Cancer Drug Table 2024 PDF

Summary

This document is a table that provides detail regarding different cancer drugs, their mechanism of action, activation, pharmacokinetics, toxicities, resistances, and notes. It seems to be for a postgraduate course.

Full Transcript

PHRM311 Oncology - Drug Lists Dr. Judy Wong

Cell Cycle Specific Agents
Drug Mechanism of Activation Pharmcokinetics Toxicities Resistance Notes
Action
Anti-metabolite: Folate analogs
Methotrexate Inhibition of Parent drug and Well absorbed GI disturbances. 1. Impaired Folinic acid
dihydrofolate metabolite orally, also Myelosuppression cellular uptake rescue allow
Rheumatrexâ reductase, inhibit competitively bind administered IV Nephropathy lethal dose of
the generation of to DHFR and IT. 50% Teratogenic 2. DHFR MTX be used
tetrahydrofolate plasma protein Pulmonary toxicity mutation or in aggressive
and downstream binding. Excreted gene chemo-
purine and thymine principally by the High amplification therapy
synthesis. kidney. emetogenicity is
dose-related 3. Increase
Activity is S-phase MRP drug
specific export
Leucovorin 1. protection of Rapidly converted Orally absorbed. Toxicity mainly
(Folinic Acids) normal cells in into 5- Excretion through related to the co-
high dose MTX methyltetrahydrofol renal elimination administered
Wellcovorin â therapy ate derivatives in compounds
the intestine
2. synergistic with Non-emetogenic
5-FU to increase
formation of TS-
5dUMP-MTHR
ternary complex.
Raltitrexed Competitive Polyglutamated by IV infusion. GI disturbances. 1. Increase TS
inhibition of cellular Myelosuppression levels
Tomudex â thymidylate folylpolyglutamate Hepatic 2.Decrease
synthase synthase (FPGS). disturbances are poly-
Polyglutamation rare but could be glutamation
Activity is S-phase increase the binding fatal
specific affinity of 3.Impaired
Raltitrexed to TS. Low to moderate intra-cellular
emetogenicity uptake

Page 1 of 13
PHRM311 Oncology - Drug Lists Dr. Judy Wong

Anti-Metabolites: pyrimidine analogs
Fluorouracil Inhibits DNA Activated in target Variable oral GI disturbances 1. Decreased Active drug is
(5-FU) synthesis by (tumor) cells to absorption. Myelosuppression level of metabolized
inhibiting FdUMP by various Usually Cardio-toxicity thymidylate by dihydro-
Adrucil â thymidine metabolic pathways administered IP or Palmar-plantar synthase pyrimidine
Fluoroplex â synthesis. IV (bolus, erythro- (target) dehydro-
FdUMP forms a infusions). 80% dysesthesia genase (DPD)
ternary complex catabolized by liver 2. Decreased to inactive
with thymidylate and excreted as Rarely emetogenic concentration metabolites.
synthase and respiratory CO2. Mild nausea and of MTHF Deficiency of
methylene vomiting. (cofactor for DPD cause
tetrahydrofolate ternary severe
Capecitabine Metabolized to Oral administration, complex) toxicities.
Activity is S-phase 5’deoxy-5- recommended after
Xeloda â specific fluorocytidine in food. 3. increase
liver, and activated Capecitabine is an expression of
to FdUMP in target orally available anti-apoptotic
cells prodrug of 5-FU proteins
Cytarabine As an analog to Activated Low oral Cerebellar toxicity 1. Increased
(Cytosine cytidine, Ara-C is intracellularly to bioavailability. IV, Myelosuppression metabolism by
Arabinoside, incorporated into cytosine SC and IT Ocular toxicity cytidine
Ara-C) DNA. arabinoside administered. Pulmonary edema deaminase
Incorporation triphosphate Rapid and Fever, Flu-like
Cytosar â causes chain extensively symptoms 2. decreased
termination. Also metabolized by import of
inhibits DNA cytidine deaminase High drugs
polymerase in to inactive emetogenicity is
replication and metabolites. dose-related 3. increase
repair functions Excretion of Ara-C survival
and metabolite pathway
Activity is S-phase chiefly through proteins
specific renal elimination expression

