Polyfunctional
Alkylating Drugs: Mechanism of Action:
Example: Cyclophosphamide:most useful alkylating
agent at present.
- Alkyl group transfer
- Major interaction:
Alkylation of DNA
Pharmacological
Effects: Polyfunctional Alkylating Drugs
- Injection site damage
(vesicant effects) and systemic toxicity.
- Toxicity:
- dose related
- primarily affecting rapidly
dividing cells
- bone marrow
- GI tract
- nausea and
vomiting within less
than an hour-- with
mechlorethamine,
carmustine (BCNU) or cyclophosphamide
- Emetic
effects: CNS
- reduced
by pre-treatment with
phenothiazines or cannabinoids.
- gonads
- cyclophosphamide cytotoxicity depends on
activation by microsomal enzyme system.
- Hepatic microsomal
P450 mixed-function oxidase
catalyzes conversion of
cyclophosphamide to the active
forms:
- 4-hydroxycyclophosphamide
- aldophosphamide
- Major
Toxicity: bone marrow suppression
- dose-related
suppression of myelopoiesis:
primary effects on
- megakaryocytes
- platelets
- granulocytes
- Bone marrow
suppression is worse when
alkylating agents are combined
with other myelosuppressive drugs
and/or radiation (does reduction
required)
- If bone marrow
suppression is severe, treatment
may have to be suspended and then
re-initiated upon hematopoietic
recovery.
- Long-term
consequences of alkylating agent
treatment include:
- ovarian
failure (common)
- testicular
failure (common)
- acute
leukemia (rare)
- Oral Route of Administration:
cyclophosphamide, melphalan, chlorambucil, busulfan, lomustine
(CCNU)
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