Casp9 Cancer Research Results

Casp9, Caspase-9: Click to Expand ⟱
Source:
Type:
Caspase-9 is the apoptotic initiator protease of the intrinsic or mitochondrial apoptotic pathway, which is activated at multi-protein activation platforms.
Caspases are divided into two groups: the initiator caspases (caspase-2, -8, -9 and -10), which are the first to be activated in response to a signal, and the executioner caspases (caspase-3, -6, and -7) that carry out the demolition phase of apoptosis.
Caspase-9:
Role: Initiator caspase in the intrinsic apoptotic pathway.
Cancers: Frequently studied in leukemia and solid tumors.
Prognosis: Reduced expression is often linked to chemoresistance and poor prognosis.
Pca, Prostate Cancer: Click to Expand ⟱
Prostate Cancer: Alterations in genes such as ERG, SPOP, MYC, androgen receptor (AR), and CHD1, drive PCa progression.
TP53 is the most commonly mutated gene in human cancer.
HH↑, GLI-1↑, SHH↑ P53↓
The loss of p53 and/or other tumor suppressor genes, reduced capacity for DNA repair, the dysfunction of telomerase activity, and changes in the pathways that govern the growth of cells also mediate the progression of Pca.
It has been well documented that Ca2+ influx and MDR1 upregulation are highly associated with GEM metabolism in human pancreatic carcinoma.
Increased Growth factor IGF-1/IGF-1R axis activation mediated by both PI3K/Akt or RAF/MEK/ERK system and AR expression remains important in the development and progression of prostate cancer.
It has been demonstrated that prostate cancer cells are relatively sensitive to heat stress.
Long non-coding RNA MALAT1 has been reported as an oncogenic target in multiple types of cancers, including PC.
Scientific Papers found: Click to Expand⟱
1563- Api,  MET,    Metformin-induced ROS upregulation as amplified by apigenin causes profound anticancer activity while sparing normal cells
- in-vitro, Nor, HDFa - in-vitro, PC, AsPC-1 - in-vitro, PC, MIA PaCa-2 - in-vitro, Pca, DU145 - in-vitro, Pca, LNCaP - in-vivo, NA, NA
selectivity↑, selectivity↑, selectivity↓, ROS↑, eff↑, tumCV↓, MMP↓, Dose∅, eff↓, DNAdam↑, Apoptosis↑, TumAuto↑, Necroptosis↑, p‑P53↑, BIM↑, BAX↑, p‑PARP↑, Casp3↑, Casp8↑, Casp9↑, Cyt‑c↑, Bcl-2↓, AIF↑, p62↑, LC3B↑, MLKL↑, p‑MLKL↓, RIP3↑, p‑RIP3↑, TumCG↑, TumW↓,
1404- BBR,    Berberine-induced apoptosis in human prostate cancer cells is initiated by reactive oxygen species generation
- in-vitro, Pca, PC3
Apoptosis↑, *Apoptosis∅, MMP↓, cl‑Casp3↑, cl‑Casp9↑, cl‑PARP↑, ROS↑, eff↓, Cyt‑c↑,
5178- BBR,    Berberine, a natural product, induces G1-phase cell cycle arrest and caspase-3-dependent apoptosis in human prostate carcinoma cells
- in-vitro, Pca, DU145 - in-vitro, Pca, PC3
TumCP↑, TumCCA↑, cycD1/CCND1↓, cycE/CCNE↓, CDK2↓, CDK4↓, CDK6↓, P21↑, p27↑, Apoptosis↑, Bax:Bcl2↑, MMP↓, Casp9↑, Casp3↑, PARP↑, DNAdam↑, selectivity↑, Cyt‑c↑,
