Title: Cancer chemotherapy
1CANCER CHEMOTHERAPY
2Introduction
- Cancer is a group of diseases in which there is
uncontrolled multiplication and spread within the
body of abnormal forms of the body's own cells,
OR - A group of diseases that occur when malignant
forms of abnormal cell growth develop in one or
more body organs. - These cancer cells continue to divide to produce
tumors
3Tumors can be benign or malignant
4- Both benign and malignant tumours manifest
uncontrolled proliferation. - The appearance of these abnormal characteristics
reflects altered patterns of gene expression in
the cancer cells, resulting from genetic
mutations.
5The pathogenesis of cancer.
6Cont
- Cancer cells manifest, to varying degrees
- Four characteristics that distinguish them from
normal cells - Uncontrolled proliferation,
- Dedifferentiation and loss of function,
- Invasiveness,
- Metastasis.
7The genesis of a cancer cell
- A normal cell turns into a cancer cell because of
one or more mutations in its DNA, which can be
inherited or acquired. - The development of cancer is a complex multistage
process, involving not only more than one genetic
change but also other epigenetic factors
(hormonal action, co-carcinogen and tumor
promoter effects, etc)
8(No Transcript)
9Cont.
- There are two main categories of genetic change
that lead to cancer - The activation of proto-oncogenes to oncogenes
- 2. The inactivation of tumor suppressor genes
10Activation of proto-oncogenes to oncogenes
- Proto-oncogenes are genes that normally control
- cell division,
- apoptosis
- differentiation
- But can be converted to oncogenes by viral or
carcinogen action.
11Inactivation of tumor suppressor genes (TSG)
- Normal cells contain tumor suppressor genes
(anti-oncogenes) eg p53 - TSG have the ability to suppress malignant
changes - The loss of function of tumor suppressor genes
can be the critical event in carcinogenesis
12(No Transcript)
13The special characteristics of cancer cells
14(No Transcript)
15Cancer treatment strategies
- Cancer treatment strategies includes
- 1. Goals of treatment
- 2. Indication for treatment
- 3. Tumor susceptibility and the growth cycle
161. Goals of treatment
- (A) The ultimate goal of cancer treatment is a
CURE (Eradication of every neoplastic cells). If
cure is not attainable, then the goal became - (B) CONTROL OF THE DISEASE (stop the cancer from
enlarging and spreading) to extent survival and
QoL of the patient.
17- At this step, the cancer being treated as a
chronic disease. The neoplastic cell burden is
initially reduced (debulked), either by surgery
and / or by radiation followed by chemotherapy,
immunotherapy, or combination of these treatment
modalities. - (C) In advanced stages of cancer, the likelihood
of controlling the cancer is far from reality and
the goal become PALLIATION (alleviation of
symptoms)
182. Indications for treatment
- Treatment modalities depend on the extent of the
cancer - For Localized cancer is mainly treated by surgery
- For Loco-regional disease by radiotherapy
- For widespread disease by chemotherapy, hormonal
therapy, or biological therapy
19Indications for chemotherapy
- Chemotherapy indicated when neoplasms are
disseminated and are not responsive to surgery - Treatment modality with chemotherapy may be
- Adjuvant chemotherapy
- Neoadjuvant chemotherapy
- Maintenance chemotherapy
- Induction chemotherapy
20- Adjuvant chemotherapy - Chemo is used as
supplemental treatment to attack micrometastases
following surgery radiation
21- Neoadjuvant chemotherapy Chemotherapy given
prior to the surgical procedure in an attempt to
shrink the tumor - Induction chemotherapy is chemotherapy given
before the initiation of another treatment (eg
radiation, surgery, chemoradiation etc) - Maintenance chemotherapy Chemotherapy given in
lower doses to assist in prolonging a remission
223. Tumor susceptibility and the growth cycle
- The fraction of tumor cells that are in the
replicative cycle (growth fraction) influences
their susceptibility to most cancer
chemotherapeutic agents - Rapidly dividing cells are generally more
sensitive to anticancer drugs while slowly
proliferating cells are less sensitive to
chemotherapy
23- In general, nonproliferating cells (those in G0
phase) usually survive the toxic effects of many
anticancer drugs
24Treatment protocols
- Combination-drug chemotherapy is more successful
than single-drug treatment in most of the cancer - Combined drugs should be based on
- Qualitatively different toxicities
- Different mechanism of action
- Different molecular sites of action
25- Advantage of drug combination
- Provide maximal cell killing within the range of
tolerated toxicity - Are effective against a broader range of cell
lines in the heterogeneous tumor population - May delay of prevent the development of resistant
cell lines .
