Could this technology end all viruses?

290,208 views ・ 2022-11-03

TED-Ed


Please double-click on the English subtitles below to play the video.

00:07
This round structure is only about ten billionths of a meter in diameter,
0
7128
4713
00:11
but it— as well as other technologies in the pipeline—
1
11841
3003
00:14
could be stepping stones to a monumental public health ambition:
2
14844
3462
00:18
a single vaccine that protects you against everything.
3
18639
3295
00:22
We’ll get back to the grand vision later, but first,
4
22185
2544
00:24
let’s start with something that’s being developed now:
5
24729
2627
00:27
a vaccine that would protect you against every strain of the flu—
6
27398
3796
00:31
even ones that don’t exist yet.
7
31360
2169
00:33
Here’s one flu virus particle.
8
33529
2086
00:35
On the inside is the virus’ RNA,
9
35740
2210
00:37
and on the outside are lots and lots of hemagglutinin proteins.
10
37950
3671
00:41
Hemagglutinin attaches to a receptor on a human cell
11
41746
3462
00:45
and fuses the viral and human membranes, starting the infection.
12
45208
4045
00:49
Hemagglutinin is also one of the things your immune system recognizes
13
49629
4254
00:53
and reacts to the most.
14
53883
1710
00:55
To understand how this works,
15
55676
1585
00:57
think of hemagglutinin as a bust of 19th century French Emperor Napoleon Bonaparte.
16
57261
5130
01:02
Croissant!
17
62892
1001
01:04
If you show Napoleon to an immune system and say, “remember him,”
18
64352
3587
01:08
the immune system will mostly focus on his head.
19
68147
2962
01:11
And the same is true for the real hemagglutinin.
20
71234
2460
01:13
One way the immune system remembers things
21
73820
2252
01:16
is by physically interacting with them.
22
76072
2335
01:18
Think of it as making plaster molds of parts of the head:
23
78407
4088
01:22
we call these molds antibodies.
24
82495
2002
01:24
The antibodies float around your bloodstream for a while
25
84622
2794
01:27
and then can diminish,
26
87416
1127
01:28
but blueprints on how to make them are stored in specialized memory cells,
27
88543
3712
01:32
waiting for future Napoleons to invade.
28
92255
2752
01:35
Here’s the thing, though.
29
95091
1209
01:36
Hemagglutinin is constantly mutating.
30
96300
2586
01:39
Most mutations are subtle,
31
99011
1752
01:40
produced by single letter changes in the virus’ RNA: like this or this.
32
100763
4588
01:45
Over time, Napoleon-slash-hemagglutinin’s head can change enough
33
105726
4422
01:50
that our antibodies become less good at recognizing it.
34
110148
3378
01:53
This is called antigenic drift.
35
113985
2544
01:56
Influenza is constantly drifting;
36
116779
2169
01:58
that’s one reason you have to get a new flu shot every year.
37
118948
3086
02:02
But sometimes bigger changes happen.
38
122034
2461
02:04
An animal, usually a pig, can get infected with, say,
39
124662
3212
02:07
a human flu and a bird flu.
40
127874
2669
02:10
And those different viruses might infect the same cell.
41
130710
3462
02:14
If that happens, the two different viral genomes can recombine
42
134380
3879
02:18
in tens or even hundreds of ways.
43
138259
2169
02:20
The human flu virus could pick up a bird flu hemagglutinin
44
140636
3629
02:24
that’s never infected humans before.
45
144265
2294
02:26
This is called antigenic shift,
46
146809
2252
02:29
and if you get infected by this version of influenza,
47
149270
2920
02:32
none of the antibodies against Napoleon's head are going to help you.
48
152273
3795
02:36
Antigenically shifted viruses have the potential
49
156402
2669
02:39
to infect many people very quickly,
50
159071
2545
02:41
causing epidemics and sometimes pandemics.
51
161616
3044
02:45
A truly universal flu vaccine would be able to protect
52
165369
3546
02:48
against current flu strains and future drifted or shifted strains.
53
168915
4421
02:53
But how do we design a vaccine against a strain that doesn’t exist yet?
