Linoleic Acid, Mitochondria, Gut Microbiome, and Metabolic Health: A Mechanistic Review
Joseph Mercola
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Advances in Redox Research,
Journal Year:
2025,
Volume and Issue:
unknown, P. 100128 - 100128
Published: April 1, 2025
Language: Английский
The metabolic dialogue between intratumoural microbes and cancer: implications for immunotherapy
Y. Situ,
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Pengpeng Zhang,
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Cangang Zhang
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et al.
EBioMedicine,
Journal Year:
2025,
Volume and Issue:
115, P. 105708 - 105708
Published: April 22, 2025
Language: Английский
Integrating molecular pathway with genome-wide association data for causality identification in breast cancer
Discover Oncology,
Journal Year:
2024,
Volume and Issue:
15(1)
Published: July 2, 2024
Abstract
Objective
The
study
purpose
was
to
explore
the
causal
association
between
pyruvate
metabolism
and
breast
cancer
(BC),
as
well
molecular
role
of
key
metabolic
genes,
by
using
bioinformatics
Mendelian
randomization
(MR)
analysis.
Methods
We
retrieved
examined
diverse
datasets
from
GEO
database
ascertain
differentially
acting
genes
(DAGs)
in
BC
via
differential
expression
Following
this,
we
performed
functional
pathway
enrichment
analyses
noteworthy
functions
pathways
BC.
Employing
MR
analysis,
established
a
susceptibility
Additionally,
utilizing
DGIdb
database,
identified
potential
targeted
medications
that
act
on
implicated
formulated
competing
endogenous
RNA
(ceRNA)
regulatory
network
Results
collected
GSE54002,
GSE70947,
GSE22820,
total
1127
DEGs
NC
groups.
GO
KEGG
analysis
showed
these
mainly
included
mitotic
nuclear
division,
extracellular
matrix,
signaling
receptor
activator
activity,
etc.
Metabolic
were
concentrated
PI3K−Akt
pathway,
Cytokine−cytokine
binding
Pyruvate,
Tyrosine,
Propanoate
Phenylalanine
metabolism,
In
addition,
demonstrated
relationship
risk.
Finally,
constructed
(ADH1B,
ACSS2,
ACACB,
ADH1A,
ALDH2,
ADH1C)
drugs,
ceRNA
(lncRNA-miRNA-mRNA)
for
BC,
further
revealing
their
interactions.
Conclusions
Our
research
revealed
risk,
found
ADH1B,
ADH1C
takes
place
an
important
part
development
mechanisms
related
some
small
molecule
drugs.
Language: Английский
The Rational Engineered Bacteria Based Biohybrid Living System for Tumor Therapy
Chen Wang,
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Qiliner Feng,
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Si Shi
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et al.
Advanced Healthcare Materials,
Journal Year:
2024,
Volume and Issue:
13(28)
Published: July 25, 2024
Abstract
Living
therapy
based
on
bacterial
cells
has
gained
increasing
attention
for
their
applications
in
tumor
treatments.
Bacterial
can
naturally
target
to
sites
and
active
the
innate
immunological
responses.
The
intrinsic
advantages
of
bacteria
attribute
development
biohybrid
living
carriers
targeting
delivery
toward
hypoxic
environments.
rationally
engineered
integrate
various
functions
enhance
reduce
toxic
side
effects.
In
this
review,
antitumor
effects
application
are
discussed
as
therapeutic
agents
across
multiple
platforms.
kinds
used
cancer
first
introduced
demonstrated
mechanism
well
Additionally,
study
focused
genetically
modified
production
system
treat
cancer.
combination
with
functional
nanomaterials
is
then
brief,
rational
design
highlighted
a
rapid
pointed
out
potentials
clinical
applications.
Language: Английский