npj Precision Oncology,
Journal Year:
2024,
Volume and Issue:
8(1)
Published: Aug. 2, 2024
Abstract
Recent
advancements
in
single-cell
RNA
sequencing
(scRNAseq)
have
facilitated
the
discovery
of
previously
unrecognized
subtypes
within
prostate
cancer
(PCa),
offering
new
insights
into
heterogeneity
and
progression.
In
this
study,
we
integrated
scRNAseq
data
from
multiple
studies,
comprising
publicly
available
cohorts
generated
by
our
research
team,
established
H
uman
P
rostate
S
ingle
cell
A
tlas
(HuPSA)
M
ouse
(MoPSA)
datasets.
Through
comprehensive
analysis,
identified
two
novel
double-negative
PCa
populations:
KRT7
cells
characterized
elevated
expression
progenitor-like
marked
SOX2
FOXA2
expression,
distinct
NEPCa,
displaying
stem/progenitor
features.
Furthermore,
HuPSA-based
deconvolution
re-classified
human
specimens,
validating
presence
these
subtypes.
We
then
developed
a
user-friendly
web
application,
“HuPSA–MoPSA”
(
https://pcatools.shinyapps.io/HuPSA-MoPSA/
),
for
visualizing
gene
across
all
newly
Our
study
provides
tools
uncovers
that
can
inform
clinical
diagnosis
treatment
strategies.
Nature Reviews Drug Discovery,
Journal Year:
2023,
Volume and Issue:
22(6), P. 496 - 520
Published: April 28, 2023
Single-cell
technologies,
particularly
single-cell
RNA
sequencing
(scRNA-seq)
methods,
together
with
associated
computational
tools
and
the
growing
availability
of
public
data
resources,
are
transforming
drug
discovery
development.
New
opportunities
emerging
in
target
identification
owing
to
improved
disease
understanding
through
cell
subtyping,
highly
multiplexed
functional
genomics
screens
incorporating
scRNA-seq
enhancing
credentialling
prioritization.
ScRNA-seq
is
also
aiding
selection
relevant
preclinical
models
providing
new
insights
into
mechanisms
action.
In
clinical
development,
can
inform
decision-making
via
biomarker
for
patient
stratification
more
precise
monitoring
response
progression.
Here,
we
illustrate
how
methods
being
applied
key
steps
discuss
ongoing
challenges
their
implementation
pharmaceutical
industry.
There
have
been
significant
recent
advances
development
remarkable
Ferran
colleagues
primarily
pipeline,
from
decision-making.
Ongoing
potential
future
directions
discussed.
Nature Communications,
Journal Year:
2023,
Volume and Issue:
14(1)
Published: Feb. 7, 2023
The
treatment
of
low-risk
primary
prostate
cancer
entails
active
surveillance
only,
while
high-risk
disease
requires
multimodal
including
surgery,
radiation
therapy,
and
hormonal
therapy.
Recurrence
development
metastatic
remains
a
clinical
problem,
without
clear
understanding
what
drives
immune
escape
tumor
progression.
Here,
we
comprehensively
describe
the
microenvironment
localized
in
comparison
with
adjacent
normal
samples
healthy
controls.
Single-cell
RNA
sequencing
high-resolution
spatial
transcriptomic
analyses
reveal
context
dependent
changes
gene
expression.
Our
data
indicate
that
an
suppressive
associates
myeloid
populations
exhausted
T-cells,
addition
to
high
stromal
angiogenic
activity.
We
infer
cell-to-cell
relationships
from
throughput
ligand-receptor
interaction
measurements
within
undissociated
tissue
sections.
work
thus
provides
highly
detailed
comprehensive
resource
as
well
tumor-stromal
cell
interactions.
Nature Cancer,
Journal Year:
2022,
Volume and Issue:
3(9), P. 1071 - 1087
Published: Sept. 5, 2022
Emerging
evidence
indicates
that
various
cancers
can
gain
resistance
to
targeted
therapies
by
acquiring
lineage
plasticity.
