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Neurovascular signaling for repair enhances brain metastasis

High expression of GFAP (green) identifies astrocytes in rat cerebellum

By Jamshed Arslan, Pharm. D., PhD.

Tags: 
Cancer
Neuroscience
Metastasis
IHC
Immunohistochemistry
Flow cytometry
PTEN
VEGF
Angiopoietin
MMP
TGF-beta
GFP
Melanoma
Astrocytes
mTOR
EPH
Semaphorin
PPAR
rxr-alpha-nr2b1
Jamshed Arslan

Mechanisms of Neurodegeneration: Protein aggregation and failure of autophagy

Alzheimer’s disease video Novus Biologicals

By Michalina Hanzel, PhD

Tags: 
Alzheimer’s
Parkinson’s
Huntington’s
beta-amyloid
Presenilin-1
macroautophagy
Autophagy
ATG9A
mTOR
Huntingtin
Alpha-Synuclein
beclin-1
APP
Michalina Hanzel

Best Methods to Induce and Inhibit Autophagy Pharmacologically

VPS35 expression in endosomes and lysosomes of human U-2 OS cells, ICC

By Christina Towers, PhD

Tags: 
Autophagy
autophagosome
LC3
LC3B
Bafilomycin
Chloroquine
Lysosome
Western blot
Beclin 1
VPS34
ULK1
ATG4B
mTOR
autophagy induction
autophagy inhibition
Christina Towers
Cancer
rapamycin
Autophagic flux

mTOR Signaling and the Tumor Microenvironment

mTOR signaling pathway poster

By Yoskaly Lazo-Fernandez, PhD

Tags: 
TOR/mTOR
mTORC1
mTORC2
mTOR
TME
PI3K
HIF-1 alpha
S6K1
Akt
PKC
SGK3
FoxO1/3
CD4
CD8
HIF-1
VEGF
HIF-1 beta

Epigenetic Control of Autophagy

G9a expression in human MCF7 cell line ICC, immunocytochemistry, immunofluorescence, IF

By Christina Towers, PhD.

Tags: 
Autophagy
Epigenetics
autophagosome
mTOR
EZH2
TSC2
carm1
tfeb
AMPK
skp2
LC3B
WIPI1
tp53imp2
BRD4
transcription factor E3
mitf
g9a-ehmt2
Autophagic flux
Methylation
Acetylation
DNA methyltransferase
mTORC
Christina Towers

Brain size matters: MTOR regulates autophagy and number of cortical interneurons

MTOR and autophagy

By Jamshed Arslan Pharm.D.

Tags: 
LC3
Beclin
p62
Autophagy
mTOR
Neuronal Marker
Interneuron
GABA
Beclin 1
LC3B
p62/SQSTM1
Ribosomal Protein S6/RPS6m
Neuroscience
neuron
neurodevelopmental
cortical
Jamshed Arslan

How to switch from apoptotic to necroptotic cell death? Answer: Autophagy!

By Christina Towers, PhD.

Tags: 
Apoptosis
Autophagy
Necroptosis
TNF
TRAIL
mTOR
LC3B

Autophagy as a Therapeutic Target: The Double-edged Sword

By Christina Towers, PhD

Tags: 
AGT7
mTOR
PolyQ
neurodegeneration
Autophagy
Alzheimer
Huntington
Parkinson
autophagosome

The use of the autophagy marker LC3 in western blot, immunocytochemistry and flow cytometry research applications as an indicator of autophagy

The process of autophagy, or lysosome-mediated degradation of damaged proteins and organelles in the cytosol, is a vital cellular process that acts as a quality control mechanism for proteins and organelles. The misregulation of autophagy can lead to an imbalance of cellular homeostasis and the subsequent development of disease.  Therefore, the study of autophagy is at the forefront of neuroscience and cancer research, among others.

Tags: 
beclin-1
Caspase 3
mTOR
p62
ATG5
ATG7
Akt
LAMP2
Bcl-2
LC3A
LC3B
LC3

4EBP1 and skeletal muscle protein synthesis

Eukaryotic translation initiation factor 4E binding protein 1, or 4EBP1, is an mRNA translational repressor protein that negatively regulates eukaryotic translation initiation factor 4E, or EIF4E.  EIF4E is a protein that forms a complex necessary to block the 5’ ends of mRNA with a 7-methyl-guanosine five-prime cap structure, which is important for normal translation of mRNA.  Specifically, the EIF4E complex recruits 40s ribosome subunits to scan mRNA in order to regulate protein synthesis.  When EIF4E is bound to 4EBP1, it is held in an

Tags: 
Insulin
EIF4E
S6K1
PI3K
Akt
mTOR
MNK1
EIF4G
4EBP1

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