26- Many cancer treatment protocols have been
developed - Each one is applicable to a particular neoplastic
state - They are usually identified by an acronym
- For example a common regimen called POMP, used
for treatment of ALL consists of Prednisone,
Oncovin (vincristine), Methotrexate, and
Purinethol (mercaptopurine) - Therapy is scheduled intermittently (appr 21 days
apart) to allow recovery of patients immune
system.
27Problems associated with Chemo.
- Narrow therapeutic index (highly toxic)
- Resistant of tumor cells to anticancer agents
- Multidrug resistance (MDR) eg P-gp
- Treatment induced tumors
28Treatment approaches
- Main approaches in cancer treatment
- Surgery
- Radiation
- Chemotherapy
- Immunotherapy
- Targeted therapy
- The role of each of these depends on the type of
tumor and the stage of its development. - Chemotherapy can be used on its own or as an
adjunct to other forms of therapy
29- Chemotherapy of cancer, as compared with that of
bacterial disease, presents a difficult problem. - In biochemical terms, microorganisms are both
quantitatively and qualitatively different from
human cells - However cancer cells and normal cells are so
similar in many respects that it is more
difficult to find general, exploitable,
biochemical differences between them.
30General principles of action of cytotoxic
anticancer drugs
31- One of the major difficulties in the use of
cancer chemotherapy is that a tumor is usually
far advanced before it is diagnosed. - Most currently used anticancer drugs, in
particular those which are 'cytotoxic', affect
only one characteristics of cancer cells i.e
uncontrolled proliferation
32- Thus, they are antiproliferative
- They have no specific inhibitory effect on
- Invasiveness,
- Loss of differentiation or
- The tendency to metastasize
33- For many, their antiproliferative action results
mainly from an action during S phase of the cell
cycle, and the resultant damage to DNA initiates
apoptosis - Furthermore, because their main effect is on cell
division, they will affect all rapidly dividing
normal tissues and thus they are likely to
produce, to a greater or lesser extent, the
following general toxic effects
34Cont
- Bone marrow toxicity (myelosuppression) with
decreased leucocyte production and thus decreased
resistance to infection - Impaired wound healing
- Loss of hair (alopecia)
- Damage to gastrointestinal epithelium
- Depression of growth in children
- Sterility
- Teratogenicity
35Cont
- They can also, in certain circumstances, be
carcinogenic (i.e. they may themselves cause
cancer). - In addition, if there is rapid cell destruction
with extensive purine catabolism, urates may
precipitate in the renal tubules and cause kidney
damage.
36- Finally, virtually all cytotoxic drugs produce
severe nausea vomiting, which has been called
'the inbuilt deterrent' to patient compliance in
completing a course of treatment with these
agents. - Some compounds have particular toxic effects that
are specific for them.
37Cell cycle and action of chemotherapeutic drugs
38Cont.
- Many chemotherapeutic drugs inhibit progression
of cell cycle. - An understanding of cell cycle kinetics is
essential for the proper use of anticancer drugs.
- The cell division cycle is the fundamental
mechanism to maintain tissue homeostasis. - The cell cycle can be divided into 4 phases
39Cell cycle phases
- (1) Growth phase 1 (G1- phase) a phase that
precedes DNA synthesis - (2) Synthesis phase (S-Phase) a DNA synthesis
phase - (3) growth phase 2 (G2-phase) an interval
following the termination of DNA synthesis - (4) mitotic phase (M phase) the phase in which
the cell, containing a double complement of DNA,
divides into two daughter G1 cells.
