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PI3K/Akt/mTOR
- PI3K
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Epigenetics
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Methylation
- DNA Methyltransferase
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Immunology & Inflammation
- CD markers
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Protein Tyrosine Kinase
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Angiogenesis
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Apoptosis
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- Pyroptosis
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- OXPHOS
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Autophagy
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ER stress & UPR
- JNK
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JAK/STAT
- JAK
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MAPK
- S6 Kinase
- MEK
- Raf
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Cytoskeletal Signaling
- Akt
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- PKC
- FAK
- HSP (HSP90)
- Kinesin
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- MPS1
- Dynamin
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- Gap-Junction
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Cell Cycle
- CDK
- DNA/RNA Synthesis
- PD-1/PD-L1
- Ras
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- HSP (HSP90)
- Kinesin
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TGF-beta/Smad
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DNA Damage/DNA Repair
- HDAC
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- Nucleoside Analog/Antimetabolite
- LIM kinase
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- BMI-1
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- OGG1
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Stem Cells & Wnt
- GSK-3
- JAK
- STAT
- TGF-beta/Smad
- Wnt/beta-catenin
- ROCK
- Hedgehog/Smoothened
- PKA
- Casein Kinase
- ERK
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- Notch
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Hippo
- LATS
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Ubiquitin
- Proteasome
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- E1 Activating
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Neuronal Signaling
- Calcium Channel
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- Adrenergic Receptor
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- P-gp
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- Cannabinoid Receptor
- OX Receptor
- CGRP Receptor
- MT Receptor
- MAO
- FAAH
- BACE
- Trk receptor
- GlyT
- NMDAR
- CaMK
- Notch
- Imidazoline Receptor
- Sigma Receptor
- NPY receptor
- CCK receptor
- Serotonin Transporter
- COMT
- Neurotensin Receptor
- Melanocortin Receptor
- TRP Channel
- Adenosine Deaminase
- Adenosine Kinase
- BChE
- EAAT
- Neurokinin Receptor
NF-κB
- HDAC
- NF-κB
- IκB/IKK
- MALT
- Nrf2
- ROS
- NOD
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- AP-1
GPCR & G Protein
- Ras
- 5-HT Receptor
- CCR
- GluR
- Adrenergic Receptor
- AChR
- Histamine Receptor
- Dopamine Receptor
- Opioid Receptor
- GPR
- P2 Receptor
- Cannabinoid Receptor
- Endothelin Receptor
- S1P Receptor
- Hedgehog/Smoothened
- SGLT
- LPA Receptor
- OX Receptor
- CGRP Receptor
- MT Receptor
- PAFR
- PKA
- Vasopressin Receptor
- cAMP
- CXCR
- CaSR
- TAAR
- Glucagon Receptor
- LTR
- Adenosine Receptor
- CCK receptor
- Leukotriene
- FPR
- GRK
- Prostaglandin Receptor
- PKD
- TSH Receptor
- Neurokinin Receptor
- GNRH Receptor
- PKG
- CRFR
- Angiotensin Receptor
- Bradykinin Receptor
- Imidazoline Receptor
- Bombesin Receptor
- RGS
- Neurotensin Receptor
- Sigma Receptor
- Melanocortin Receptor
- PAR
- Taste Receptor
- NPY receptor
- Parathyroid Hormone Receptor
- DOCK
- AdipoR
- GPCR19
- Guanylate Cyclase
- GHSR
Endocrinology & Hormones
- Adrenergic Receptor
- 5-alpha Reductase
- Estrogen/progestogen Receptor
- Androgen Receptor
- RAAS
- Opioid Receptor
- Aromatase
- GPR
- Glucocorticoid Receptor
- Mineralocorticoid Receptor
- THR
- ACE
- SSTR
- GHSR
- CCK receptor
- PGES
- TSH Receptor
- GNRH Receptor
- PGDS
Transmembrane Transporters
- CD markers
- Calcium Channel
- Sodium Channel
- ATPase
- Chloride Channel
- Potassium Channel
- GluR
- AChR
- GABA Receptor
- P-gp
- Proton Pump
- CFTR
- P2 Receptor
- SGLT
- OCT
- CRM1
- GLUT
- GlyT
- NMDAR
- VDAC
- MTP
- VMAT
- GlyR
- MCT
- Amino acid transporter
- Mechanosensitive Channel
- OAT
- NKCC
- BCRP
- NCX
- OATP
- TRP Channel
- VRAC
- Aquaporin
- EAAT
Metabolism
- PPAR
- P450 (e.g. CYP17)
- HSP (HSP90)
- PDE
- Hydroxylase
- Factor Xa
- DHFR
- Aminopeptidase
- Dehydrogenase
- Procollagen C Proteinase
- Phospholipase (e.g. PLA)
- DPP
- Carbonic Anhydrase
- Phosphorylase
- Liver X Receptor
- FAAH
- Acyltransferase
- Fatty Acid Synthase
- NAMPT
- LDL
- Casein Kinase
- Decarboxylase
- Retinoid Receptor
- Thioredoxin
- FXR
- Transferase
- Serine/threonin kinase
- CETP
- IDO/TDO
- phosphatase
- GLUT
- HMG-CoA Reductase
- Vitamin
- PKM
- Lipoxygenase
- FOX
- Lipase
- Catalase
- THR
- ACSS2
- ROR
- Glucosylceramide Synthase
- ACE
- Thioredoxin Reductase
- PDHK
- PARG
- Xanthine Oxidase
- Mannosidase
- PGC-1α
- Adenosine Deaminase
- Aldose Reductase
- CPSase
- Leukotriene
- Adenosine Kinase
- OXPHOS
- Glutathione
- Acetyl-CoA carboxylase
- Mitochondrial Metabolism
- Peroxidases
- SHIP
- PCSK9
- Mitochondrial pyruvate carrier
- PREP
- PGDS
- PP2A
- Neprilysin
- RUNX
- FTO
- AdipoR
- PAD
- SREBP
- SCD
- CPT
- LDH
- Carbohydrate Metabolism
- CAR
- AP-1
- PAI-1
- γGCS
- SSTR
- ATP-citrate lyase
- FAO
- FTase
- SOD
- 3-MST
- GTPCH
- SGK
- GOT
- Serine hydrolase
- Epoxide Hydrolase
- glucocerebrosidase
- FABP
Proteases
- HDAC
- Proteasome
- Caspase
- Aminopeptidase
- HCV Protease
- DPP
- HIV Protease
- MMP
- Thrombin
- Acyltransferase
- Cysteine Protease
- MALT
- Glutaminase
- Tyrosinase
- Serine Protease
- Neprilysin
- SGK
- PREP
- GOT
- 3C-Like Protease
- PAD
- PCSK9
- Secretase
- Cathepsin B
- PGDS
Microbiology
- HCV Protease
- Integrase
- Reverse Transcriptase
- HIV Protease
- Anti-infection
- CMV
- Neuraminidase
- Parasite
- Thioredoxin Reductase
- Antiviral
- β-lactamase
- Bacterial
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- Antibiotics
- COVID-19
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- Ribosomal Peptidyl Transferase
- Influenza Virus
- SARS-CoV
- RSV
- HPV
- HSV
- HCV
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- HIV
- Fungal
Others
- ADC Cytotoxin
- ADC Linker
- Drug-Linker Conjugates for ADC
- Antineoplastic and Immunosuppressive Antibiotics
- Selection Antibiotics for Transfected Cell
- Antibiotics for Mammalian Cell Culture
- Antibiotics for Plant Cell Culture
- Hydrotropic Agents
- Dyes
- PROTAC
- PROTAC Linker
- E3 ligase Ligand
- Target Protein Ligand
- Others
- Antibody-Drug Conjugate