Page 2 of 13
PHRM311 Oncology - Drug Lists Dr. Judy Wong

Gemcitabine Analog to cytidine, Activated IV infusion. Rapid Myelosuppression see above for
Gemzar is intracellularly to and extensively Hemolytic uremic Ara-C
Gemzar â incorporated into dFdCTP metabolized by syndrome
DNA. cytidine deaminase Pulmonary toxicity
Incorporation to inactive is rare but could be
causes chain metabolites. severe.
termination. Also Elevated hepatic
inhibits DNA Elimination mainly enzyme with
polymerase in through renal unclear clinical
replication and clearance. significance.
repair functions
Low to moderate
Activity is S-phase emetogenicity
specific
Topoisomerases Enzyme Inhibitors
Irinotecan Inhibition of Prodrug, activate IV infusion, GI , life- 1. Over- UGT enzyme
Topoisomerase I by irinotecan is rapidly threatening expression of (glucuronidat
Camptosar â Carboxy-esterase converted to its diarrhea. MRP drug ion) poly-
Cytotoxicity is S- active metabolite Cholinergic efflux pump. morphism
phase specific SN-38. Syndrome determines
Both parent drug induced 2. mutations in the clinical
and SN-38 are abdominal pain. Topo I use of
highly protein- irinotecan
bound. Myelosuppression 3. Increased
Hepatic metabolism DNA repair
by CYP3A and the activities
glucuronidation of High-moderate
SN-38 are clinically emetogenicity
important.

Page 3 of 13
PHRM311 Oncology - Drug Lists Dr. Judy Wong

Etoposide Inhibition of Oral or IV Myelosuppression 1. P- Secondary
Topoisomerase II (preferred). Congested heart glycoprotein leukemia due
Vepesid â by formation of a 40% of failure/myocardial over- to drug
Etopophos â ternary complex administered dose infarction expression treatment seen
between Topo II, is excreted intact. in childhood
drug and DNA. Extensively bound Induces Type I 2. mutation or acute lympho-
to plasma proteins. Hypersensitivity reduced blastic
Activity is S and Reduction in serum Reactions expression of leukemia
G2 phase specific. albumin will Topo II (ALL)
increase toxicities Low to moderate patients
of etoposide. emetogenicity 3. mutation or
loss of function
of p53

Microtubule Inhibitors
Vinblastine Bind to specific IV infusion. Myelosuppression 1. Increase Vinblastine is
site of b-tubulin, Variable plasma GI disturbances expression of lethal if
Velbe â preventing the protein binding. Peripheral P-glycoprotein injected IT
polymerizaton of Drug is excreted in neuropathy and/or the
tubulins to form both urine and Brochospasm MRP drug
microtubule. feces. Tissue necrosis due efflux pumps
to extravasation
Cells are arrested 2. mutations in
in mitosis. rarely emetogenic b-tubulin
binding sites
Vincristine Activity specific IV infusion. Neurotoxicity. Vincristine is
for M-phase Vincristine is Peripheral lethal if
Oncovin â metabolized by neuropathy. injected IT
Vincasar â CYP3A and alopecia
excreted primarily Myelosuppression
in feces less common than
in vinblastine

non-emetogenic

Page 4 of 13
PHRM311 Oncology - Drug Lists Dr. Judy Wong

Paclitaxel Binds to b-tubulin Not absorbed Myelosuppression 1. Increased Severe hyper-
and promote the orally. Administer Peripheral expression of sensitivity to
Taxol â stability of by IV infusion, or neuropathy P-glycoprotein paclitaxel
microtubule by IP. Hepatic could be
polymers. Cells metabolism Hypersensitivity 2. Mutations in minimized by
are arrested in (CYP2C8) and Reactions b-tubulin pretreatment
metaphase of biliary secretion with cortico-
mitosis. account for CVS toxicity: 3. increase steroid
majority of Bradycardia and expression of
Activity is specific elimination hypotension survivin, an
for M-phase anti-apoptotic
Low-moderate factor
emetogenicity
Docetaxel Higher affinity to Administer by IV Myelosuppression Wide inter-
b-tubulin than infusion. Pulmonary patient
Taxotere â paclitaxel. Clearance by toxicity variability
Stabilized CYPA4/5. due to
microtubule Excretion through Less incidences of CYP3A4
formation, arrested biliary/fecal hypersensitivity poly-
cells in mitosis. elimination than paclitaxel morphism

Activity is M- Low emetogenicity
phase specific

Genotoxic Agents
Drug Mechanism of Action Activation Pharmacokinetics Toxicities Resistance Notes
Alkylating Agents: Nitrogen Mustards
Cyclophosphamide Alkylation of Prodrug, Absorption: Bone marrow, 1. increased Inter-
nucleophilic activated oral or IV neurotoxicity glutathione patient
Cytoxanâ moieties on DNA by mucosal, GI , conjugation variability
Procytoxâ and protein CYP2B6 Elimination: genitourinary tract of
hepatic epithelium, hair 2. increased activation
metabolism follicles metabolism by

