AIDS (Acquired ImmunoDeficiency Syndrome) is one of the worst pandemics the world has ever known. HIV (Human Immunodeficiency Virus), the virus that causes AIDS, was first discovered in 1981 in a remote area of central Africa. It has since swept across the globe, infecting millions in a relatively short period of time. AIDS has killed 28.1 million people that we know of, with 3 million people dying in the year 2002 alone. While many cases go unreported, the prevalence of the disease is increasing.
By comparison:
The flu pandemic of 1918 killed approximately 20 million people worldwide.
World War II killed approximately 40 million people.
Clearly the AIDS pandemic has had, and will continue to have, a significant and global impact.
Unique Features of HIV
The thought of contracting HIV is frightening. And there is good reason for that fear -- the disease is presently incurable, it has a high mortality rate, it spreads quickly and there is no vaccine to protect against it. In today's world, that combination is rare. For example, small pox is often fatal, but the disease has been completely contained through vaccinations. Tuberculosis is often fatal but can usually be cured with antibiotics if caught early.
AIDS has been able to infect and kill so many people because of its unique makeup. Let's look at some of the features that make this disease so unusual:
HIV spreads by intimate contact with an infected person. Forms of intimate contact that can transmit AIDS include sexual activity and any sort of situation that allows blood from one person to enter another. Especially when you compare it with the many viruses that spread through the air, it would seem like the intimacy involved in the transmission of AIDS would be a limiting factor. However…
A person can carry and transmit the HIV virus for many years before any symptoms show themselves. A person can be contagious for a decade or more before any visible signs of disease become apparent. In a decade, a promiscuous HIV carrier can potentially infect dozens of people, who each can infect dozens of people, and so on.
HIV invades the cells of our immune system and reprograms the cells to become HIV-producing factories. Slowly, the number of immune cells in the body dwindles and AIDS develops. Once AIDS manifests, a person is susceptible to many different infections, because the immune system has been weakened so much by the HIV it can no longer fight back effectively. HIV has also shown the ability to mutate, which makes treating the virus nearly impossible.
The last feature in this list is the one that is truly unique. HIV invades and destroys the immune system -- the system that would normally protect the body from a virus. HIV corrupts and disables the system that should be guarding against HIV.
How HIV Enters the Body
In the United States, given the current distribution of HIV in the population, there is better than a one in 1,000 chance of contracting HIV during an unprotected heterosexual encounter, according to the Centers for Disease Control and Prevention (CDC). In some locations, the chances are even higher. Unprotected sex is the most common way of transmitting HIV. Your chances for infection increase with each new partner. Here is a list of ways in which HIV can be transmitted:
Sexual contact
Sharing contaminated intravenous needles
Breastfeeding (mother to baby)
Infected mother to fetus during pregnancy or birth
Blood transfusions (Rare in countries where blood is screened for HIV antibodies.)
There is also a slight chance of transmission through kissing and biting. However, there have been very few cases of HIV being transmitted through either method. In fact, the CDC has investigated only one case in which HIV infection was attributed to open-mouth kissing.
HIV does not transmit through the air or surface contact like cold and flu viruses do. HIV is a fragile virus and doesn't survive well outside the human body. This fragility makes the possibility of environmental transmission very remote. Outside of a host cell, HIV doesn't survive for very long. In laboratory studies, the CDC has shown that once the fluid (blood, sweat, tears, etc..) containing the HIV virus dries, the risk of environmental transmission is nearly zero.
There is a lot of misinformation about how HIV can be transmitted. So, here is a list of ways in which HIV is not transmitted:
Saliva, tears and sweat - Saliva and tears contain only small amounts of HIV, and scientists haven't detected any HIV in the sweat of an infected person.
Insects - Studies show no evidence of HIV transmission through bloodsucking insects. This is true even in areas where there are many cases of AIDS and large populations of mosquitoes.
Using the same toilet seat
Swimming in the same pool
Touching, hugging or shaking hands
Eating in the same restaurant
Sitting next to someone
The Life-cycle of HIV
Like all viruses, HIV treads the fine line that separates living things from nonliving things. Viruses lack the chemical machinery that human cells utilize to support life. So, HIV requires a host cell to stay alive and replicate. To replicate, the virus creates new virus particles inside a host cell and those particles carry the virus to new cells. Fortunately the virus particles are fragile.
Viruses, like HIV, don't have cell walls or a nucleus. Basically, viruses are made up of genetic instructions wrapped inside a protective shell. An HIV virus particle, called a virion, is spherical in shape and has a diameter of about one 10,000th of a millimeter.
HIV infects one particular type of immune system cell. This cell is called the CD4+T cell, also know as a T-helper cell (see How the Immune System Works for details on T cells). Once infected, the T-helper cell turns into a HIV-replicating cell. T-helper cells play a vital role in the body's immune response. There are typically 1 million T-cells per one milliliter of blood. HIV will slowly reduce the number of T-cells until the person develops AIDS.