40Cont,,,
- Each of these daughter cells may immediately
re-enter the cell cycle or pass into a
nonproliferative stage, referred to as G0. - Chemotherapeutic drugs can be divided into three
classes based on their relationship with cell
cycle - 1. Cell cycle specific
- 2. Cell cycle non-specific
- 3. Non-cell cycle active e.g. hormones.
-
41(No Transcript)
42(No Transcript)
43Characteristics of chemotherapeutic drugs
- Most anticancer drugs are cytotoxic agents that
inhibit the synthesis of new genetic material or
cause irreparable damage to DNA itself. - Anticancer drugs often have a narrower
therapeutic index and a greater potential for
causing harmful side effects than other drugs.
44Cont.
- Anticancer Drugs are most effective when used in
combination. - Most of the side effects of anticancer drugs are
manageable
45Anticancer drug classification
- Cell cycle specific
- Cell cycle non-specific
- None cell cycle active (e.g Hormones)
46(No Transcript)
47(No Transcript)
48Target of anticancer agents
- There are three targets associated with the use
of the most commonly-used anticancer agents. - Damage the DNA of the affected cancer cells
- Inhibit the synthesis of new DNA strands to stop
the cell from replicating - Stop mitosis or the actual splitting of the
original cell into two new cells.
49(No Transcript)
50DRUGS USED IN CANCER CHEMOTHERAPY
51(No Transcript)
52(No Transcript)
53(No Transcript)
54Outline of mechanism of action
- 1. Cytotoxic drugs
- Alkylating agents and related compounds- act by
forming covalent bonds with DNA and thus impeding
DNA replication - Examples of alkylating agents are
55- Cisplatin
- Oxaliplatin
- Carboplatin
- Chlorambucil
- Cyclophosphamide
- Mechlorethamine,
- Melphalan
- Carmustine
- Busulphan
- Decarbazine
- Procarbazine
56- Antimetabolites - block or subvert one or more of
the metabolic pathways involved in DNA synthesis
57- Cytotoxic antibiotics, i.e. substances of
microbial origin that prevent mammalian cell
division - Plant derivatives (vinca alkaloids, taxanes,
campothecins) most of these specifically affect
microtubule function and hence the formation of
the mitotic spindle.
58- 2. Hormones
- The most important are steroids, namely
- Glucocorticoids,
- Estrogens
- Androgens
- Ddrugs that suppress hormone secretion or
antagonize hormone action
59I. CYTOTOXIC DRUGS
601. Alkylating agents and related compounds
- Cross-link 2 strands of DNA leading to impairment
of DNA replication and RNA transcription. - Their principal effect occurs during DNA
synthesis the resulting DNA damage triggers
apoptosis. - Unwanted effects include myelosuppression,
sterility and risk of non-lymphocytic leukaemia
61- The main alkylating agents are
- Nitrogen mustards, e.g. cyclophosphamide
- Cyclophosphamide is probably the most commonly
used alkylating agent. - It is inactive until metabolised in the liver by
the P450 mixed function oxidases - It has a pronounced effect on lymphocytes and can
be used as an immunosuppressant
62Cont
- It is usually given p.o or by I/V injection but
may also be given by I/M - Important toxic effects are
- nausea and vomiting,
- bone marrow depression
- haemorrhagic cystitis
63- This last effect (which also occurs with the
related drug ifosfamide) is caused by the
metabolite acrolein and can be ameliorated by
increasing fluid intake and administering
compounds that are sulfhydryl donors, such as
N-acetylcysteine or mesna (sodium-2-mercaptoethane
sulfonate). - These agents interact specifically with acrolein,
forming a non-toxic compound.
64- Cyclophosphamide is activated to give
aldophosphamide, which is then converted to
phosphoramide mustard (the cytotoxic molecule)
and acrolein (which causes bladder damage that
can be ameliorated by mesna) - Cyclophosphamide myelosuppression affects
particularly the lymphocytes.
