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antimetabolite

Antimetabolites are drugs that mimic or antagonize components of cellular metabolism, most notably nucleotides. They interfere with DNA and RNA synthesis, replication, and repair, and are used in cancer chemotherapy and some autoimmune diseases. They are typically most effective against rapidly dividing cells, which rely heavily on de novo nucleotide synthesis and salvage pathways.

Major classes include antifolates (such as methotrexate and pemetrexed) that inhibit dihydrofolate reductase and other enzymes

Therapeutic use encompasses a range of hematologic malignancies (including leukemias and lymphomas) and solid tumors (such

Resistance can arise from reduced drug uptake, increased drug inactivation, amplification or mutation of target enzymes,

Development of antimetabolites began in the mid-20th century, yielding several cornerstone agents that remain in use

in
the
folate
cycle,
depleting
thymidine
and
purine
pools;
purine
analogs
(such
as
6-mercaptopurine
and
azathioprine)
that
mimic
purine
bases
and
disrupt
purine
nucleotide
synthesis
or
are
incorporated
into
nucleic
acids;
pyrimidine
analogs
(such
as
5-fluorouracil,
capecitabine,
cytarabine,
and
gemcitabine)
that
interfere
with
pyrimidine
metabolism
or
become
incorporated
into
DNA
or
RNA;
ribonucleotide
reductase
inhibitors
(such
as
hydroxyurea)
that
reduce
the
production
of
deoxynucleotides.
as
colorectal
and
breast
cancers),
as
well
as
immunosuppressive
indications
in
autoimmune
diseases
and
transplantation.
or
altered
metabolic
pathways.
Common
toxicities
include
bone
marrow
suppression,
mucositis,
hepatotoxicity,
and
teratogenic
risks;
some
regimens
employ
rescue
agents
or
dosing
adjustments
to
mitigate
toxicity.
in
diverse
oncologic
and
immunologic
therapies.