137- CUR,    Curcumin induces G0/G1 arrest and apoptosis in hormone independent prostate cancer DU-145 cells by down regulating Notch signaling
- in-vitro, Pca, DU145
NOTCH1↓, cycD1/CCND1↓, CDK2↓, P21↑, p27↑, P53↑, Bcl-2↓, Casp3↑, Casp9↑, TumCCA↑, TumCP↓, Apoptosis↑,
132- CUR,    Targeting multiple pro-apoptotic signaling pathways with curcumin in prostate cancer cells
- in-vitro, Pca, PC3
TumCCA↑, ROS↑, TumAuto↑, UPR↑, ER Stress↑, Casp3↑, Casp9↑, Casp12↑, PARP↑, other↝, GRP78/BiP↑, PDI↑, eIF2α↑, other↝,
167- CUR,    Curcumin-induced apoptosis in PC3 prostate carcinoma cells is caspase-independent and involves cellular ceramide accumulation and damage to mitochondria
- in-vitro, Pca, PC3
MAPK↑, JNK↑, Casp3↑, Casp8↑, Casp9↑, AIF↑, GSH↓, eff↓, Apoptosis↑, DNAdam↑,
159- CUR,    Crosstalk from survival to necrotic death coexists in DU-145 cells by curcumin treatment
- in-vitro, Pca, DU145
ROS↑, p‑Jun↑, p‑p38↑, TumAuto↑, Casp8↑, Casp9↑, Akt↓, ERK↓, p38↓,
849- Gra,    Annona muricata silver nanoparticles exhibit strong anticancer activities against cervical and prostate adenocarcinomas through regulation of CASP9 and the CXCL1/CXCR2 genes axis
- in-vitro, Pca, PC3 - in-vitro, Nor, PNT1A - in-vitro, NA, HeLa
Casp9↑, CXCL1↓, *toxicity↓,
4945- PEITC,    Phenethyl isothiocyanate (PEITC) promotes G2/M phase arrest via p53 expression and induces apoptosis through caspase- and mitochondria-dependent signaling pathways in human prostate cancer DU 145 cells
- in-vitro, Pca, DU145
AntiCan↑, TumCG↓, Apoptosis↑, tumCV↓, TumCCA↑, DNAdam↑, P53↑, CDC25↓, Casp9↑, Casp8↑, mtDam↑, Cyt‑c↑,
66- QC,    Emerging impact of quercetin in the treatment of prostate cancer
- Review, Pca, NA
CycB/CCNB1↓, CDK1↓, EMT↓, PI3K↓, MAPK↓, Wnt/(β-catenin)↓, PSA↓, VEGF↓, PARP↑, Casp3↑, Casp9↑, DR5↑, ROS⇅, Shh↓, P53↑, P21↑, EGFR↓, TumCCA↑, ROS↑, miR-21↓, TumCP↓, selectivity↑, PDGF↓, EGF↓, TNF-α↓, VEGFR2↓, mTOR↓, cMyc↓, MMPs↓, GRP78/BiP↑, CHOP↑,
69- QC,    Quercetin enhances TRAIL-induced apoptosis in prostate cancer cells via increased protein stability of death receptor 5
- in-vitro, Pca, DU145 - in-vitro, Pca, PC3 - in-vitro, Pca, LNCaP
TRAIL↑, Casp3↑, Casp9↑, Casp8↑, DR5↑,
71- QC,    Role of Bax in quercetin-induced apoptosis in human prostate cancer cells
- in-vitro, Pca, LNCaP - in-vitro, Pca, PrEC - in-vitro, Pca, YPEN-1 - in-vitro, Pca, HCT116
Casp8↑, Casp9↑, PARP↑, BAD↓, BAX↑, PI3K/Akt↓, Cyt‑c↑, selectivity↑,
89- QC,  doxoR,    Quercetin reverses the doxorubicin resistance of prostate cancer cells by downregulating the expression of c-met
- in-vitro, Pca, PC3
PI3K/Akt↓, cMET↓, Casp3↑, Casp9↑, MMP↓, ChemoSen↑, ROS↑,
73- QC,    The dietary bioflavonoid, quercetin, selectively induces apoptosis of prostate cancer cells by down-regulating the expression of heat shock protein 90
- in-vitro, Pca, LNCaP - in-vitro, Pca, DU145 - in-vitro, Pca, PC3
