Sigma-2 Receptors—From Basic Biology to Therapeutic Target: A Focus on Age-Related Degenerative Diseases
International Journal of Molecular Sciences,
Год журнала:
2023,
Номер
24(7), С. 6251 - 6251
Опубликована: Март 26, 2023
There
is
a
large
unmet
medical
need
to
develop
disease-modifying
treatment
options
for
individuals
with
age-related
degenerative
diseases
of
the
central
nervous
system.
The
sigma-2
receptor
(S2R),
encoded
by
TMEM97,
expressed
in
brain
and
retinal
cells,
regulates
cell
functions
via
its
co-receptor
progesterone
membrane
component
1
(PGRMC1),
through
other
protein–protein
interactions.
Studies
describing
S2R
involve
manipulation
expression
or
pharmacological
modulation
using
exogenous
small-molecule
ligands.
These
studies
demonstrate
that
modulates
key
pathways
involved
including
autophagy,
trafficking,
oxidative
stress,
amyloid-β
α-synuclein
toxicity.
Furthermore,
can
ameliorate
functional
deficits
cell-based
animal
models
disease.
This
review
summarizes
current
evidence-based
understanding
biology
function,
potential
as
therapeutic
target
system,
Alzheimer’s
disease,
α-synucleinopathies,
dry
macular
degeneration.
Язык: Английский
Computational Chemistry for the Identification of Lead Compounds for Radiotracer Development
Pharmaceuticals,
Год журнала:
2023,
Номер
16(2), С. 317 - 317
Опубликована: Фев. 18, 2023
The
use
of
computer-aided
drug
design
(CADD)
for
the
identification
lead
compounds
in
radiotracer
development
is
steadily
increasing.
Traditional
CADD
methods,
such
as
structure-based
and
ligand-based
virtual
screening
optimization,
have
been
successfully
utilized
many
discovery
programs
are
highlighted
throughout
this
review.
First,
we
discuss
hit
at
beginning
programs.
This
followed
by
an
analysis
how
hits
derived
from
can
be
filtered
culled
to
highly
probable
candidates
test
vitro
assays.
We
then
illustrate
used
optimize
potency
experimentally
validated
positron
emission
tomography
(PET).
Finally,
conclude
with
a
survey
newest
techniques
employing
machine
learning
(ML).
Язык: Английский
A Novel Brain PET Radiotracer for Imaging Alpha Synuclein Fibrils in Multiple System Atrophy
Journal of Medicinal Chemistry,
Год журнала:
2023,
Номер
66(17), С. 12185 - 12202
Опубликована: Авг. 31, 2023
Abnormal
α-synuclein
(α-syn)
aggregation
characterizes
α-synucleinopathies,
including
Parkinson's
disease
(PD)
and
multiple
system
atrophy
(MSA).
However,
no
suitable
positron
emission
tomography
(PET)
radiotracer
for
imaging
α-syn
in
PD
MSA
exists
currently.
Our
structure–activity
relationship
studies
identified
4-methoxy-N-(4-(3-(pyridin-2-yl)-3,8-diazabicyclo[3.2.1]octan-8-yl)phenyl)benzamide
(4i)
as
a
PET
candidate
α-syn.
In
vitro
assays
revealed
high
binding
of
4i
to
recombinant
fibrils
(inhibition
constant
(Ki)
=
6.1
nM)
low
affinity
amyloid
beta
(Aβ)
Alzheimer's
(AD)
homogenates.
[3H]4i
also
exhibited
specific
AD,
progressive
supranuclear
palsy,
corticobasal
degeneration
tissues
well
tissues,
suggesting
notable
tau.
Nevertheless,
the
pathologic
aggregates
post-mortem
brain
was
significantly
higher
than
tissues.
This
finding
demonstrated
potential
use
[11C]4i
tracer
patients.
Nonhuman
primate
confirmed
good
uptake
rapid
washout
[11C]4i.
Язык: Английский
Structure-Affinity relationships of novel σ2R/TMEM97 ligands
Bioorganic Chemistry,
Год журнала:
2024,
Номер
145, С. 107191 - 107191
Опубликована: Фев. 10, 2024
Язык: Английский
Structure-affinity relationships of stereoisomers of norbenzomorphan-derived σ2R/TMEM97 modulators
European Journal of Medicinal Chemistry,
Год журнала:
2023,
Номер
257, С. 115488 - 115488
Опубликована: Май 23, 2023
Язык: Английский
Development of a Highly Specific 18F-Labeled Radioligand for Imaging of the Sigma-2 Receptor in Brain Tumors
Journal of Medicinal Chemistry,
Год журнала:
2023,
Номер
66(18), С. 12840 - 12857
Опубликована: Сен. 13, 2023
Novel
ligands
with
the
6,7-dimethoxy-1,2,3,4-tetrahydroisoquinoline
or
5,6-dimethoxyisoindoline
pharmacophore
were
designed
and
synthesized
for
evaluation
of
their
structure-activity
relationship
to
sigma-2
(σ2)
receptor
developed
as
suitable
PET
radioligands.
