Everything about Azt totally explained
Zidovudine (
INN) or
azidothymidine (
AZT) (also called ZDV) is an
antiretroviral drug, the first approved for treatment of
HIV. It is also sold under the names
Retrovir and
Retrovis, and as an ingredient in
Combivir,
Epzicom and
Trizivir. It is an
analog of
thymidine.
History
Zidovudine was the first drug approved for the treatment of AIDS and HIV infection.
Jerome Horwitz of Barbara Ann Karmanos Cancer Institute and
Wayne State University School of Medicine first synthesized AZT in 1964, under a
US National Institutes of Health (NIH)
grant. AZT was originally intended to treat
cancer, but was shelved after it proved ineffective in treating cancer in mice.
In February 1985,
Samuel Broder,
Hiroaki Mitsuya, and
Robert Yarchoan, three scientists in the
National Cancer Institute (NCI), collaborating with Janet Rideout and several other scientists at Burroughs Wellcome (now
GlaxoSmithKline), started working on it as an AIDS drug. After showing that this drug was an effective agent against HIV
in vitro, the team conducted the initial
clinical trial that provided evidence that it could increase
CD4 counts in AIDS patients.
A
placebo-controlled
randomized trial of AZT was subsequently conducted by Burroughs-Wellcome, in which it was shown that AZT could prolong the life of patients with AIDS. Burroughs Wellcome Co. filed for a patent on AZT in 1985. The
Food and Drug Administration (FDA) approved the drug (via the then-new FDA accelerated approval system) for use against HIV, AIDS, and
AIDS Related Complex (ARC, a now-defunct medical term for pre-AIDS illness) on
March 20 1987, and then as a preventive treatment in 1990. It was initially administered in much higher dosages than today, typically 400 mg every four hours (even at night). However, the unavailability at that time of alternatives to treat AIDS affected the risk/benefit ratio, with the certain toxicity of HIV infection outweighing the risk of drug toxicity. One of AZT's side effects includes
anemia, a common complaint in early trials.
Modern treatment regimens typically use lower dosages (for example 300 mg) two times a day. As of 1996, AZT, like other
antiretroviral drugs, is almost always used as part of
highly active antiretroviral therapy (HAART). That is, it's combined with other drugs in order to prevent mutation of HIV into an AZT-resistant form.
The crystal structure of AZT was reported by Alan Howie (
Aberdeen University) in 1988.
In the solid state AZT forms a
hydrogen bond network.
Prophylaxis
AZT may be used in combination with other antiretroviral medications to substantially reduce the risk of HIV infection following a significant exposure to the virus (such as a needle-stick injury involving blood or body fluids from an individual known to be infected with HIV).
AZT is also recommended as part of a regimen to prevent
mother-to-child transmission of HIV during pregnancy, labor and delivery.
With no treatment, approximately 25% of infants whose mothers are infected with HIV will become infected. AZT has been shown to reduce this risk to approximately 8% when given in a three-part regimen during pregnancy, delivery and to the infant for 6 weeks after birth.
Use of appropriate combinations of antiretroviral medications and
cesarean section when necessary can further reduce mother-child transmission of HIV to 1-2%.
Side effects
Common side effects of AZT include nausea, headache, changes in body fat, and discoloration of fingernails and toenails. More severe side effects include
anemia and
bone marrow suppression, which can be overcome using
erythropoietin or
darbepoetin treatments.
23 These unwanted side effects might be caused by the sensitivity of the γ-DNA polymerase in the cell
mitochondria. AZT has been shown to work additively or synergistically with many anti-HIV agents; however,
acyclovir and
ribavirin decrease the antiviral effect of AZT. Drugs that inhibit
hepatic glucuronidation, such as
indomethacin,
acetylsalicylic acid (Aspirin) and
trimethoprim, decrease the elimination rate and increase the toxicity.
The side effects from AZT and its toxicity have been serious enough to warrant a
black box warning from the
FDA.
Viral resistance
AZT doesn't destroy the HIV infection, but only delays the progression of the disease and the replication of virus, even at very high doses. During prolonged AZT treatment HIV has the ability to gain an increased resistance to AZT by
mutation of the
reverse transcriptase. A study showed that AZT couldn't impede the resumption of virus production, and eventually cells treated with AZT produced viruses as much as the untreated cells. So as to slow the development of resistance, it's generally recommended that AZT be given in combination with another
reverse transcriptase inhibitor and an antiretroviral from another group, such as a
protease inhibitor or a
non-nucleoside reverse transcriptase inhibitor.
Mode of action
Like other
reverse transcriptase inhibitors, AZT works by inhibiting the action of
reverse transcriptase, the
enzyme that HIV uses to make a
DNA copy of its
RNA. Reverse transcription is necessary for production of the viral double-stranded
DNA, which is subsequently spliced into the genetic material of a target
cell (where it's called a
provirus).
The azido group increases the
lipophilic nature of AZT, allowing it to cross
cell membranes easily by
diffusion and thereby also to cross the
blood-brain barrier. Cellular enzymes convert AZT into the effective 5'-triphosphate form. Studies have shown that the termination of the formed DNA chains is the specific factor in the inhibitory effect.
The triphosphate form also has some ability to inhibit cellular
DNA polymerase, which is used by normal cells as part of
cell division. However, AZT has a 100- to 300-fold greater affinity for the HIV reverse transcriptase, as compared to the human DNA polymerase, accounting for its selective antiviral activity. A special kind of cellular DNA polymerase that replicates the DNA in
mitochondria is relatively more sensitive to inhibition by AZT, and this accounts for certain toxicities such as damage to cardiac and other muscles (also called
myositis).
Patent issues
AZT has been the target of some controversy due to the nature of the patent process.
In 1991,
Public Citizen filed a lawsuit claiming that the AZT/Zidovudine patent was invalid. The
United States Court of Appeals for the Federal Circuit ruled in 1992 in favour of
Burroughs-Wellcome, the licensee of the patent. The court ruled that the challenge of the citizen group wasn't the correct approach to evaluate the underlying validity of the patent which was already being litigated in another suit. In 2002, another lawsuit was filed over the patent by the
AIDS Healthcare Foundation.
However, the
patent expired in 2005 (placing AZT in the
public domain), allowing other drug companies to manufacture and market generic AZT without having to pay
GlaxoSmithKline any royalties. The U.S. FDA has since approved four
generic forms of AZT for sale in the U.S.
Footnotes
- Katzung, Bertram G. Basic and Clinical Pharmacology, 10th edition. New York: McGraw, Hill Lange Medical, 2007, pp.536-541
Further Information
Get more info on 'Azt'.
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