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leptomycin

Leptomycin refers to a group of secondary metabolites produced by Streptomyces species, with leptomycin B (LMB) being the best known member. These are polyketide macrolides that act as potent inhibitors of CRM1/XPO1-mediated nuclear export.

Mechanism of action is based on covalent modification of the export receptor CRM1. Leptomycin B contains an

Biological and research applications center on its use as a molecular tool to study nuclear-cytoplasmic transport.

Safety and regulatory status reflect that leptomycin B is not approved for clinical use. Its toxicity and

Related compounds include leptomycin A and other analogs, which share the general mechanism of CRM1 blockade

electrophilic
functional
group
capable
of
forming
a
covalent
bond
with
a
cysteine
residue
in
CRM1
in
the
presence
of
RanGTP.
This
reaction
disrupts
the
interaction
between
CRM1
and
cargo
proteins
containing
leucine-rich
nuclear
export
signals,
blocking
the
export
of
these
proteins
from
the
nucleus
to
the
cytoplasm.
As
a
result,
NES-bearing
proteins
accumulate
in
the
nucleus,
altering
the
localization
and
function
of
numerous
cellular
factors.
By
inhibiting
CRM1,
leptomycin
B
helps
identify
NES-containing
cargo,
characterize
export
pathways,
and
analyze
the
subcellular
distribution
of
transcription
factors
and
other
regulators.
Its
effects
on
cell
cycle
progression
and
stress
responses
have
also
been
explored
in
various
systems.
Due
to
its
high
potency
and
broad
impact
on
cellular
physiology,
leptomycin
B
is
used
exclusively
as
a
laboratory
reagent.
unfavorable
pharmacokinetic
properties
limit
potential
therapeutic
applications,
and
handling
is
restricted
to
controlled
research
settings
with
appropriate
safety
measures.
but
differ
in
potency
and
pharmacological
properties.