Page 5 of 13
PHRM311 Oncology - Drug Lists Dr. Judy Wong

(CY3A4, ADH, Cardio-toxicity at aldehyde and
GSH and others), high doses dehydrogenase toxicity
half-life of parent Hemorrhagic
drug ~7hours cystitis can be 3. increase Secondary
relieved by DNA repair by urinary
High coadministration MGMT bladder
emetogenicity is of mesna and
dose related hemato-
logical
cancers
Ifosfamide Oxazophosphorine Prodrug, Administered Bone marrow, 1. increased different
alkylating agent. activation by oral or IV neurotoxicity, glutathione pharmaco-
Ifex â Ifosfamide in the liver infusion. urotoxicity and conjugation kinetics
interferes with DNA by hepatic Elimination: nephro-toxicity parameters
metabolism through enzyme, renal (up to 50% hemorrhagic 2. increased from
formation of DNA- mainly unchanged drug) cystitis metabolism by cyclo-
DNA crosslinks CYP3A4, and through aldehyde phosph-
and also hepatic low-moderate dehydrogenase amide
CYP2C9 metabolism. emetogenicity may
Ifosfamide is a 3. increase explain its
major substrate coadministration DNA repair by altered
of CYP3A4. of mesna MGMT efficacy
half-life of parent and
drug ~8hours toxicity
profiles

Mesna Prevention of 50% oral Mild at clinical Half-life of
hemorrhagic cystitis bioavailability; doses mesna is
Uromitexan â by reacting with drug is rapidly shorter
acrolein (a cleared from not emetogenic than cyclo-
metabolite of plasma and phosphami
cyclophosphamide) converted back to de; needs
to form stable, non- parent drug in continuous
urotoxic compounds renal tubules infusion or

Page 6 of 13
PHRM311 Oncology - Drug Lists Dr. Judy Wong

before secretion multiple
into urine for its doses for
protective protective
function effects
Platinum Compounds
Cisplatin Inter and intra- Parent mainly IV and Myelosuppression 1. reduced Synergy
strand DNA drug is IP in special nephrotoxicity, intracellular with
Platinolâ crosslinking; activated applications; peripheral sensory drug etoposide
Platinol-AQâ N7 of guanine is a by cisplatin is 90% neuropathy, concentration
particularly active hydrolysis. protein bound; ototoxicity with
site Quick unbound drug is cumulative drug
kinetics. rapidly cleared dose and is 2. increased
from plasma and irreversible, nerve capacity of
excreted by the dysfunction glutathione
kidney Highly emetic and/or other
Carboplatin Activated IV infusion. Carboplatin is less sulfhydryls to Effective
by Majority of nephrotoxic and inactivate alternative
Paraplatin â hydrolysis parent drug in ototoxic than drugs to cisplatin
ParaplatinAQ â to form unbound form; cisplatin; in patients
reactive reactive platinum myelosuppression, with
platinum metabolite is nausea and 3.over- impaired
compound. 90% protein vomiting expression of renal
Conversion bound; majority High-moderate nucleotide function.
is much of drug is emetic excision repair
slower than eliminated by (NER) genes
cisplatin renal excretion
Oxaliplatin Parent IV only; short Peripheral Synergy
drug is half-life in sensory with 5-FU
Eloxatin â activated plasma and neuropathy, and
by rapidly anemia, diarrhea, irinotecan.
hydrolysis redistributed; myelosuppression,
to form renal excretion and renal toxicity
reactive Pt
compound.

Page 7 of 13
PHRM311 Oncology - Drug Lists Dr. Judy Wong

High-moderate
emetic
Anthracyclines Antibiotics
Doxorubicin 1. Formation of IV bolus and IP Myelosuppression, 1. over- Con-
tripartite complex in special congestive heart expression of comitant
Adriamycin â with Topo II and applications; failure P-glycoprotein administr
DNA excreted by a drug efflux ation of
combination of dose-related high pump. dexrazo-
2. Intercalates DNA hepatic moderate xane may
and inhibits metabolism emetogenicity 2. decreased reduce
transcription and (aldo-keto Topo II cardiac
replication reductase) and activity damage
biliary excretion
3. Formation of free mechanism. 3. increased
radicals and glutathione
induced oxidative peroxidase
Epirubicin stress IV bolus Reduced cardiac metabolism
administered. toxicity compared
Pharmorubicin â Extensive hepatic to doxorubicin;
Ellence â metabolism Myelosuppression

