Name: 如何對抗COVID-19......與病毒對抗 (How to Fight COVID-19... with a Virus)
Uploaded: 2021-01-14T11:04:56.000Z
Duration: 4 min 31 s
Description: 【看影片學英語】數萬部 YouTube 影片，搭配英漢字典即點即查，輕鬆掌握單字發音與用法，長久累積看電影不必再看字幕。

This episode was filmed on May 29th, 2020.

If we have more recent episodes on the COVID-19 pandemic,

Researchers have been working on vaccine candidates for COVID-19

Some of their work looks like traditional vaccine development,

But other research groups are trying some more creative approaches

to therapy... including ones that involve directly editing our genes.

This is known as gene therapy, and it's not as outlandish

The outlandish part is that viruses are one of our primary tools

for gene therapy -- meaning we might be able to solve

our current virus problem… with a virus.

However, this approach comes with some uncertainty

and a significant price tag, so it's hardly a sure thing.

The goal of a vaccine is to safely expose your immune system

to antigens derived from an infectious agent like a virus.

After vaccination, our bodies recognize this antigen

and know how to defend against it for a period of time.

That might mean exposing our bodies to a weakened

or inactivated form of a virus or bacterium so that our immune systems

But there are plenty of other ways we can end up with immunity.

For example, some doctors are already using convalescent plasma

from recovered patients to transfer their antibodies to patients

Some of the vaccine candidates making swift progress

in clinical trials are based on the nucleic acids DNA and RNA.

The idea is to teach our cells to make viral antigens and to show them

to our immune system -- rather than bundling

One hurdle to this idea is getting that genetic code into cells.

RNA, in particular, can get broken down pretty quickly in our bodies.

But the concept is solid: teach cells to make a specific part

of the virus -- like the spike protein, which SARS-CoV-2

So rather than inject patients with just the code,

another approach is more akin to fighting fire with fire.

After all, viruses are really efficient at injecting genetic material

It's what they do -- they're really just little nucleic acid

delivery packets, with instructions for making more packets.

So they're actually perfect if we want to introduce

But we need a virus that won't also make us sick, which is why

adeno-associated viruses, or AAVs, are the DNA vehicle of choice.

AAVs are little viruses that don't cause disease,

further genetically engineered to deliver their payload

They've already been used in the past in efforts

Different AAVs tend to infiltrate different tissues,

and since COVID-19 affects the lungs, we'd need to find an AAV

Some of the AAVs scientists have tested were able to get

into human respiratory cells in culture, but they haven't been tested

And since an AAV is just a tiny DNA delivery unit, we could swap out

different sequences and test them all very quickly.

AAV-based gene therapy for other diseases has already been approved

by the US Food and Drug Administration, which could speed

implementation of a version of this therapy for COVID,

The potential downside is that this style of gene therapy

Not as permanently as you might be thinking.

It wouldn't target our germ cells, meaning we wouldn't pass

We don't yet know all of the cell types we would need to target,

but the changes probably wouldn't stay with us for a lifetime.

Which means any kind of AAV-based therapy we develop for SARS-CoV-2

But it might offer us some level of protection while we're

But we can't rule out other long-term side effects

from directly tinkering with our DNA, even if it seems like

Since the currently approved AAV-based drugs treat extremely rare

genetic diseases, they come with an inflated price tag.

But since an AAV for COVID-19 would be a much larger market,

Now, will gene therapy for the novel coronavirus ever actually be a thing?

Researchers in Massachusetts recently announced plans

for a COVID vaccine clinical trial using AAVs.

They're in the preclinical trials right now, and if all goes well,

they'll move into human trials later this year.

Which means if we do ever see AAV therapy, it will still be a while.

But it's definitely one of the more creative efforts out there

-- and we need to try everything we've got.

Thanks for watching this episode of SciShow, and thanks as always

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