54
173461
3837
02:57
We look to the past.
55
177506
1502
02:59
There are key parts of hemagglutinin that haven’t changed much over time
56
179133
4088
03:03
and are probably critical to infect human cells;
57
183221
2836
03:06
these “conserved regions” could be promising targets for universal vaccines.
58
186557
4588
03:11
But there's a problem that's hindered classical vaccine production.
59
191270
3170
03:14
Many conserved regions are in the neck,
60
194440
2878
03:17
and it’s tough to get the immune system to react to the neck.
61
197318
3128
03:20
Also, because influenza-like viruses have been around
62
200571
2753
03:23
for hundreds of millions of years,
63
203324
2294
03:25
there may not be a single region that’s common across all species
64
205826
3337
03:29
and subtypes of influenza.
65
209163
1710
03:31
But there’s promising science in development.
66
211123
2419
03:33
Remember this?
67
213751
1168
03:35
This is a protein called ferritin;
68
215336
2002
03:37
Its normal purpose is to store and move iron.
69
217338
3211
03:40
But it’s also the rough size and shape of a small virus.
70
220549
3546
03:44
And if you attach viral proteins to it, like this,
71
224095
2711
03:46
you’d have something that looks, to an immune system, like a virus—
72
226806
3462
03:50
but would be completely harmless and very engineerable.
73
230268
3003
03:53
Recently, scientists engineered a ferritin nanoparticle
74
233437
3045
03:56
to present 8 identical copies of the neck region of an H1 flu virus.
75
236482
5547
04:02
They vaccinated mice with the nanoparticle,
76
242196
2169
04:04
then injected them with a lethal dose of a completely different subtype,
77
244365
4379
04:08
H5N1.
78
248744
1585
04:10
All the vaccinated mice lived; all the unvaccinated ones died.
79
250329
3754
04:14
Going one step beyond that,
80
254292
1584
04:15
there may be conserved regions that we could take advantage of
81
255876
2962
04:18
across different-but-related virus species—
82
258838
2836
04:21
like SARS-CoV-2, MERS,
83
261674
2127
04:23
and a few coronaviruses which cause some common colds.
84
263801
3003
04:27
Over the past few decades,
85
267221
1376
04:28
a different part of the immune system has come into clearer focus.
86
268597
3671
04:32
Instead of antibodies, this part of the immune system
87
272268
2753
04:35
uses a vast array of T cells that kill, for example,
88
275021
3586
04:38
cells that have been infected by a virus.
89
278607
2712
04:41
Vaccines that train this part of the immune system,
90
281319
2460
04:43
in addition to the antibody response, could provide broader protection.
91
283779
3671
04:47
A universal flu vaccine would be a monumental achievement in public health.
92
287783
5089
04:53
A fully universal vaccine against all infectious disease is— for the moment—
93
293205
5047
04:58
squarely in the realm of science fiction,
94
298252
2294
05:00
partially because we have no idea how our immune system would react
95
300546
3420
05:03
if we tried to train it against hundreds of different diseases at the same time.
96
303966
4338
05:08
Probably not well.
97
308387
1168
05:09
But that doesn’t mean it’s impossible.
98
309555
1835
05:11
Look at where medicine is today compared to where it was two centuries ago.
99
311390
3629
05:15
Who knows what it’ll look like in another 50 or 100 years—
100
315019
3337
05:18
maybe some future groundbreaking technology
101
318606
2753
05:21
will bring truly universal vaccines within our grasp.
102
321359
3253
About this website

This site will introduce you to YouTube videos that are useful for learning English. You will see English lessons taught by top-notch teachers from around the world. Double-click on the English subtitles displayed on each video page to play the video from there. The subtitles scroll in sync with the video playback. If you have any comments or requests, please contact us using this contact form.

https://forms.gle/WvT1wiN1qDtmnspy7