HIV reverse transcription of its RNA genome.

HIV is a virus that attacks human immune cells. It has a complicated life cycle, with its information being stored as RNA, then transferred to DNA, before new viral particles are made. Learn how HIV proteins work to move HIV through its life cycle.

HIV

Human immunodeficiency virus (HIV) is the virus that causes acquired immunodeficiency syndrome (AIDS). HIV is a major public health crisis. According to the UN AIDS Program, nearly 37 million people were infected with HIV worldwide as of 2016, with approximately 1.1 million AIDS-related deaths annually.HIV belongs to the retrovirus family, and the genus lentivirus; this describes how HIV copies its genetic information, and the slow progression of the disease (lento = slow). HIV requires a host cell in order to copy its genetic information and make new virus particles. For HIV to be able to enter a cell, the cell must have the CD4 receptor.

This is found on immune cells, such as helper T cells that help activate the immune system to fight infections, and monocytes that act as sentries, eating up any possible foreign invaders and alerting the immune system.

Our Authors Write a Custom Essay
For Only $13.90/page!


order now

HIV Structure

HIV is a round, ball-shaped virus. It has two single strands of RNA for its genome. The RNA is used to carry the genetic information that is passed on when new HIV particles are produced. This is different than a normal cell, which uses DNA to carry its genetic information.

The outermost layer of the HIV particle is the envelope. The envelope takes part of the host cell’s membrane as the virus leaves to make a membrane for itself. The envelope also has some proteins in it that help the virus invade the next host cell. One protein, gp120, helps the virus attach to the CD4 receptor on the host cell.

The other protein, gp41, helps the virus fuse with the cell membrane and enter the cell. (Gp stands for glycoprotein, which is a protein with a carbohydrate attached. The number, 41 or 120, tells how big the protein is).

(A) HIV merging with a cell (B) HIV viral particles being packaged (C) Final HIV viral particle
HIV infection

Inside the envelope is the viral matrix. The p17 in the matrix (P stands for protein) helps hold the envelope proteins gp120 and gp41 to the rest of the virus.

Inside the matrix is the viral core, made up of p24. The core houses the viral genome, as well as enzymes that the virus will need to replicate in the host cell.

HIV Replication

Like all viruses, HIV isn’t considered a living thing because it requires a host cell in order to replicate. While HIV is dependent on its host cell, it does supply some of its own proteins for replication, as mentioned earlier.When HIV enters a cell, one of the first things it needs to do is reverse transcription of its RNA genome. Normally, biology tells us that DNA is converted to RNA in a process called transcription.

However, HIV does this backwards and converts RNA to DNA. This is where the name retrovirus comes from – retro means backwards. HIV uses one of the enzymes it brings with it in its matrix, called reverse transcriptase, to do this job.

HIV Life Cycle
HIV life cycle

After the DNA has been made, the next step in the virus’ life cycle is integration. The newly made DNA is inserted into the host cell’s own genome.

This means that even if HIV is not actively making new virus particles, its genetic information is being copied every time an infected cell replicates. This is one of the reasons why it is so difficult to get rid of an HIV infection – the virus can hide in these so-called reservoirs when the environment is not good for making new viruses. Once the environment has improved, it can re-activate and make more viruses again.Once the HIV DNA has integrated into the host cell’s DNA, the virus can start to replicate. For this, HIV uses the host cell’s replication machinery to turn its DNA into viral RNA. The viral RNA is then translated into protein. All of the proteins the virus needs will be made at this stage, including the envelope, matrix, and core proteins, as well as the reverse transcriptase enzyme.

These proteins, along with the RNA, package together to form new viral particles that will be released to start the infectious process all over again.

Results of HIV Infection

The time from initial infection with HIV to the patient experiencing symptoms takes a long time. This is where the term ‘lentivirus’ comes from.

Once the virus infection has been established, it begins to kill off immune cells that work to help protect the body from infection. Dishearteningly, the more an infected cell is activated to fight other infections, the more quickly HIV can replicate. Likewise, the more a helper T cell is activated, the more easily it can be infected by HIV.As more and more immune cells are killed, the patient becomes less able to fight infection.

A patient is considered to have AIDS when his or her T cell number decreases below 200 per cubic millimeter, and has infections usually associated with having a poorly performing immune system.Anti-retroviral therapy helps slow down HIV replication be preventing the virus from either turning its RNA into DNA, or from leaving the host cell. Combination therapies are most effective. Because we do not have a way to completely cure HIV infection yet, this therapy must be taken for the patient’s entire life.

Lesson Summary

HIV is a spherical virus.

It has a protective envelope, which comes from the host cell’s membrane. The proteins gp120 and gp41 help HIV enter a cell to infect it. The viral matrix helps anchor the envelope proteins to the rest of the virus particle. The core contains the HIV genome and some proteins needed for infection.

HIV is a retrovirus, meaning it must transform its RNA genome into DNA within a host cell. It can either hide its DNA inside the host cell’s genome, or it can make new viral particles to continue the infection. HIV primarily attacks immune cells, which results in the host becoming unable to fight off infections.

Learning Outcomes

As you come to the end of this video, you should be able to:

  • Recall what HIV is and describe the family it belong to
  • Discuss the structure of HIV
  • Explain HIV replication
  • Describe the results of HIV infection
x

Hi!
I'm Sigvald

Do you need a custom essay? How about ordering an essay here?

Check it out