Everything about Doxorubicin totally explained
Doxorubicin (trade name
Adriamycin) or
hydroxyldaunorubicin is a
drug widely used in cancer
chemotherapy. It is an
anthracycline antibiotic and structurally closely related to
daunomycin, and also
intercalates DNA. It is commonly used in the treatment of a wide range of
cancers.
The drug is administered by
injection. It may be sold under the brand names
Adriamycin PFS,
Adriamycin RDF, or
Rubex.
Doxil is a
liposome-encapsulated dosage form of doxorubicin made by Ben Venue Laboratories for
Johnson & Johnson. The main benefits of this form are a reduction in cardiotoxicity. It is photosensitive and it's often covered by an aluminium bag to prevent light interacting affecting it.
History
The history of doxorubicin can be traced back to the 1950s, when an
Italian research company,
Farmitalia Research Laboratories, began an organized effort to find anticancer compounds from soil-based
microbes. A soil sample was isolated from the area surrounding the
Castel del Monte, a 13th century castle. A new strain of
Streptomyces peucetius which produced a bright red pigment was isolated, and an antibiotic was produced from this bacterium that was found to have good activity against
murine tumors. Since a group of
French researchers discovered the same compound at about the same time, the two teams named the compound
daunorubicin, combining the name
Dauni, a pre-Roman tribe that occupied the area of Italy where the compound was isolated, with the French word for
ruby,
rubis, describing the color. Clinical trials began in the 1960s, and the drug saw success in treating acute leukemia and lymphoma. However, by 1967, it was recognized that daunorubicin could produce fatal cardiac toxicity.
Researchers at Farmitalia soon discovered that changes in biological activity could be made by minor changes in the structure of the compound. A strain of
Streptomyces was mutated using N-nitroso-N-methyl urethane and this new strain produced a different, red-colored antibiotic. They named this new compound Adriamycin, after the
Adriatic Sea, and the name was later changed to doxorubicin to conform to the established naming convention. Doxorubicin showed better activity than daunorubicin against murine tumors, and especially solid tumors. It also showed a relatively higher therapeutic index, yet the
cardiotoxicity remained.
Doxorubicin and daunorubicin together can be thought of as
prototype compounds for the anthracyclines. Subsequent research by many investigators throughout the world has led to many other anthracycline antibiotics, or analogs, and today, it's estimated that there are over 2,000 known analogs of doxorubicin. By 1991, 553 of them have been evaluated in the screening program at the
National Cancer Institute (NCI). This strain was created by Arcamone et. al in 1969 by
mutating a
strain producing daunorubicin, but not DXR, at least in detectable quantities. Subsequently, Hutchinson's group showed that under special environmental conditions, or by the introduction of
genetic modifications, other strains of
streptomyces can produce doxorubicin. His group has also
cloned many of the
genes required for DXR production, although not all of them have been fully characterized. In 1996, Strohl's group discovered, isolated and characterized dox A, the
gene encoding the
enzyme that converts daunorubicin into DXR. By 1999, they produced recombinant Dox A, a
Cytochrome P450 oxidase, and found that it
catalyzes multiple steps in DXR
biosynthesis, including steps leading to daunorubicin. This was significant because it became clear that all daunorubicin producing strains have the necessary
genes to produce DXR, the much more therapeutically important of the two. Hutchinson's group went on to develop methods to improve the yield of DXR, from the
fermentation process used in its commercial production, not only by introducing Dox A encoding
plasmids, but also by introducing mutations to deactivate
enzymes that shunt DXR precursors to less useful products, for example baumycin-like
glycosides. Some triple mutants, that also
over-expressed Dox A, were able to double the yield of DXR. This is of more than academic interest because at that time DXR cost about $1.37 million per kg and current production in 1999 was 225 kg per annum. More efficient production techniques have brought the price down to $1.1 million per kg for the non-
liposomal formulation. Although DXR can be produced
semi-synthetically from daunorubicin, the process involves
electrophilic bromination and multiple steps and the yield is poor. Since daunorubicin is produced by
fermentation, it would be ideal if the
bacteria could complete DXR synthesis more effectively.
Mechanism of action
The exact mechanism of action of doxorubicin is complex and still somewhat unclear, though it's thought to interact with
DNA by intercalation. Doxorubicin is known to interact with DNA by
intercalation and inhibition of macromolecular
biosynthesis. This inhibits the progression of the enzyme
topoisomerase II, which unwinds DNA for
transcription. Doxorubicin stabilizes the topoisomerase II complex after it has broken the DNA chain for replication, preventing the DNA double helix from being resealed and thereby stopping the process of
replication.
The planar aromatic chromophore portion of the molecule intercalates between two base pairs of the DNA, while the six-membered daunosamine sugar sits in the minor groove and interacts with flanking base pairs immediately adjacent to the intercalation site, as evidenced by several crystal structures.
Clinical use
Doxorubicin is commonly used to treat some
leukemias,
Hodgkin's lymphoma, as well as cancers of the
bladder,
breast,
stomach,
lung,
ovaries,
thyroid,
soft tissue sarcoma,
multiple myeloma, and others.
Experimental therapy
Combination therapy experiments with
sirolimus (rapamycin) and doxorubicin have shown promise in treating
Akt-positive
lymphomas in mice.
Recent animal research coupling a
murine monoclonal antibody with doxorubicin has created an
immunoconjugate that was able to eliminate
HIV-1 infection in mice. Current treatment with
antiretroviral therapy (ART) still leaves pockets of HIV within the host. The immunoconjugate could potentially provide a complimentary treatment to ART to eradicate antigen-expressing
T cells.
Side effects
Acute side-effects of doxorubicin can include nausea, vomiting, and heart
arrhythmias. It can also cause
neutropenia (a decrease in
white blood cells), as well as complete
alopecia (hair loss). When the cumulative dose of doxorubicin reaches 550 mg/m², the risks of developing cardiac side effects, including
congestive heart failure, dilated
cardiomyopathy, and death, dramatically increase. Doxorubicin cardiotoxicity is characterized by a dose-dependent decline in
mitochondrial
oxidative phosphorylation. Reactive oxygen species, generated by the interaction of doxorubicin with iron, can then damage the myocytes (heart cells), causing myofibrillar loss and cytoplasmic vacuolization. Additionally, some patients may develop
Palmar plantar erythrodysesthesia, or, "Hand-Foot Syndrome," characterized by skin eruptions on the palms of the hand or soles of the feet, characterized by swelling, pain and erythema.
Further Information
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