Trends in Pharmacological Sciences,
Год журнала:
2023,
Номер
44(11), С. 786 - 801
Опубликована: Сен. 29, 2023
Targeted
protein
degradation
(TPD)
is
an
emerging
modality
for
research
and
therapeutics.
Most
TPD
approaches
harness
cellular
ubiquitin-dependent
proteolytic
pathways.
Proteolysis-targeting
chimeras
(PROTACs)
molecular
glue
(MG)
degraders
(MGDs)
represent
the
most
advanced
approaches,
with
some
already
used
in
clinical
settings.
Despite
these
advances,
still
faces
many
challenges,
pertaining
to
both
development
of
effective,
selective,
tissue-penetrant
understanding
their
mode
action.
In
this
review,
we
focus
on
progress
made
addressing
challenges.
particular,
discuss
utility
application
recent
proteomic
as
indispensable
tools
enable
insights
into
degrader
development,
including
target
engagement,
selectivity,
efficacy,
safety,
Signal Transduction and Targeted Therapy,
Год журнала:
2024,
Номер
9(1)
Опубликована: Ноя. 6, 2024
Abstract
Targeted
protein
degradation
(TPD)
represents
a
revolutionary
therapeutic
strategy
in
disease
management,
providing
stark
contrast
to
traditional
approaches
like
small
molecule
inhibitors
that
primarily
focus
on
inhibiting
function.
This
advanced
technology
capitalizes
the
cell’s
intrinsic
proteolytic
systems,
including
proteasome
and
lysosomal
pathways,
selectively
eliminate
disease-causing
proteins.
TPD
not
only
enhances
efficacy
of
treatments
but
also
expands
scope
applications.
Despite
its
considerable
potential,
faces
challenges
related
properties
drugs
their
rational
design.
review
thoroughly
explores
mechanisms
clinical
advancements
TPD,
from
initial
conceptualization
practical
implementation,
with
particular
proteolysis-targeting
chimeras
molecular
glues.
In
addition,
delves
into
emerging
technologies
methodologies
aimed
at
addressing
these
enhancing
efficacy.
We
discuss
significant
trials
highlight
promising
outcomes
associated
drugs,
illustrating
potential
transform
treatment
landscape.
Furthermore,
considers
benefits
combining
other
therapies
enhance
overall
effectiveness
overcome
drug
resistance.
The
future
directions
applications
are
explored,
presenting
an
optimistic
perspective
further
innovations.
By
offering
comprehensive
overview
current
innovations
faced,
this
assesses
transformative
revolutionizing
development
setting
stage
for
new
era
medical
therapy.
Science Bulletin,
Год журнала:
2024,
Номер
69(11), С. 1776 - 1797
Опубликована: Март 29, 2024
Undruggable
targets
typically
refer
to
a
class
of
therapeutic
that
are
difficult
target
through
conventional
methods
or
have
not
yet
been
targeted,
but
great
clinical
significance.
According
statistics,
over
80%
disease-related
pathogenic
proteins
cannot
be
targeted
by
current
treatment
methods.
In
recent
years,
with
the
advancement
basic
research
and
new
technologies,
development
various
technologies
mechanisms
has
brought
perspectives
overcome
challenging
drug
targets.
Among
them,
protein
degradation
technology
is
breakthrough
strategy
for
This
can
specifically
identify
directly
degrade
utilizing
inherent
pathways
within
cells.
form
includes
types
such
as
proteolysis
targeting
chimera
(PROTAC),
molecular
glue,
lysosome-targeting
Chimaera
(LYTAC),
autophagosome-tethering
compound
(ATTEC),
autophagy-targeting
(AUTAC),
(AUTOTAC),
degrader-antibody
conjugate
(DAC).
article
systematically
summarizes
application
in
degraders
Finally,
looks
forward
future
direction
prospects
technology.
Journal of Medicinal Chemistry,
Год журнала:
2024,
Номер
67(2), С. 1147 - 1167
Опубликована: Янв. 10, 2024
KRASG12D,
the
most
frequent
KRAS
oncogenic
mutation,
is
a
promising
target
for
cancer
therapy.
Herein,
we
report
design,
synthesis,
and
biological
evaluation
of
series
KRASG12D
PROTACs
by
connecting
analogues
MRTX1133
VHL
ligand.