HSP90↓, Casp3↑, Casp9↑, TumCG↓, TumCD↑, selectivity↑, toxicity↓,
91- QC,    The roles of endoplasmic reticulum stress and mitochondrial apoptotic signaling pathway in quercetin-mediated cell death of human prostate cancer PC-3 cells
- in-vitro, Pca, PC3
CDK2↓, cycE/CCNE↓, cycD1/CCND1↓, ATFs↑, GRP78/BiP↑, Bcl-2↓, BAX↑, Casp3↑, Casp8↑, Casp9↑, ER Stress↑, CHOP↑, TumCCA↑, DNAdam↑, AIF↑, Ca+2↑, MMP↓,
86- QC,  PacT,    Quercetin regulates insulin like growth factor signaling and induces intrinsic and extrinsic pathway mediated apoptosis in androgen independent prostate cancer cells (PC-3)
- vitro+vivo, Pca, PC3
BAD↑, IGFBP3↑, Cyt‑c↑, cl‑Casp9↑, Casp10↑, cl‑PARP↑, Casp3↑, IGF-1R↓, PI3K↓, p‑Akt↓, cycD1/CCND1↓, IGF-1↓, IGF-2↓, IGF-1R↓, MMP↓, Apoptosis↑, NA?,
79- QC,    Chemopreventive Effect of Quercetin in MNU and Testosterone Induced Prostate Cancer of Sprague-Dawley Rats
- in-vivo, Pca, NA
GSH↑, SOD↑, Catalase↑, GPx↑, GSR↑, IGF-1R↓, Akt↓, AR↓, TumCP↓, lipid-P↓, H2O2↓, Raf↓, p‑MEK↓, Bcl-2↑, Bcl-xL↑, Casp3↑, Casp8↑, Casp9↑,
3369- QC,    Pharmacological basis and new insights of quercetin action in respect to its anti-cancer effects
- Review, Pca, NA
FAK↓, TumCCA↑, p‑pRB↓, CDK2↑, CycB/CCNB1↓, CDK1↓, EMT↓, PI3K↓, MAPK↓, Wnt↓, ROS↑, miR-21↑, Akt↓, NF-kB↓, FasL↑, Bak↑, BAX↑, Bcl-2↓, Casp3↓, Casp9↑, P53↑, p38↑, MAPK↑, Cyt‑c↑, PARP↓, CHOP↑, ROS↓, LDH↑, GRP78/BiP↑, ERK↑, MDA↓, SOD↑, GSH↑, NRF2↑, VEGF↓, PDGF↓, EGF↓, FGF↓, TNF-α↓, TGF-β↓, VEGFR2↓, EGFR↓, FGFR1↓, mTOR↓, cMyc↓, MMPs↓, LC3B-II↑, Beclin-1↑, IL1β↓, CRP↓, IL10↓, COX2↓, IL6↓, TLR4↓, Shh↓, HER2/EBBR2↓, NOTCH↓, DR5↑, HSP70/HSPA5↓, CSCs↓, angioG↓, MMP2↓, MMP9↓, IGFBP3↑, uPA↓, uPAR↓, RAS↓, Raf↓, TSP-1↑,
3078- RES,    The Effects of Resveratrol on Prostate Cancer through Targeting the Tumor Microenvironment
- Review, Pca, NA
*ROS↓, ROS↑, DNAdam↑, Apoptosis↑, Hif1a↑, Casp3↑, Casp9↑, Cyt‑c↑, Dose↝, MMPs↓, MMP2↓, MMP9↓, EMT↓, E-cadherin↑, N-cadherin↓, AR↓,
1469- SFN,    Sulforaphane enhances the therapeutic potential of TRAIL in prostate cancer orthotopic model through regulation of apoptosis, metastasis, and angiogenesis
- in-vitro, Pca, PC3 - in-vitro, Pca, LNCaP - in-vivo, Pca, NA
eff↑, ROS↑, MMP↓, Casp3↑, Casp9↑, DR4↑, DR5↑, BAX↑, Bak↑, BIM↑, NOXA↑, Bcl-2↓, Bcl-xL↓, Mcl-1↓, eff↓, TumCG↓, TumCP↓, eff↑, NF-kB↓, PI3K↓, Akt↓, MEK↓, ERK↓, angioG↓, FOXO3↑,
5105- SSE,    Sodium selenite induces apoptosis by generation of superoxide via the mitochondrial-dependent pathway in human prostate cancer cells
- in-vitro, Pca, LNCaP
TumCD↑, Apoptosis↑, ROS↑, eff↓, MMP↓, Cyt‑c↑, Casp3↑, Casp9↑, ER Stress↑, TumAuto↑, necrosis↑, chemoPv↑,
4854- Uro,    Urolithins: Emerging natural compound targeting castration-resistant prostate cancer (CRPC)
- Review, Pca, NA
AR↓, ROS↓, Apoptosis↑, selectivity↑, Dose↑, MDA↓, SOD↑, GPx↑, ROS↑, Casp3↑, Casp9↑,