How HIV Infects the Body
To understand how HIV infects the body, let's first look at the virus's basic structure. Here are the basic parts of the HIV virus:
Viral envelope - This is the outer coat of the virus. It is composed of two layers of fatty molecules, called lipids. Embedded in the viral envelope are proteins from the host cell. There are also about 72 copies of Env protein, which protrudes from the envelope surface. Env consists of a cap made of three or four molecules called glycoprotein (gp) 120, and a stem consisting of three to four gp41 molecules.
p17 protein - The HIV matrix protein that lies between the envelope and core
Viral core - Inside the envelope is the core, which contains 2,000 copies of the viral protein, p24. These proteins surround two single strands of HIV RNA, each containing a copy of the virus's nine genes. Three of these genes -- gag, pol and env -- contain information needed to make structural proteins for new virions.
HIV is a retrovirus, which means it has genes composed of ribonucleic acid (RNA) molecules. Like all viruses, HIV replicates inside host cells. It's considered a retrovirus because it uses an enzyme, reverse transcriptase, to convert RNA into DNA.
Once the HIV virus enters the body, it heads for the lymphoid tissues, where it finds T-helper cells. Let's look at how the HIV virus infects immune system cells and replicates:
Binding - The HIV attaches to the immune cell when the gp120 protein of the HIV virus binds with the CD4 protein of the T-helper cell. The viral core enters the T-helper cell and the virion's protein membrane fuses with the cell wall.
Reverse transcription - The viral enzyme, reverse transcriptase, copies the virus's RNA into DNA.
Integration - The newly created DNA is carried into the cell's nucleus by the enzyme, viral integrase, and it binds with cell's DNA. HIV DNA is called a provirus.
Transcription - The viral DNA in the nucleus separates and creates messenger RNA (mRNA), using the cell's own enzymes. The mRNA contains the instructions for making new viral proteins.
Translation - The mRNA is carried back out of the nucleus by the cell's enzymes. The virus then uses the cell's natural protein-making mechanisms to make long chains of viral proteins and enzymes.
Assembly - RNA and viral enzymes gather at the edge of the cell. An enzyme, called protease, cuts the polypeptides into viral proteins.
Budding - New HIV virus particles pinch out from the cell membrane and break away with a piece of the cell membrane surrounding them. This is how enveloped viruses leave the cell. In this way, the host cell is not destroyed.
The newly replicated virions will infect other T-helper cells and cause the person's T-helper cell count to slowly dwindle. The lack of T-helper cells compromises the immune system. When a person's T-helper cell count drops below 200,000 cells per one milliliter of blood, he or she is considered to have AIDS. The development of AIDS takes about two to 15 years, but about half of all people with HIV will develop AIDS within 10 years after becoming infected, according to the CDC.
No one dies from AIDS or HIV specifically. Instead, an AIDS-infected person dies from infections, because his or her immune system has been dissipated. An AIDS patient could die from the common cold as easily as he or she could from cancer. The person's body cannot fight off the infection, and he or she eventually dies.
World Impact
To understand the devastation of AIDS, you have to understand the high mortality rate of people who develop the disease. If you counted every person in the city of Chicago, which is about 3 million, you would get the idea of how many people died worldwide from AIDS in 2002. Basically, that means that each year AIDS kills the same number of people that populate the third largest city in the United States.
More than 42 million people are infected with the HIV virus worldwide, with as many as 28.2 million of those cases in sub-Saharan Africa. Additionally, another 5.3 million new HIV infections occurred in 2002, which represents almost 15,000 new cases per day. The regions with the greatest number of people living HIV/AIDS, according to the World Health Organization, include:
Sub-Saharan Africa - 29.4million
South and Southeast Asia - 6 million
Latin America - 1.5 million
North America - 980,000
Eastern Europe/Central Asia - 1.2 million
HIV/AIDS History
1926-46 - HIV possibly spreads from monkeys to humans. No one knows for sure.
1959 - A man dies in Congo in what many researchers say is the first proven AIDS death.
1981 - The Centers for Disease Control and Prevention (CDC) notices high rate of otherwise rare cancer
1982 - The term AIDS is used for the first time, and CDC defines it.
1983/84 - American and French scientists each claim discovery of the virus that will later be called HIV.
1985 - The FDA approves the first HIV antibody test for blood supplies.
1987 - AZT is the first anti-HIV drug approved by the FDA.
1991 - Basketball star Magic Johnson announces that he is HIV-positive.
1996 - FDA approves first protease inhibitors.
1999 - An estimated 650,000 to 900,000 Americans living with HIV/AIDS.
2002 - AIDS global death toll reaches nearly 28.1 million.
AIDS is clearly one of the worst health crises facing the world today. Without any truly effective treatment, most health experts are putting an emphasis on prevention to stop the spread of HIV.
