Chemical Society Reviews,
Год журнала:
2020,
Номер
49(9), С. 2617 - 2687
Опубликована: Янв. 1, 2020
Over
the
past
decade,
covalent
kinase
inhibitors
(CKI)
have
seen
a
resurgence
in
drug
discovery.
Covalency
affords
unique
set
of
advantages
as
well
challenges
relative
to
their
non-covalent
counterpart.
After
reversible
protein
target
recognition
and
binding,
irreversibly
modify
proximal
nucleophilic
residue
on
via
reaction
with
an
electrophile.
To
date,
acrylamide
group
remains
predominantly
employed
electrophile
CKI
development,
its
incorporation
majority
clinical
candidates
FDA
approved
therapies.
Nonetheless,
recent
years
considerable
efforts
ensued
characterize
alternative
electrophiles
that
exhibit
irreversible
or
reversibly
binding
mechanisms
towards
cysteine
thiols
other
amino
acids.
This
review
article
provides
comprehensive
overview
CKIs
reported
literature
over
decade
period,
2007-2018.
Emphasis
is
placed
rationale
behind
warhead
choice,
optimization
approach,
inhibitor
design.
Current
are
also
highlighted,
addition
detailed
analysis
common
trends
themes
observed
within
listed
data
set.
ChemMedChem,
Год журнала:
2019,
Номер
14(9), С. 889 - 906
Опубликована: Фев. 28, 2019
Although
covalent
inhibitors
have
been
used
as
therapeutics
for
more
than
a
century,
there
has
general
resistance
in
the
pharmaceutical
industry
against
their
further
development
due
to
safety
concerns.
This
inclination
recently
reverted
after
of
wide
variety
address
human
health
conditions
along
with
US
Food
and
Drug
Administration
(FDA)
approval
several
use
humans.
Along
this
exciting
resurrection
an
old
drug
discovery
concept,
review
surveys
enzymes
that
can
be
targeted
by
treatment
diseases.
We
focus
on
protein
kinases,
RAS
proteins,
few
other
studied
extensively
targets
inhibition,
aim
challenges
designing
effective
drugs
provide
suggestions
area
yet
explored.
Signal Transduction and Targeted Therapy,
Год журнала:
2023,
Номер
8(1)
Опубликована: Сен. 6, 2023
Abstract
Undruggable
proteins
are
a
class
of
that
often
characterized
by
large,
complex
structures
or
functions
difficult
to
interfere
with
using
conventional
drug
design
strategies.
Targeting
such
undruggable
targets
has
been
considered
also
great
opportunity
for
treatment
human
diseases
and
attracted
substantial
efforts
in
the
field
medicine.
Therefore,
this
review,
we
focus
on
recent
development
discovery
targeting
“undruggable”
their
application
clinic.
To
make
review
well
organized,
discuss
strategies
proteins,
including
covalent
regulation,
allosteric
inhibition,
protein–protein/DNA
interaction
targeted
nucleic
acid-based
approach,
immunotherapy
others.
Journal of Medicinal Chemistry,
Год журнала:
2020,
Номер
63(3), С. 1216 - 1232
Опубликована: Янв. 2, 2020
Several
epidermal
growth
factor
receptor
(EGFR)
tyrosine
kinase
inhibitors
have
been
developed
and
approved
by
Food
Drug
Administration
for
the
treatment
of
non-small-cell
lung
cancers,
but
their
efficacy
can
be
compromised
acquired
drug
resistance
conferred
EGFR-mutant
variants.
Here,
we
described
discovery
a
novel
E3
ligase
von
Hippel–Lindau-recruiting
EGFR
degrader,
MS39
(compound
6),
first-in-class
cereblon-recruiting
MS154
10),
using
proteolysis
targeting
chimera
technology.
These
compounds
potently
induced
degradation
mutant
not
wild-type
in
an
ligase-dependent
manner
cancer
cell
lines
effectively
suppressed
cells
compared
with
corresponding
negative
controls.
The
global
proteomic
analyses
revealed
that
were
highly
selective
EGFR.
Furthermore,
both
bioavailable
mouse
pharmacokinetic
studies,
compound
6
is
first
degrader
suitable
vivo
studies.
Overall,
provide
set
well-characterized
chemical
tools
to
research
community.
Medicinal Research Reviews,
Год журнала:
2018,
Номер
38(5), С. 1550 - 1581
Опубликована: Янв. 26, 2018
Both
the
first-generation
reversible
epidermal
growth
factor
receptor
(EGFR)
inhibitors
gefitinib
and
erlotinib
second-generation
covalent
tyrosine
kinase
inhibitor
(EGFR-TKI)
afatinib
have
significantly
improved
survival
of
non-small-cell
lung
cancer
(NSCLC)
patients
with
activating
EGFR
mutations.
However,
a
secondary
EGFRT790M
mutation
leads
to
clinically
acquired
resistance
first-
EGFR-TKIs
drugs.
A
number
third-generation
wild-type
sparing
inhibitors,
for
example,
WZ4002,
CO1686,
AZD9291,
HM61713,
EGF816,
ASP8173,
PF0674775,
been
developed,
among
which
AZD9291
has
approved
by
US
FDA
treatment
NSCLC
.
More
recently,
tertiary
EGFRC797S
was
reported
as
dominant
mechanism
irreversible
inhibitors.
It
is
highly
desirable
develop
fourth-generation
This
review
summarizes
mechanisms
latest
medicinal
chemistry
advances
on
third-
special
attention
being
paid
allosteric
combating
mutation.
Journal of Medicinal Chemistry,
Год журнала:
2017,
Номер
61(10), С. 4290 - 4300
Опубликована: Ноя. 14, 2017
The
epidermal
growth
factor
receptor
(EGFR)
has
been
a
particular
interest
for
drug
development
treatment
of
non-small-cell
lung
cancer
(NSCLC).
current
third-generation
EGFR
small-molecule
inhibitors,
especially
osimertinib,
are
at
the
forefront
clinically
patients
with
NSCLC.
However,
high
percentage
these
treated
developed
tertiary
cystein-797
to
serine-790
(C797S)
mutation
in
kinase
domain.
This
C797S
is
thought
induce
resistance
all
irreversible
TKIs.
In
this
Miniperspective,
we
present
key
mechanisms
response
TKIs,
and
emerging
reports
on
novel
TKIs
combat
resistance.
Specifically,
analyze
allosteric
ATP-competitive
inhibitors
terms
discovery,
binding
mechanism,
their
potency
selectivity
against
harboring
mutations.
Lastly,
provide
some
perspectives
new
challenges
future
directions
field.
Multidrug
resistance
(MDR)
triggered
by
ATP
binding
cassette
(ABC)
transporter
such
as
ABCB1,
ABCC1,
ABCG2
limited
successful
cancer
chemotherapy.
Unfortunately,
no
commercial
available
MDR
modulator
approved
FDA
was
used
in
clinic.
Tyrosine
kinase
inhibitors
(TKIs)
have
been
administrated
to
fight
against
for
decades.
Almost
TKI
alone
However,
drug
combinations
acting
synergistically
kill
cells
become
increasingly
important
chemotherapy
an
approach
the
recurrent
resistant
disease.
Here,
we
summarize
effect
of
TKIs
on
enhancing
efficacy
conventional
chemotherapeutic
ABC
transporter-mediated
cells,
which
encourage
further
discuss
and
study