65(No Transcript)
66(No Transcript)
67(No Transcript)
68- Nitrosoureas, e.g. Lomustine,
- they are lipid soluble and can, therefore, cross
the blood-brain barrier, may be used against
tumors of the brain and meninges. - However, most nitrosoureas have a severe
cumulative depressive effect on the bone marrow
that starts 3-6 weeks after initiation of
treatment.
69- Busulphan
- Busulphan has a selective effect on the bone
marrow, depressing the formation of granulocytes
and platelets in low dosage and red cells in
higher dosage. - It has little or no effect on lymphoid tissue or
the gastrointestinal tract. - It is used in chronic granulocytic leukemia.
70- Cisplatin
- Cisplatin is a water-soluble compound
- Its action is analogous to that of the alkylating
agents - Cisplatin is given by slow intravenous injection
or infusion. - It is seriously nephrotoxic unless regimens of
hydration and diuresis are instituted. - It has low myelotoxicity but causes very severe
nausea and vomiting
71- The 5-HT3-receptor antagonists (e.g. ondansetron,
granisetron, dolasetron, and palonosetron are
very effective in preventing this and have
transformed cancer chemotherapy with cisplatin. - Tinnitus and hearing loss in the high frequency
range may occur, as may peripheral neuropathies,
hyperuricaemia and anaphylactic reactions - It has revolutionized the treatment of solid
tumors of the testes and ovary.
72- Carboplatin is a derivative of cisplatin.
- It causes less nephrotoxicity, neurotoxicity and
ototoxicity, and less severe nausea and vomiting
than cisplatin, but is more myelotoxic. - Dacarbazine
- Dacarbazine, a pro-drug, is activated in the
liver, and the resulting compound is subsequently
cleaved in the target cell to release an
alkylating derivative. - Unwanted effects include myelotoxicity and severe
nausea and vomiting.
73ii. Antimetabolites
74Folate antagonists
- The main folate antagonist is methotrexate
- it is one of the most widely used antimetabolites
in cancer chemotherapy. - Methotrexate inhibits dihydrofolate reductase,
preventing generation of tetrahydrofolate the
main result is interference with thymidylate
synthesis
75(No Transcript)
76- Methotrexate is usually given p.o but can also be
given I/M, I/V or intrathecally. - The drug has low lipid solubility and thus does
not readily cross the blood-brain barrier. - It is actively taken up into cells by the
transport system used by folate and is
metabolized to polyglutamate derivatives, which
are retained in the cell for weeks (months in
some tissues) in the absence of extracellular
drug.
77- Unwanted effects are
- depression of the bone marrow and damage to the
epithelium of the gastrointestinal tract. - Pneumonitis can occur
- In addition, when high-dose regimens are used,
there may be nephrotoxicity, caused by
precipitation of the drug or a metabolite in the
renal tubules
78Cont
- High-dose regimens (doses 10 times greater than
the standard doses), sometimes used in patients
with methotrexate resistance, must be followed by
'rescue' with folinic acid
79(No Transcript)
80Pyrimidine analogues
- Eg, of pyridine analogue is 5-fluorouracil
- Fluorouracil is converted to a fraudulent
nucleotide and inhibits thymidylate synthesis. - Fluorouracil is usually given parenterally
- 5-FU is employed primarily in the treatment of
slowly growing solid tumors e.g Colorectal,
breast, ovarian, pancreatic, and gastric
carcinomas. - Topically for treatment of basal cell carcinomas
81- Rapidly metabolized in liver, lung kidney
- The dose of 5-FU MUST be adjusted in case of
impaired hepatic function - Metabolized by dihydropyrimidine dehydrogenase
(DPD), a polymorphic enzyme - The main unwanted effects are nausea, vomiting,
diarrhea, alopecia, ulceration of oral GI
mucosa, myelotoxicity and anorexia. - Cerebellar disturbances can occur.
