteins are  in a way thelanguageof the microworld.  

  • Cells don’t have eyes or ears, so to tell friend  from foe, they have to touch them and recognize  

  • if their protein is part of a friend or part of an  enemy. Recognizing means that cells have countless  

  • tiny devices called receptors, that are able to  connect with a specific protein puzzle piece.  

  • So your cells have tiny puzzle pieces on their  outsides that are able to click together,  

  • or recognize other protein puzzle piecesWhen a cell connects together with a protein  

  • and recognizes it asenemy”,  it knows that it has to attack.

  • Only if your cells can make this  distinction between friend or foe  

  • is your immune system able to fight an invader.

  • But since there are billions of  possible protein puzzle pieces,  

  • this means there are billions of possible enemy  puzzle pieces. This is also one of the reasons  

  • we still have to deal with diseases like the  flu each yearthe influenza virus mutates  

  • very rapidly and so the proteins that make  up its hull constantly change a tiny bit.

  • The soldiers of your innate immune system have  a large number of the puzzle pieces for common  

  • bacteria and viruses memorized, that’s why  they are your all purpose weapons. But they are  

  • ineffective against many billions of mutations  and adaptations that your enemies can develop.

  • So the reason you are still alive is that your  Adaptive immune system is able to recognize  

  • between one billion and ten billion different  enemy protein puzzle pieces, which is enough  

  • to be prepared for every possible enemy. But  how is this possible? How could your immune  

  • system possibly have this much of a variety to be  prepared for every possible protein puzzle piece?

  • Well, the cells of your adaptive immune system  found a cheat code: mixing and matching their own  

  • genetic code to create this stunning variety of  receptors. The details are way too complicated for  

  • this video but in a nutshell, your adaptive immune  cells have official permission to take a tiny part  

  • of their own genetic code and mix it in random  ways to create billions of different receptors.

  • A good way to explain this is by asking  you to imagine an army of cooks, with each  

  • of them wanting their own special recipe. They  have 100 different ingredients to choose from.  

  • Each ingredient stands for one tiny  piece of genetic code in this metaphor.

  • So each cook takes a few random ingredients  and randomly mixes them together.  

  • Maybe Tomato, Chicken, Rice  and half an onion as entree,  

  • Marshmallow, Pepper, Strawberries  and a quarter banana as a dessert.

  • Or Cucumber, Beef, Potatoes and two carrots,  

  • and blueberries, chocolate and  cream with a pinch of cinnamon.

  • Even with slight variation  and with only 100 ingredients,  

  • there are billions of possible recipesAnd likewise, with just a small selection  

  • of gene fragments, your cells create billions  of receptors. The details of this are so cool  

  • that they should get their own videoor  their own chapter in a book. In any case,  

  • by mixing up gene fragments, you get up to ten  billion different combinations. So in the end,  

  • you get billions of immune cells, and each of  them has one specific and unique receptorthe  

  • dish from our metaphorthat is able to  recognize one specific protein puzzle piece.  

  • In total, you end up with at least one cell  for every enemy that could possibly exist.

  • But here we run into a pretty dangerous problem  – if your adaptive immune system is making  

  • weapons that can attack every possible  protein puzzle piece in the universe…  

  • wouldn’t it also make some that can attack  your own cells? Yes, it happens all the time.

  • This is so fundamentally dangerous to  your survival that you have a whole  

  • organ that does nothing but work on preventing  this: The Murder University of your Thymus.  

  • Your Thymus is a chicken wing sized organ above  your heart and you've probably never heard of  

  • it. Interestingly, your thymus is one of the  reasons why your immune system weakens as you age,  

  • because it is in a constant state of decline once  you reach puberty. But what does the Thymus do?

  • In your murder university, your immune  system is putting your adaptive immune cells  

  • through an intense and deadly curriculumBasically it is showing them all sorts of  

  • protein puzzle pieces that are used by  your own cells to see how they react.  

  • When a young cell recognizes a body puzzle piece  and wants to attack it, the teacher cells order  

  • them to kill themselves and they are eaten up  and recycled. The immune system is so particular  

  • about this process that around 98% of your  adaptive immune cells that enter murder university  

  • die there. 2% graduate and get to do  their job of protecting you for real.

  • If this process goes wrong and cells escape that  can recognize your own protein puzzle pieces,  

  • this can lead to autoimmune disease, where  your immune system attacks your own body  

  • from the inside. Andt this, again  is another story for another time.

  • Ok, let us summarize. Your immune system has  two parts, one that defends you right after  

  • birth and one that carries the largest  library of superweapons in the universe  

  • but needs to boot up first. To create billions  of different superweapons, your adaptive immune  

  • cells recombine a part of their genetic code to  create a breathtaking variety of attack weapons.  

  • Then they enter a murder university that only 2%  survive to make sure they do not attack you. And  

  • then you end up with billions of different cellsthat in total are able to protect you against  

  • every possible enemy in the universeNow wait a second. If this is all true,  

  • why do we get sick at all? Why was a new disease  like Covid-19 able to kill millions of people?

  • Well everything we just learned about is justtiny, tiny window into the amazing struggle for  

  • life and death that plays out every day inside  your body and there are so many amazing details  

  • and questions here: How does your body actually  find the right cell in time to protect you?  

  • How do your enemies fight back and  overcome your immune system anyway?  

  • And what about all the things  that did not fit in this video?

  • Well, today finally marks the release ofImmune  – A Journey Into the Mysterious System that Keeps  

  • You Alive”, written by Philipp Dettmerthe founder and head writer of Kurzgesagt.  

  • First we had to push the release back  because of cargo trouble and then because so  

  • many of you pre-ordered that we didn’t have  enough copies for the original launch day!  

  • Thank you so, so much for that!

  • Immune tells the epic story of your  immune system and will forever change  

  • how you think about your own body, how  you experience being sick and healthy.  

  • The book is written to be as fun and easy to grasp  as Kurzgesagt videos but it is able to dive way  

  • deeper iinto its subject. So go on a journey  through the hidden microverse within yourself.  

  • Witness deadly wars between billions of invaders  and cells, learn how your immune system actually  

  • works and protects you from cuts, cancer and  Covid. Never before have we so urgently needed  

  • to learn about how immunity works. Immune is fun  and great to look at and it even smells good.

  • Follow the link in the  description to order it today.  

  • This is the end of a decade-long  personal journey working on this,  

  • thank you all so, so much for your supportAnd thank you for watching. And reading.

You are not a person, you are a planetmade of roughly 40 trillion cells.  

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A1 初級 美國腔

你對每一種疾病都免疫(You Are Immune Against Every Disease)

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    吳沛葳 發佈於 2022 年 01 月 24 日
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