Although
genomic
and
transcriptomic
aberrations
correlate
with
plasticity,
the
molecular
mechanisms
enabling
acquisition
of
plasticity
have
not
been
fully
elucidated.
We
reveal
Janus
kinase
(JAK)-signal
transducer
activator
transcription
(STAT)
signaling
is
a
crucial
executor
in
promoting
plasticity-driven
androgen
receptor
(AR)-targeted
therapy
prostate
cancer.
Importantly,
ectopic
JAK-STAT
activation
specifically
required
for
stem-like
subclones
expressing
multilineage
transcriptional
programs
but
exclusively
neuroendocrine-like
program.
Both
genetic
pharmaceutical
inhibition
resensitizes
resistant
tumors
AR-targeted
therapy.
Together,
these
results
suggest
are
compelling
therapeutic
targets
overcoming
resistance.
Nature Communications,
Journal Year:
2022,
Volume and Issue:
13(1)
Published: Oct. 13, 2022
Abstract
Cribriform
prostate
cancer,
found
in
both
invasive
cribriform
carcinoma
(ICC)
and
intraductal
(IDC),
is
an
aggressive
histological
subtype
that
associated
with
progression
to
lethal
disease.
To
delineate
the
molecular
cellular
underpinnings
of
ICC/IDC
aggressiveness,
this
study
examines
paired
benign
surgical
samples
by
single-cell
RNA-sequencing,
TCR
sequencing,
histology.
cancer
cells
express
genes
metastasis
targets
potential
for
therapeutic
intervention.
Pathway
analyses
ligand/receptor
status
model
interactions
among
tumor
microenvironment
(TME)
including
JAG1/NOTCH.
The
TME
hallmarked
increased
angiogenesis
immunosuppressive
fibroblasts
(
CTHRC1
+
ASPN
FAP
ENG
)
along
fewer
T
cells,
elevated
cell
dysfunction,
C1QB
TREM2
APOE
-M2
macrophages.
These
findings
support
intrinsic
pathways
a
complex
contribute
phenotype
ICC/IDC.
data
highlight
opportunities
restore
immune
signaling
patients
may
afford
better
outcomes.
Nature,
Journal Year:
2023,
Volume and Issue:
623(7989), P. 1053 - 1061
Published: Oct. 16, 2023
Abstract
Inflammation
is
a
hallmark
of
cancer
1
.
In
patients
with
cancer,
peripheral
blood
myeloid
expansion,
indicated
by
high
neutrophil-to-lymphocyte
ratio,
associates
shorter
survival
and
treatment
resistance
across
malignancies
therapeutic
modalities
2–5
Whether
inflammation
drives
progression
prostate
in
humans
remain
unclear.
Here
we
show
that
inhibition
chemotaxis
can
reduce
tumour-elicited
reverse
therapy
subset
metastatic
castration-resistant
(CRPC).
We
higher
ratio
reflects
tumour
infiltration
expression
senescence-associated
mRNA
species,
including
those
encode
myeloid-chemoattracting
CXCR2
ligands.
To
determine
whether
cells
fuel
to
androgen
receptor
signalling
inhibitors,
inhibiting
block
reverses
this,
conducted
an
investigator-initiated,
proof-of-concept
clinical
trial
inhibitor
(AZD5069)
plus
enzalutamide
CRPC
resistant
inhibitors.
This
combination
was
well
tolerated
without
dose-limiting
toxicity
it
decreased
circulating
neutrophil
levels,
reduced
intratumour
CD11b
+
HLA-DR
lo
CD15
CD14
−
cell
imparted
durable
benefit
biochemical
radiological
responses
CRPC.
study
provides
evidence
blockade.
Targeting
merits
broader
evaluation
other
cancers.