Structural
modifications
linker
moiety
inhibitor
part
suggested
critical
role
membrane
permeability
in
degradation
activity
PROTACs.
Mechanism
studies
with
representative
compound
8o
demonstrated
that
potent,
rapid,
selective
induced
was
via
VHL-
proteasome-dependent
manner.
This
selectively
potently
suppressed
growth
multiple
mutant
cells,
displayed
favorable
pharmacokinetic
pharmacodynamic
properties
mice,
showed
significant
antitumor
efficacy
AsPC-1
xenograft
mouse
model.
Further
optimization
appears
to
be
development
new
chemotherapy
KRASG12D-driven
cancers
as
complementary
therapeutic
strategy
inhibition.
Journal of Biological Chemistry,
Год журнала:
2024,
Номер
300(5), С. 107264 - 107264
Опубликована: Апрель 5, 2024
The
ubiquitin-proteasome
system
(UPS)
is
the
major
machinery
mediating
specific
protein
turnover
in
eukaryotic
cells.
By
ubiquitylating
unwanted,
damaged,
or
harmful
proteins
and
driving
their
degradation,
UPS
involved
many
important
cellular
processes.
Several
new
UPS-based
technologies,
including
molecular
glue
degraders
PROTACs
(Proteolysis-targeting
chimeras)
to
promote
DUBTACs
(deubiquitinase-targeting
increase
stability,
have
been
developed.
specifically
inducing
interactions
between
different
ubiquitin
ligases
targeted
that
are
not
otherwise
related,
degrade
via
system;
contrast,
by
proximity
of
deubiquitinases,
created
clear
degradable
polyubiquitin
chains
stabilize
proteins.
In
this
review,
we
summarize
recent
research
progress
degraders,
PROTACs,
applications.
We
discuss
immunomodulatory
drugs
(IMiDs),
sulfonamides,
CDK-targeting
development
PROTACs.
also
introduce
principle
DUBTAC
its
Finally,
propose
a
few
future
directions
these
three
technologies
related
homeostasis.
Journal of Medicinal Chemistry,
Год журнала:
2024,
Номер
67(15), С. 13106 - 13116
Опубликована: Июль 30, 2024
Achieving
oral
bioavailability
with
Proteolysis
Targeting
Chimeras
(PROTACs)
is
a
key
challenge.
Here,
we
report
the
in
vivo
pharmacokinetic
properties
mouse,
rat,
and
dog
of
four
clinical
PROTACs
compare
an
internally
derived
data
set.
We
use
NMR
to
determine
3D
molecular
conformations
structural
preorganization
free
solution,
introduce
new
experimental
descriptors,
solvent-exposed
H-bond
donors
(eHBD),
acceptors
(eHBA).
derive
upper
limit
eHBD
≤
2
for
apolar
environments
show
greater
tolerance
other
(eHBA,
polarity,
lipophilicity,
weight)
than
Rule-of-5
compliant
drugs.
Within
set
structurally
related
PROTACs,
that
examples
>
have
much
lower
those
2.
summarize
our
findings
as
"Rule-of-oral-PROTACs"
order
assist
medicinal
chemists
achieve
this
challenging
space.
Proteolysis-targeting
chimeras
(PROTACs)
represent
a
transformative
advancement
in
drug
discovery,
offering
method
to
degrade
specific
intracellular
proteins.
Unlike
traditional
inhibitors,
PROTACs
are
bifunctional
molecules
that
target
proteins
for
elimination,
enabling
the
potential
treatment
of
previously
"undruggable"
This
concept,
pioneered
by
Crews
and
his
team,
introduced
use
small
link
protein
an
E3
ubiquitin
ligase,
inducing
ubiquitination
subsequent
degradation
protein.
By
promoting
rather
than
merely
inhibiting
function,
present
novel
therapeutic
strategy
with
enhanced
specificity
effectiveness,
especially
areas
such
as
cancer
neurodegenerative
diseases.
Since
their
initial
field
PROTAC
research
has
rapidly
expanded
numerous
now
designed
wide
range
disease-relevant
The
substantial
research,
investment,
collaboration
across
academia
pharmaceutical
industry
reflect
growing
interest
PROTACs.