Archives

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Nuclear translocation of p85β promotes tumorigenesis of PIK3CA helical domain mutant cancer

by Selleckchem | Apr 19 2022

PI3Ks consist of p110 catalytic subunits and p85 regulatory subunits. PIK3CA, encoding p110α, is frequently mutated in human cancers. Most PIK3CA mutations are clustered in the helical domain or the kinase domain. Here, we report that p85β disassociates from p110α helical domain mutant protein and translocates into the nucleus through a nuclear localization sequence (NLS). Nuclear p85β recruits deubiquitinase USP7 to stabilize EZH1 and EZH2 and enhances H3K27 trimethylation. Knockout of p85β or p85β NLS mutant reduces the growth of tumors harboring a PIK3CA helical domain mutation. Our studies illuminate a novel mechanism by which PIK3CA helical domain mutations exert their oncogenic function. Finally, a combination of Alpelisib, a p110α-specific inhibitor, and an EZH inhibitor, Tazemetostat, induces regression of xenograft tumors harboring a PIK3CA helical domain mutation, but not tumors with either a WT PIK3CA or a PIK3CA kinase domain mutation, suggesting that the drug combination could be an effective therapeutic approach for PIK3CA helical domain mutant tumors.

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S1378	Ruxolitinib	Ruxolitinib is the first potent, selective, JAK1/2 inhibitor to enter the clinic with IC50 of 3.3 nM/2.8 nM in cell-free assays, >130-fold selectivity for JAK1/2 versus JAK3. Ruxolitinib kills tumor cells through toxic mitophagy. Ruxolitinib induces autophagy and enhances apoptosis.

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Autophagy Apoptosis related JAK Mitophagy