Compound
1
was
found
possess
nanomolar
affinity
(Ki(σ1)
=
2.57
nM)
σ2
receptor,
high
subtype
selectivity
(>2000-fold),
over
40
other
receptors
transporters.
Radioligand
[18F]1
prepared
radiochemical
yield
37-54%,
>
99%
purity,
molar
activity
107-189
GBq/μmol.
Biodistribution
blocking
studies
in
mice
micro-PET/CT
imaging
rats
indicated
excellent
binding
specificity
vivo.
Micro-PET/CT
U87MG
glioma
xenograft
model
demonstrated
clear
tumor
visualization
uptake
tumor-to-background
ratio.
Co-injection
CM398
(5
μmol/kg)
led
a
remarkable
reduction
(80%,
60-70
min),
indicating
specific
xenografts.
Язык: Английский
Synthesis and anti-Chagas activity profile of a novel redox-active lead 3-benzylmenadione revealed by high-content imaging
Nathan Trometer,
Jéremy Pecourneau,
Liwen Feng
и другие.
Опубликована: Фев. 8, 2024
Chagas’
disease
or
American
trypanosomiasis
is
a
neglected
tropical
disease,
which
top
priority
target
of
the
World
Health
Organization.
The
caused
by
protozoan
Trypanosoma
cruzi,
endemic
in
Latin
America
and
has
spread
around
globe
due
to
human
migration.
There
are
multiple
transmission
routes,
from
vectorial,
congenital,
oral
iatrogenic.
Less
than
1%
patients
have
access
treatment,
limited
two
old
redox-active
drugs,
but
these
poor
pharmacokinetics
severe
adverse
effects.
Hence,
priorities
for
next
steps
R&D
include
i)
discovery
new
drugs/chemical
classes
clinical
trials;
ii)
filling
pipeline
with
drug
candidates
that
mechanisms
action,
iii)
need
more
research
chemical
entities.
In
present
work,
we
first
identified
hit
(4a),
library
3-benzylmenadiones,
had
potent
anti-T.cruzi
activity.
We
then
designed
synthetic
strategy
build
49
3-(4-mono-amino)benzylmenadione
derivatives,
via
reductive
amination
obtain
diazacyclic
benz(o)ylmenadiones.
Among
them,
an
anti-amastigote
“early
lead”
11b
(henceforth
called
cruzidione)
high
content
imaging
optimized
pharmacokinetic
properties
better
specificity.
Studies
yeast
model
revealed
cruzidione
metabolite,
3-benzoylmenadione
(cruzidione
oxide),
enters
redox-cycling
NADH-dehydrogenase,
generating
reactive
oxygen
species,
as
hypothesized
early
(4a).
Язык: Английский
Synthesis and Anti-Chagas Activity Profile of a Redox-Active Lead 3-Benzylmenadione Revealed by High-Content Imaging
Nathan Trometer,
Jéremy Pecourneau,
Liwen Feng
и другие.
ACS Infectious Diseases,
Год журнала:
2024,
Номер
10(5), С. 1808 - 1838
Опубликована: Апрель 12, 2024
Chagas
disease,
or
American
trypanosomiasis,
is
a
neglected
tropical
disease
which
top
priority
target
of
the
World
Health
Organization.
The
endemic
mainly
in
Latin
America,
caused
by
protozoan
Trypanosoma
cruzi
and
has
spread
around
globe
due
to
human
migration.
There
are
multiple
transmission
routes,
including
vectorial,
congenital,
oral,
iatrogenic.
Less
than
1%
patients
have
access
treatment,
relying
on
two
old
redox-active
drugs
that
show
poor
pharmacokinetics
severe
adverse
effects.
Hence,
priorities
for
next
steps
R&D
include
(i)
discovery
novel
drugs/chemical
classes,
(ii)
filling
pipeline
with
drug
candidates
new
mechanisms
action,
(iii)
pressing
need
more
research
chemical
entities.
In
present
work,
we
first
identified
hit
(4a)
potent
anti-T.
activity
from
library
3-benzylmenadiones.
We
then
designed
synthetic
strategy
build
49
3-(4-monoamino)benzylmenadione
derivatives
via
reductive
amination
obtain
diazacyclic
benz(o)ylmenadiones.
Among
them,
high
content
imaging
an
anti-amastigote
"early
lead"
11b
(henceforth
called
cruzidione)
revealing
optimized
pharmacokinetic
properties
enhanced
specificity.
Studies
yeast
model
revealed
cruzidione
metabolite,
3-benzoylmenadione
(cruzidione
oxide),
enters
redox
cycling
NADH-dehydrogenase,
generating
reactive
oxygen
species,
as
hypothesized
early
(4a).
Язык: Английский