Military Medical Research,
Journal Year:
2024,
Volume and Issue:
11(1)
Published: April 11, 2024
Abstract
In
recent
years,
advancements
in
single-cell
and
spatial
transcriptomics,
which
are
highly
regarded
developments
the
current
era,
particularly
emerging
integration
of
spatiotemporal
have
enabled
a
detailed
molecular
comprehension
complex
regulation
cell
fate.
The
insights
obtained
from
these
methodologies
anticipated
to
significantly
contribute
development
personalized
medicine.
Currently,
technology
is
less
frequently
utilized
for
prostate
cancer
compared
with
other
types
tumors.
Starting
perspective
RNA
sequencing
technology,
this
review
outlined
significance
(scRNA-seq)
research,
encompassing
preclinical
medicine
clinical
applications.
We
summarize
differences
between
mouse
human
as
revealed
by
scRNA-seq
studies,
well
combination
multi-omics
methods
involving
highlight
key
targets
diagnosis,
treatment,
drug
resistance
characteristics
cancer.
These
studies
expected
provide
novel
immunotherapy
innovative
treatment
strategies
castration-resistant
Furthermore,
we
explore
potential
applications
stemming
technologies
review,
paving
way
future
research
precision
Advanced Science,
Journal Year:
2024,
Volume and Issue:
11(18)
Published: March 14, 2024
Abstract
Prostate
cancer
(PCa)
is
an
extensive
heterogeneous
disease
with
a
complex
cellular
ecosystem
in
the
tumor
microenvironment
(TME).
However,
manner
which
heterogeneity
shaped
by
tumors
and
stromal
cells,
or
vice
versa,
remains
poorly
understood.
In
this
study,
single‐cell
RNA
sequencing,
spatial
transcriptomics,
bulk
ATAC‐sequence
are
integrated
from
series
of
patients
PCa
healthy
controls.
A
stemness
subset
club
cells
marked
SOX9
high
AR
low
expression
identified,
markedly
enriched
after
neoadjuvant
androgen‐deprivation
therapy
(ADT).
Furthermore,
CD8
+
CXCR6
T
that
function
as
effector
reduced
malignant
PCa.
For
transcriptome
analysis,
machine
learning
computational
intelligence
comprehensively
utilized
to
identify
diversity
prostate
cell‐cell
communication
situ.
Macrophage
neutrophil
state
transitions
along
trajectory
progression
also
examined.
Finally,
immunosuppressive
advanced
found
be
associated
infiltration
regulatory
(Tregs),
potentially
induced
FAP
fibroblast
subset.
summary,
delineated
stage‐specific
at
resolution,
uncovering
their
reciprocal
crosstalk
progression,
can
helpful
promoting
diagnosis
therapy.
Cancer Cell,
Journal Year:
2023,
Volume and Issue:
41(11), P. 1972 - 1988.e5
Published: Nov. 1, 2023
When
compared
to
other
malignancies,
the
tumor
microenvironment
(TME)
of
primary
and
castration-resistant
prostate
cancer
(CRPC)
is
relatively
devoid
immune
infiltrates.
While
androgen
deprivation
therapy
(ADT)
induces
a
complex
infiltrate
in
localized
cancer,
composition
TME
metastatic
castration-sensitive
(mCSPC),
effects
ADT
treatments
this
context
are
poorly
understood.
Here,
we
perform
comprehensive
single-cell
RNA
sequencing
(scRNA-seq)
profiling
sites
from
patients
participating
phase
2
clinical
trial
(NCT03951831)
that
evaluated
standard-of-care
chemo-hormonal
combined
with
anti-PD-1
immunotherapy.
We
longitudinal,
protein
activity-based
analysis
subpopulations,
revealing
subpopulations
conserved
across
multiple
sites.
also
observe
dynamic
changes
these
response
treatment
correlation
outcomes.
Our
study
uncovers
therapy-resistant,
transcriptionally
distinct
subpopulation
expands
cell
number
treatment-refractory
patients.