dose-related high
moderate
emetogenicity

Page 8 of 13
 PHRM311 Oncology - Drug Lists Dr. Judy Wong

Poly-ADP-Ribose Polymerase Inhibitors
Drug Mechanism of Action ADME Toxicities Resistance Notes
Olaparib PARP1 and 2 orally administered. Does not Myleosuppression 1. Increase Inter-
Inhibitors: cross BBB drug efflux by patient
Lynoparza â 1) inhibits single Rare pneumonitis PgP variability
stranded DNA breaks Metabolized by CYP3A4 can be fatal and drug
repair by BER 2. restoration inter-
Eliminate by renal and GI of HR repair actions
2) cause routes due to
accumulations of 3. increase CYP3A4
ssDSB that change to DNA involve-
DSB during DNA replication ment.
replication à fork repair
specific toxicities to
Niraparib HR-negative cancers orally administered. Cross Myleosuppression Pre-
BBB. existing
Zejula â 3) impaired CVS toxicities hyper-
replication fork Metabolise by carboxyl- Hypertension and tension
repair esterase hypertensive crisis needed to
be well-
Eliminate by renal Rare intestinal controlled
hepatobiliary and GI routes perforations can be prior to Rx
fatal

Molecular Targeted Anti-Cancer Chemotherapeutic Agents
Small Molecule Tyrosine Kinase Inhibitor
Agents Mechanism of Action ADME Toxicities Resistances NOTES
Palbociclib Inhibits CDK4/6 and arrest cell Orally Myelosuppression. For all 3 Interpatient
cycle at G1/S and apoptosis. administered. 46% Low but recognized agents variability and
Ibranceâ Competitive binding at the ATP bioavailability risk of pulmonary drug
binding site leads to inhibition of metabolized by embolism. 1. Loss of Rb1 interaction
downstream phosphorylation of CYP3A and Teratogenic. must be
protein targets. sulfotransferase 2A. considered due

Page 9 of 13
 PHRM311 Oncology - Drug Lists Dr. Judy Wong

Excreted mainly as 2. E2F to CYP3A4
metabolites by fecal amplification involvement.
route.
Ribociclib Orally Myelosuppression. 3. aberrant
administered. QT prolongation, cyclin E
Kisqaliâ Extensively rare hepatotoxicity signaling
metabolized by (2%) but therapeutic
CYP3A4. excreted monitoring required, 4. Increase in
mainly as pulmonary drug efflux
metabolites by fecal embolism. via ABC-
route. transporters
counter-indicated in
untreated congenital
long QT syndrome
cases
Abemaciclib Orally Myelosuppression.
administered. 45% Diarrhea (90%,
Verzenioâ bioavailability severe in less than
metabolized by 1%)
CYP3A4. Excreted psychiatric (anxiety
mainly as and insomnia), rare
metabolites by fecal interstitial lung
route. diseases but could
be fatal
Imatinib Inhibits BCR-Abl tyrosine kinase. Orally Myelosuppression 1. mutation in Interpatient
Competitive binding at the ATP administered. 98% Edema tyrosine variability and
Gleevecâ binding site leads to inhibition of bioavailability Hepatic kinase drug
downstream phosphorylation of 75% oxidized by disturbances, (particularly interaction
protein targets. Also inhibits CYP3A4/5; severe skin reactions T315I) must be
tyrosine kinase for platelet-derived excreted by both considered due
growth factor and c-Kit. renal and fecal HBV reactivation 2. amplifi- to CYP3A4
New congeners to overcome TKI routes cation of involvement.
resistance include nilotinib, BCR-Ab
dasatinib, bosatinib and ponatinib

Page 10 of 13
 PHRM311 Oncology - Drug Lists Dr. Judy Wong

(only congener active against 3. increase
T315I-TK mutation) drug efflux

Gefitinib Epidermal growth factor (EGFR) Orally Diarrhea, 1. KRAS Low response
tyrosine kinase inhibitor, administered. 60% nausea and mutations rate in clinical
Iressaâ competitively inhibits ATP bioavailability vomiting; use to date;
binding 90% plasma protein interstitial lung 2. HER-1-TK perhaps EGFR
bound; extensive disease is rare but mutations is not
hepatic metabolism fatal; (particularly indispensable
via CYP3A4; QT prolongation; T790M) for tumor
excreted via both infusion-related survival
renal and fecal toxicity; skin rash 3. drug efflux
routes. increase

