Download - 2.antitumor antibiotics
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A. Cytotoxic drugs 1. Alkylating agents 2. Platinum coordination complexes 3.Antimetabolites 4.Antibiotics 5. PlantsB. Targeted drugs 1. Tyrosine protein kinase inhibitors2. EGF receptor inhibitors3. Angiogenesis inhibitors4. Biological response modifiers C. Hormonal drugs
CLASSIFICATION OF ANTICANCER DRUGS
Drugs from Natural sourceA variety of the anticancer agents available today are derived from natural sources Microbial sources (antibiotics) and Plants Both the antibiotic and natural product from
plants classes have multiple inhibitory effects on cell growth; however,
They primarily act to disrupt DNA function and cell division.
Mechanisms by which these agents target DNA is Intercalation, Alkylation, and Strand breakage either directly or as a result of enzyme inhibition.
Steps in Intercalation Intercalating drugs contain a planar aromatic or heteroaromatic
ring system which can slip into the double helix of DNA and distort its structure.
Drug should induce a cavity between base pairs so that insertion may occur b/n drug and DNA.
The interaction of the intercalator (drug) and the adjacent base pairs of DNA occurs by the overlap of p-orbitals of the intercalator and the base pairs.
The p-orbitals of the intercalator/intercalation species are provided by a combination of aromatic and conjugated systems that impart the planarity required for intercalation.
The side chains of intercalator has a cationicmoiety, which may form ionic bonds with the anionic phosphate backbone in DNA.
The overall result of these interactions is to cause a local bend or kink or cut in DNA resulting in a local shape distortion.
Inhibition of topoisomerase /DNA gyrase (Topoisomerase enzymes are responsible for the unwinding and relaxation of DNA so that transcription may occur)
Classification of Antitumor Antibiotics drugsMany of the antineoplastic antibiotics are produced by
the soil fungus Streptomyces.
Anthracyclines: Doxorubicin, Daunorubicin, Epirubicin, Mitoxantrone, and Idarubicin.
Actinomycins/Chromomycins: Dactinomycin and Plicamycin.
Miscellaneous: Mitomycin and Bleomycin.
AntracyclinesDoxorubicin (previously called adriamycin)belongs to a group of naturally occurring antibiotics called the anthracyclines, and was isolated from Streptomyces peucetius in 1967. It is very similar in structure to Daunorubicin—differing only in one hydroxyl group at C9 acetyl group in daunorubicin & hydroxy acetyl group in doxorubicin.
O
O
OH
OH
OH
C CH2
O
OH
OO
H
H
OHH
NH2H
H
CH3
OCH3
ABCD
Doxorubicin
12
34 5 6 7
8
9101112
O
O
OH
OH
OH
C CH3
O
OO
H
H
OHH
NH2H
H
CH3
OCH3
ABCD
Daunorubicin
12
34 5 6 7
8
9101112
The second generation anthracyclines Epirubicin and Idarubicin lacks the methoxy group at C4 , so it is more polar and has an altered metabolism which prolongs its half-life.
O
O
OH
OH
OH
C CH2
O
OH
OO
H
OH
HH
NH2H
H
CH3
OCH3
ABCD
Epirubicin
O
OH
OH
OH
OH
C CH3
O
OO
H
H
OHH
NH2H
H
CH3
ABCD
Idarubicin
12
34 5 6 7
8
9101112
SAR• The anthraquinone chromophore is an important structural feature of the
anthracyclines. • the anthraquinone chromophore, consisting quinone and a hydroquinone moiety
on adjacent rings. • The phenolic hydroxy groups present in this core were found to undergo ready
acylation and alkylation under standard reaction conditions.• It has been shown that, O-methylation of the C-6 or C-11 phenolic groups
results in analogs with markedly reduced activity,• whereas C-4 modifications such as demethylation and deoxygenation do not
affect bioactivity. • The transformation of the C-5 carbonyl to the corresponding imino functionality
resulted in an analog that retained activity and was found to be significantly less cardiotoxic than the parent compound.