82Cytarabine
- Is an analog of 2-deoxycytidine
- in its trisphosphate form inhibits DNA
polymerase - Major clinical use is in acute nonlymphocytic
leukemia in combination with 6-TG and
daunorubicin - Adverse effect includes nausea, vomiting,
diarrhea myelosuppression
83Purine analogues
- The main anticancer purine analogues include
- Fludarabine
- Pentostatin
- Cladribine
- 6-Mercaptopurine (6-MP)
- 6-Tioguanine (6-TG)
84- Mercaptopurine
- is converted into fraudulent nucleotide.
- Fludarabine in its trisphosphate form inhibits
DNA polymerase - Is used principally in the maintenance of
remission in ALL - Its bioavailability can be reduced by FPM in the
liver - In the liver, 6-MP is converted to 6-methyl-MP
derivative or to thiouric acid (an inactive
metabolites) -
85- Note the latter reaction is catalyzed by
Xanthine oxidase (XO). - Because the XO inhibitor, allopurinal, is
frequently used to reduce hyperuricemia in Cancer
patients receiving chemotherapy, it is important
to decrease the dose of 6-MP by 75 in these
patients to avoid accumulation of the drug - The principal toxicity of 6-MP is
myelosuppression. Also N, V, D jaundice.
86iii. Cytotoxic antibiotics
87Cont.
- Antitumour antibiotics produce their effects
mainly by direct action on DNA - They include
- Doxorubicin
- Dactinomycin
- Bleomycins
- Mitomycin
- Procarbazine
- Hydroxycarbamide
88Doxorubicin
- Doxorubicin inhibits DNA and RNA synthesis the
DNA effect is mainly through interference with
topoisomerase II action. - It is used in combination with other agents for
treatment of sarcomas and a variety of carcinomas
e.g breast and lung Ca as well as for treatment
of ALL and lymphomas.
89- Must be administered by I/V inactivated in the
GI tract - Do not penetrate BBB or testes
- Undergo extensive hepatic metabolism bile is
the major route of excretion - Dose adjustment is required in hepatic impairment
- Due to dark red color of anthracycline drugs, the
drug also impart a red color to the urine.
90- Unwanted effects include
- Irreversible, dose-dependent cardiotoxicity is
the most serious adverse reaction (more common
with doxorubicin daunorubicin than with
idarubicin epirubicin) - Irradiation of the thorax increase the risk of
cardiotoxicity - Addition of trastuzumab to protocols with
doxorubicin or epirubicin increases CHF.
91Other adverse effects includes
- nausea and vomiting,
- myelosuppression
- severe hair loss (alopecia)
- Increased skin pigmentation
- Stomatitis
92Bleomycin
- Bleomycin causes fragmentation of DNA chains.
- It is cell cycle specific acting on G2 phase
- It is primarily in the treatment of testicular
cancers in combination with vinblastine or
etoposide - Response rates are close to 100 if cisplatin is
added to the regimen.
93- Most of the parent drug is excreted unchanged
into the urine by GF dose adjustment in RF. - Unwanted effects include
- fever,
- allergies,
- mucocutaneous reactions
- pulmonary fibrosis
- There is virtually no myelosuppression.
94Dactinomycin
- Dactinomycin intercalates in DNA, interfering
with RNA polymerase and inhibiting transcription. - It also interferes with the action of
topoisomerase II. - It is used in combination with surgery and
vincristine for the treatment of Wilms tumors
(nephroblastoma)
95- Used in combination with MTX for treatment of
gestational choriocarcinoma - Unwanted effects include nausea, vomiting
myelosuppression.
96iv. plant derivatives
97Vinca alkaloids
- The main vinca alkaloids are
- vincristine,
- vinblastine
- Venorelbine
- They act by binding to tubulin and inhibiting its
polymerisation into microtubules, which prevents
spindle formation in mitosing cells and causes
arrest at metaphase.
98- Their effects only become manifest during
mitosis. - They also inhibit other cellular activities that
involve the microtubules, such as leucocyte
phagocytosis and chemotaxis as well as axonal
transport in neurons. - They are generally administered in combination
with other drugs - Although similar in structure, their therapeutic
indications are different
99- Vincristine is used in treatment of ALL in
children, Wilms tumors, and Hodgkin and
non-Hodgkin lymphomas - Vinblastine in combination with bleomycin and
cisplatin is used in treatment of metastatic
testicular carcinoma - Venorelbine is beneficial in the treatment of
advanced non-small cell lung cancer, either as a
single agent or in combination with cisplatin.
