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  • HIV is one of the deadliest viruses on the planet, newly infecting about 1.7 million

  • people in 2018. Since the early days of the epidemic, the virus itself has confounded

  • researchers, who have long been searching for a vaccine to prevent its spread. And after

  • years of slow progress, that search may soon be over.

  • The epidemic as we now know it, is thought to have started in the mid-to late 1970s,

  • but it wasn’t until 1983 that the HIV virus was first identified and isolated. By that

  • point, HIV had begun to rapidly spread around the worldand since the epidemic began,

  • it’s claimed the lives of over 32 million people.

  • To understand why this virus causes so much harm, we first need to know how it invades

  • the body. First off, it’s a retrovirus, which is a type of virus that inserts a copy

  • of its genome into the DNA of a host cellin HIV’s case, T-helper cells which

  • help our immune system fight off infection. After latching onto the cell, HIV fuses with

  • it, integrating its genetic information with the new host’s DNA. The infected cell then

  • produces more HIV proteins, which are eventually released into the bloodstream where they continue

  • to replicate. If left untreated, HIV severely weakens the immune system’s ability to function

  • properlythis final stage of the infection is AIDS.

  • And it's precisely the virusunique characteristics which allow it to propagate inside the human

  • body that also make it so difficult to tackle. “HIV is a remarkably small virus. It has

  • few genes comprised in it, regardless of how small and simple it may be, it has very complex

  • dynamic interactions with the human immune system.”

  • There’s currently a few ways to stop HIV from progressing in its life cycle. Specific

  • drugs have been developed that can stop the virus from attaching to T-helper cells, while

  • other types of drugs work to prevent the virus from taking control of the cell’s nucleus

  • and enter the bloodstream. Called antiretroviral therapy, or ART, this drug combination works

  • well, but is expensive and requires lifelong upkeep.

  • In those resource constrained areas or where the stigma of HIV is still a major problem,

  • prevention methods that require daily pills may still limit the number of individuals

  • who would have access to these. It’s only through the application of very highly effective

  • vaccines that we've been able to control an infection that spread around the globe, and

  • eventually eradicate that.” But that doesn’t mean developing a vaccine

  • is easy. There aren’t many good models to reference for research in humans, which means

  • we don’t know what the body’s immune response looks like when trying to protect itself.

  • HIV’s extraordinary diversity and ability to rapidly mutate are also huge obstacles

  • in getting a grip on the virus. Just recently, researchers announced that they’d IDed

  • a new strain, the first in 19 years. Despite this, there has been huge progress made in

  • the last decade. In 2009, researchers declared that a vaccine

  • trial done in Thailand had protected a significant minority of humans against the disease for

  • the first time ever. RV144, is a combination of two genetically engineered vaccines, neither

  • of which had worked before in humans. “We observed a modest level of efficacy

  • over three and a half yearsabout 30%. So, we have initiated a clinical trial in South

  • Africa that is marching along the path to try to confirm these findings from the Thai

  • trial and extend those findings through a number of approaches.”

  • As the world’s largest publicly-funded international collaboration focused on the development of

  • vaccines to prevent HIV and AIDS, HVTN has conducted all phases of clinical trials that

  • have involved thousands of people. In addition to two massive trials to test whether giving

  • antibodies to patients can protect them from HIV infection, as of this year the group has

  • also fully enrolled two similarly ambitious vaccine trials. Called HVTN 702 and 705, these

  • regimes were designed to test whether patients given a vaccine can create antibodies on their

  • own. Both vary slightly in their approach— 702 is based off of the Thai trial, while

  • 705 is focusing on overcoming the virusesgenetic diversity.

  • What's very exciting is that the immune responses elicited by these three different

  • vaccine strategies is different within each clinical trial, but there's similarities across

  • them. And we're looking for specific immune responses that we will correlate with vaccine

  • efficacy, with just a few dozen people that will eventually lead us to a more globally

  • effective vaccine that could be used across different populations and routes of exposure.”

  • With hopes high, and even higher stakes, the mood of the vaccine research seems to be one

  • of cautious optimism. But results of both the 705 and 702 vaccine regimes won’t be

  • in until late 2021 and 2022, when the trials are expected to close.

  • They will certainly be a success and that will get a clear answer as to whether or not

  • these vaccines worked, but I think we also have to be measured in our expectations. And

  • that this is one of the most formidable biomedical challenges we've ever undertaken as a society,

  • as a global research community.” If you want to learn more about the search

  • for a potential HIV cure, check out this episode of How Close Are We. If you liked this

  • video, let us know down in the comments and don’t forget to subscribe for more Seeker.

  • As always, thanks for watching, and I’ll see you next time.

HIV is one of the deadliest viruses on the planet, newly infecting about 1.7 million

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尋找艾滋病毒疫苗的工作可能很快就會結束了 (The Search For an HIV Vaccine May Soon Be Over)

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    林宜悉 發佈於 2021 年 01 月 14 日
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