• Ring-A, alicyclic moiety bearing the two-carbon side chain group and the tertiary hydroxyl group at C-9 and also having a chiral hydroxy group at C-7, which in turn connected to the aminosugar unit;
• the amino sugar residue, attached to the C-7 hydroxy group through an a-glycosidic linkage;
Iron-mediated generation of free oxygen radicals that damage the DNA, proteins and cell membranes
Drug-DNA Complex
Mitoxantrone It is a simplified, synthetic analogue of the anthracyclines where the tetracyclic ring system has been ‘pruned’ back to the planar tricyclic system required for intercalation.• There is no sugar ring which is responsible for cardio
toxic side effects.• The pharmacophore groups are highlighted inbox and which are responsibleFor binding with DNA base Pairs.Anthrace ring interculate b/n DNA base pairs.
Uses of AnthracyclinesDoxorubicin is used to treat a broad spectrum of solid
tumours, as well as acute leukaemias, lymphomas, and childhood tumours.
Daunorubicin is indicated for acute leukaemias. Epirubicin is considered effective against breast cancer. Idarubicin is used in the treatment of haematological
malignancies and can be given orally. Both epirubicin and idarubicin are second-generation
anthracyclines with less cardiac toxicity than doxorubicin or daunorubicin.
Mitoxantrone is used for the treatment of certain leukaemias and lymphomas, and for advanced breast cancer.
Side effects of AnthracyclinesCauses cardiotoxicity
Interference with ryanodine receptors of the sarcoplasmic reticulum in the heart muscle cells
Sugar residue is one of the cause for cvs toxicity Free-radical formation in the heart Leads to forms of congestive heart failure, often years
after treatmentCounteract with dexrazoxaneLiposomes can be useful as carriers to deliver
doxorubicin to target tumours and this approach is associated with less cardiac toxicity.
Extravasation injury produce extensive local necrosis.
Extravasation Injury by Doxorubicin
Redness , swelling blisters Tissue necrosis
surgery to remove tissue permanent damage
ActinomycinsThe Actinomycins are a group of compounds
that are isolated from various species of Streptomyces,
Phenoxazone chromophoreAnd has di pentapeptide portionThe 1St drug from this group is Actinomycin D
which is known as DactinomycinOther Pilcamycin
Actinomycin-D/ DactinomycinPhenoxazone chromophoreAnd has di pentapeptide portionThe pentapeptides namely L-
threonine, D-valine, L-proline, sarcosine, and L-methylvaline form a lactone via the side chain hydroxyl of L-threonine and the carboxyl group of L-methylvaline
An amide linkage is present b/n the amino group of L-threonine and carbonyls of 1 and 9 of Phenoxazone chromophore
• The structural feature of dactinomycin important for its mechanism of cytotoxicity is
• the planar phenoxazone ring, which facilitates intercalation between DNA base pairs.
• The peptide loops are located within the minor groove and provide for additional interactions.
• Dactinomycin binds noncovalently to double-stranded DNA by partial intercalation between adjacent guanine cytosine bases resulting in inhibition of DNA function.
• Additional hydrophobic interactions and hydrogen bonds are formed between the peptide loops and the sugars and base pairs within the minor groove.
Mechanism of action of Dactinomycin
Minor Groove D
D
By an effect on topoisomerase IIthat unwinds the DNA helix for replication It intercalates, in the minor groove of DNA, between adjacent guanine-cytosine pairs thus preventing transcription.DNA synthesis may also be inhibited, and the agent is considered as cell cycle specific for the G1 and S phases. Block DNA Gyrase/ topoisomerase
Usesis given mainly intravenously to treat paediatric solid tumours, including Wilm's tumour and Ewing's tumour
Mitomycin C
N NH
O
OO
ONH2
ONH2
CH3
CH3
H
H
H
urethan
aziridine
take part in alkylation of DNA
quinone
(participate in free radical
reactions generating superoxide)
It is a natural product isolated from Streptomyces verticillataus as well as from other sources.
Mitomycin
Reductive activation and bisalkylation of DNA by Mitomycin C
Streptomyces caespitosus
Interstrand and intrastrand alkylation of DNA by bioreductively activated mitomycin C.
Uses of Mitomycin C
Adenocarcinoma of the stomach, colon, or pancreas. Its use and application in ophthalmology has been increasing
in recent years because of its modulatory effects on wound healing.
Current applications include Pterygium surgery, Glaucoma surgery, Corneal refractive surgery, Cicatricial eye disease, Conjunctival neoplasia and allergic eye disease.