100- The vinca alkaloids are relatively non-toxic.
- Vincristine has very mild myelosuppressive
activity but causes paraesthesias (sensory
changes) and muscle weakness fairly frequently. - Vinblastine is less neurotoxic but causes
leucopenia, while vindesine has both moderate
myelotoxicity and neurotoxicity. - Hyperuricemia is common administer XO inhibitors
101Taxanes
- The taxanes paclitaxel and docetaxel act on
microtubules, stabilising them (in effect
'freezing' them) in the polymerised state. - This has repercussions similar to those described
above for the vinca alkaloids. - Paclitaxel is given by intravenous infusion and
docetaxel by mouth.
102- Both have a place in the treatment of breast
cancers - paclitaxel, given with carboplatin, is the
treatment of choice for ovarian cancer. - Paclitaxel in combination with cisplatin have
favourable results in treatment of non-small cell
lung cancer
103Unwanted effects
- Unwanted effects, which can be serious, include
bone marrow suppression (neutropenia) and
cumulative neurotoxicity. - Resistant fluid retention (particularly oedema
of the legs) can occur with docetaxel. - Hypersensitivity to both compounds is liable to
occur and requires pretreatment with
corticosteroids and antihistamines.
104Etoposide
- Etoposide is derived from mandrake root.
- Its mode of action is not clearly known but it
may act by inhibiting mitochondrial function and
nucleoside transport, as well as having an effect
on topoisomerase II similar to that seen with
doxorubicin. - Unwanted effects include nausea and vomiting,
myelosuppression hair loss.
105Campothecins
- The campothecins irinotecan and topotecan bind to
and inhibit topoisomerase I, high levels of which
occur throughout the cell cycle. - Diarrhoea and reversible bone marrow depression
occur but, in general, these drugs have fewer
unwanted effects than most other anticancer
agents.
106Clinical uses
- First-line therapy (with 5-FU and leucovorin) for
metastatic colorectal cancer (CRC) - It is also indicated for CRC that has recurred or
progressed following initial fluorouracil-based
therapy - Off-label advanced ovarian cancer, glioblastoma
multiforme, NSCLC
107Enzyme (L-asparaginase)
- Asparaginase is an enzyme that catalyzes the
hydrolysis of l-asparagine to l-aspartic acid
and ammonia. - Isolated from different types of bacteria,
including E. coli - They inhibit protein synthesis in tumor cells by
depriving them of the amino acid asparagine
108- This drug is phase specific, with the greatest
activity in the G1 phase of the cell cycle. - Clinical use is confined presently to acute
lymphocytic leukemia - Asparaginase products may produce
- Acute hypersensitivity reactions
- Hypotension,
- Sweating,
- Bronchospasm, and
- Urticaria.
1092. HORMONES
- Tumors that are steroid hormone-sensitive may be
- Hormone responsive regresses following
treatment with a specific hormone - Hormone dependent regresses following removal
of hormone stimulus - Both hormone responsive and dependent
110(No Transcript)
111(No Transcript)
112(No Transcript)
113(No Transcript)
114(No Transcript)
115(No Transcript)
116(No Transcript)
117(No Transcript)
118(No Transcript)
119(No Transcript)
120(No Transcript)
121(No Transcript)
122(No Transcript)
123(No Transcript)
124Overview of Targeted therapy
- Targeted therapy is a type of cancer treatment
that uses drugs or other substances to precisely
identify and attack certain types of cancer cells - A targeted therapy can be used by itself or in
combination with other treatments,
125Targeted therapy includes
- Hormone therapies,
- Signal transduction inhibitors,
- Gene expression modulators,
- Apoptosis inducers,
- Angiogenesis inhibitors,
- Immunotherapies,
- Toxin delivery molecules
126END