Monoclonal Antibodies against EGFR
Cetuximab Recombinant, chimeric monoclonal IV infusion. Half Acne-like rash that Increase KRAS and
antibody (IgG1) directed against the life ranges from 2.6 could lead to Rx signal BRAF
Erbituxâ epidermal growth factor (EGFR, to 9.5 days termination. May transduction (oncogenes)
HER1). cause cardio- through the mutational
Activates the complement-mediated low emetogenicity pulmonary arrest increase of status impacts
cell toxicity, and prevents the and interstitial lung EGFR1 copy therapeutic
activation of EGFR, lead to its anti- disease in small number, or usefulness of
cancer effects. percent of patients switch to the these
Pani- Fully humanized monoclonal IV infusion. Half Acne-like rash that alternate monoclonal
tumumab antibody (IgG2) directed against the life ranges from 3.6 could lead to HER2/neu antibodies
epidermal growth factor (EGFR, to 10.9 days termination of protein signal
Vectibixâ HER1). therapy. Acute transduction
Receptor target-mediated saturable low emetogenicity renal failure may pathway
binding to EGFR and subsequent present in patients
internalization and degradation. with dehydration
from severe diarrhea

Page 11 of 13
 PHRM311 Oncology - Drug Lists Dr. Judy Wong

Other Signal Transduction Disruptive Monoclonal Antibodies
Trastuzumab Recombinant DNA-derived IV infusion; Cardiomyopathy Increases
humanized monoclonal antibody degradation through (especially in EGFR
Herceptinâ (IgG1); it binds to the epidermal irreversible receptor combination with dependent
growth factor receptor 2 (HER2); binding. Half-life is anthracyclines), signal
HER2 is over-expressed in 25-30% 5.8-21 days infusion-related transduction
of cases of Breast Cancers toxicity(fever, activity
low emetogenicity chills, nausea,
dyspnea, rashes)

Bevacizumab Monoclonal antibody (IgG1) that IV infusion; GI perforations, Increased Adverse drug
binds to the vascular endothelial administered every hemorrhage, activities of reaction are
Avastinâ growth factor (VEGF) and prevents two weeks and has impaired wound alternate unique for mAb
the activation of VEGF receptor- an estimated half- healing, severe angiogenesis and potentially
mediated endothelial cell life of 20 days dose-dependent pathways, serious.
proliferation; inhibition of hypertension, bypassing
angiogenesis will delay tumor rare emetogenicity proteinuria VEGF
growth and prevent metastatic
disease progression

Monoclonal antibodies in Immune Checkpoint therapies
Ipilimumab Fully humanized monoclonal IV infusion over a Immune–mediated mutations and Signs and
antibody (IgG2) directed against period from 30-90 adverse reactions, disruptions of symptoms
Yervoyâ CTLA4 min sometimes fatal, can tumor IFN-g suggestive of
involve any organ pathway immune-related
CTLA4 are found on T-cells system. GI tract, reactions may
Nivolumab Fully humanized monoclonal IV infusion over 60 liver, skin, Reduction in be nonspecific.
antibody (IgG2) directed against min endocrine, and tumor
Opdivoâ PD-1 nervous systems are neoantigen Immune-
most commonly presentation mediated
PD-1 are found on T-cells and other involved. Diarrhea, toxicities have
immune cells bloody stool, liver been reported,
enzyme elevations, even after

Page 12 of 13
 PHRM311 Oncology - Drug Lists Dr. Judy Wong

rash, and endocrino- Changes in discontinuation
pathologies must be tumor of the drug.
considered immune- microenvirone
mediated. ment
Pembroli- Fully humanized monoclonal IV infusion over 30 severe infusion-
zumab antibody (IgG4) directed against min related reactions in Upregulation
PD-1 addition to immune- of other
Keytrudaâ mediated adverse checkpoint
PD-1 are found on T-cells and other reactions inhibitors
immune cells

Atezoli- All three are fully humanized IV infusion over a irAEs and infusion
zumab monoclonal antibody (IgG1) period from 30-60 related reactions
directed against PD-L1 min
Tecentriqâ
PD-L1 are found on tumor cells and
Avelumab normally in a range of immune and IV infusion over 60
parenchymal tissues min
Bavencioâ

Durvalumab IV infusion over 60
min
Imfinziâ

Page 13 of 13