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43431
Principles of Chemotherapy
Description
Cancer Biology Mind Map on Principles of Chemotherapy, created by maisie_oj on 11/04/2013.
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cancer biology
cancer biology
Mind Map by
maisie_oj
, updated more than 1 year ago
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Created by
maisie_oj
over 11 years ago
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Resource summary
Principles of Chemotherapy
Gets to tumour via bloodstream
Reaches primary tumour and metastases
Kills cells by apoptosis
Has some toxicity to heathly cells
Due to therapeutic window - gap between efficacy and toxicity
Combinations of chemotherapeutic drugs given in cycles
Treatment 1 is strong to reduce tumour size before surgery, irradiation and multiple course chemotherapy
Treatment 2 is used to eliminate micrometastatic disease
Immunotherapy - Can be used to guide imaging of tumour
Drug examples
Pentostatin - inhibits adenosine deaminase
6-Mercaptopurine and 6-Tioguanine - inhibit purine synthesis and nucleotide interconversions
Methotrexate - inhibits purine and DTMP synthesis
Cytarabine - inhibits DNA polymerase and RNA function
Crisantaspase - deaminates asparagine and inhibits protein synthesis
5-Fluorouracil - inhibits DTMP synthesis
Bleomycins - damage DNA and prevent repair
Alkylating agents, Mytomycin and Cisplatin - cross-link DNA
Campothecins, Doxorubicin, Etoposide and Amsacrine - inhibit RNA synthesis and topoisomerase II
Dactinomycin - intercalates in DNA, inhibits topoisomerase II and RNA synthesis
Vinca Alkaloids and Taxanes - inhibit function of microtubules
Major Classes of Cytotoxics
DNA binding drugs
Cause direct DNA damage and block DNA replication
e.g. alkylating agents and platinum
Newer drugs have 2 alkyl groups - bifunctional
2 groups can be pinned together by alkyl groups
platinum compounds are also bifunctional
e.g. Nitrogen/Sulphur mustard, Busulfan (alkylators)
e.g. Cisplatin, Carboplatin (platinum compounds)
Developed from mustard gas
Has an effect on proliferating cells
Activated inside the cell by loss of groups, generating reactive species
Reactive species form adducts with biological molecules (especially Guanine)
Inactivated inside cell by glutathione (GSH)
Antimetabolites
Intefere with nucleotide synthesis and block DNA replication
By targeting key enzymes involved in purine/pyrimidine bases
Can be incorporated into DNA/RNA
Causes DNA/RNA damage
Bolus 5-fluorouracil is incorporated into RNA
Intrafusional 5-FU is incorporated into DNA
Often given as IV and bolus
Now given as oral pro-drug Capecitabine
e.g. purine analogues, pyrimidine analogues and antifolates
Structure very similar to endogenous compounds
e.g. 5-fluorouracil (similar to uracil) - becomes FdUMP when activated
FdUMP inhibits thymidylate synthase (TS)
Starves cells of dTTP - blocks DNA synthesis
In normal cells Folate - dihydrofolate (FH2/folic acid) via dihydrofolate reductase
FH2 - tetrahudrofolate (FH4) via DHFR
FH4 is a methyl donor for deoxyuridine dUMP - dUTP (also regenerates FH2)
In the presence of TS
e.g. Methotrexate similar to folic acid (FH2)
Folic acid is vital for synthesis of purines and thymidylate
Methotrexate has a higher affinity for an enzyme than FH2
Additional H/ionic bond formation
FH4 depletion
dTMP depletion
Inhibition of DNA synthesis
Taken up through folate transport system (resistance through decreased uptake)
Metabolites (polyglutamate derivatives) can be retained for weeks/months
Most active in S phase
Have to be activated by enzyme systems, intra-cellularly
Addition of sugar to make nucleosides
Phosphorylation to nucleotide
Incorporated into DNA/RNA
Topoisomerase inhibitors
Cause DNA strand breaks and block Topoisomerase I and II involved in DNA winding/unwinding
Stabilise Topo-DNA complex
Topo I inhibitors - Irinotecan, Topotecan Topo
Topo II inhibitors - Doxorubicin, Idarubicin, Etoposide
Tubulin acting drugs
Block chromatin separation to daughter cells
Vincas inhibit microtubule formation
Taxabes promote microtubule formation
Tubulin produces microtubules
Form part of cytoskeleton
Involved in cilia and flagella
Part of neural axon
Form spindle fibres during mitosis
e.g. taxanes and vinca alkaloids
Resistance
Mechanisms of Drug Resistance
Efflux pump
Alterations in membrane lipids
Compartmentalisation
Decreased uptake
Increased/altered drug targets
Metabolism
Altered cell cycle checkpoints
Induction of emergency response genes - increased DNA repair, apoptosis inhibition
Cancer is caused by genetic lesions, leading to uncontrolled cell growth and loss of differentiation
Specific chromosomal translocations identified in some haematological malignancies
Could switching off the gene cure cancer?
New Drug Targets
Target specific proteins that are altered/malfunctional in cancer cells
Evading apoptosis
BCL-2
NF-kB
Heat-shock proteins
Histone deactylases
Growth receptor signalling
Receptor tyrosine kinases
Signal transduction pathways
Heat-shock proteins
Histone deacetylases
Anti-growth signals
TGF-beta targets
Limitless replication
Telomerase insensitivity
Angiogenic/Metastatic Proteins
VEGF
Receptor tyrosine kinases
Heat-shock proteins
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