Review
discusses
journey
from
discovery
clinical
trials,
highlighting
advancements
challenges.
Additionally,
recent
developments
fluorescent
photogenic
PROTACs,
used
real-time
tracking
degradation,
presented,
showcasing
evolving
targeted
therapy.
Herein,
we
describe
a
systematic
SAR-
and
SPR-investigation
of
the
peptidomimetic
hydroxy-proline
based
VHL-ligand
VH032,
from
which
most
to-date
published
VHL-targeting
PROTACs
have
been
derived.
This
study
provides
for
first
time
consistent
data
set
allows
direct
comparison
structural
variations
including
those
were
so
far
hidden
in
patent
literature.
The
gained
knowledge
about
improved
VHL
binders
was
used
to
design
small
library
highly
potent
BRD4-degraders
comprising
different
exit
vectors.
Newly
designed
degraders
showed
favorable
molecular
properties
significantly
degradation
potency
compared
MZ1.
Cell Insight,
Год журнала:
2023,
Номер
2(3), С. 100092 - 100092
Опубликована: Март 27, 2023
Proteolysis
targeting
chimera
(PROTAC)
degradation
of
pathogenic
proteins
by
hijacking
the
ubiquitin-proteasome-system
has
become
a
promising
strategy
in
drug
design.
The
overwhelming
advantages
PROTAC
technology
have
ensured
rapid
and
wide
usage,
multiple
PROTACs
entered
clinical
trials.
Several
antiviral
been
developed
with
bioactivities
against
various
viruses.
However,
number
reported
is
far
less
than
that
other
diseases,
e.g.,
cancers,
immune
disorders,
neurodegenerative
possibly
because
common
deficiencies
(e.g.,
limited
available
ligands
poor
membrane
permeability)
plus
complex
mechanism
involved
high
tendency
viral
mutation
during
transmission
replication,
which
may
challenge
successful
development
effective
PROTACs.
This
review
highlights
important
advances
this
rapidly
growing
field
critical
limitations
encountered
developing
analyzing
current
status
representative
examples
PROTAC-like
agents.
We
also
summarize
analyze
general
principles
strategies
for
design
optimization
intent
indicating
potential
strategic
directions
future
progress.
Drug Metabolism and Disposition,
Год журнала:
2023,
Номер
51(7), С. 792 - 803
Опубликована: Апрель 11, 2023
Targeted
protein
degraders
(TPDs),
specifically
the
bifunctional
discussed
in
this
manuscript,
consist
of
two
linked
ligands
for
a
interest
and
an
E3
ligase,
resulting
molecules
that
largely
violate
accepted
physicochemical
limits
(e.g.,
Lipinski's
Rule
Five)
oral
bioavailability.
In
2021,
IQ
Consortium
Degrader
DMPK/ADME
Working
Group
undertook
survey
18
member
nonmember
companies
working
on
to
understand
whether
characterization
optimization
these
were
different
from
any
other
beyond
Five
(bRo5)
compounds.
Additionally,
group
sought
identify
pharmacokinetic
(PK)/absorption,
distribution,
metabolism,
excretion
(ADME)
areas
need
further
evaluation
where
additional
tools
could
aid
more
rapid
advancement
TPDs
patients.
The
revealed
although
reside
challenging
bRo5
space,
most
respondents
focus
their
efforts
delivery.
Physicochemical
properties
required
bioavailability
generally
consistent
across
surveyed.
Many
used
modified
assays
address
degrader
solubility,
nonspecific
binding),
but
only
half
indicated
they
drug
discovery
workflows.
also
suggested
scientific
investigation
central
nervous
system
penetration,
active
transport,
renal
elimination,
lymphatic
absorption,
silico/machine
learning,
human
prediction.
Based
results,
concluded
TPD
does
not
fundamentally
differ
compounds
requires
some
modification
compared
with
traditional
small
proposes
generic
workflow
PK/ADME
TPDs.
SIGNIFICANCE
STATEMENT
industry
survey,
article
provides
understanding
current
state
science
pertaining
characterizing
optimizing
targeted
degraders,
based
upon
responses
by
consortium
members
non-members
developing
degraders.
puts
into
context
differences
/
similarities
methods
strategies
utilized
heterobifunctional
conventional
molecule
drugs.