Showing Research Papers: 1 to 22 of 22

* indicates research on normal cells as opposed to diseased cells
Total Research Paper Matches: 22

Pathway results for Effect on Cancer / Diseased Cells:


NA, unassigned

NA?, 1,  

Redox & Oxidative Stress

Catalase↑, 1,   GPx↑, 2,   GSH↓, 1,   GSH↑, 2,   GSR↑, 1,   H2O2↓, 1,   lipid-P↓, 1,   MDA↓, 2,   NRF2↑, 1,   ROS↓, 2,   ROS↑, 11,   ROS⇅, 1,   SOD↑, 3,  

Mitochondria & Bioenergetics

AIF↑, 3,   CDC25↓, 1,   EGF↓, 2,   FGFR1↓, 1,   MEK↓, 1,   p‑MEK↓, 1,   MMP↓, 8,   mtDam↑, 1,   Raf↓, 2,  

Core Metabolism/Glycolysis

cMyc↓, 2,   LDH↑, 1,   PI3K/Akt↓, 2,  

Cell Death

Akt↓, 4,   p‑Akt↓, 1,   Apoptosis↑, 10,   BAD↓, 1,   BAD↑, 1,   Bak↑, 2,   BAX↑, 5,   Bax:Bcl2↑, 1,   Bcl-2↓, 5,   Bcl-2↑, 1,   Bcl-xL↓, 1,   Bcl-xL↑, 1,   BIM↑, 2,   Casp10↑, 1,   Casp12↑, 1,   Casp3↓, 1,   Casp3↑, 16,   cl‑Casp3↑, 1,   Casp8↑, 8,   Casp9↑, 20,   cl‑Casp9↑, 2,   Cyt‑c↑, 9,   DR4↑, 1,   DR5↑, 4,   FasL↑, 1,   JNK↑, 1,   MAPK↓, 2,   MAPK↑, 2,   Mcl-1↓, 1,   MLKL↑, 1,   p‑MLKL↓, 1,   Necroptosis↑, 1,   necrosis↑, 1,   NOXA↑, 1,   p27↑, 2,   p38↓, 1,   p38↑, 1,   p‑p38↑, 1,   TRAIL↑, 1,   TumCD↑, 2,  

Kinase & Signal Transduction

HER2/EBBR2↓, 1,  

Transcription & Epigenetics

miR-21↓, 1,   miR-21↑, 1,   other↝, 2,   p‑pRB↓, 1,   tumCV↓, 2,  

Protein Folding & ER Stress

ATFs↑, 1,   CHOP↑, 3,   eIF2α↑, 1,   ER Stress↑, 3,   GRP78/BiP↑, 4,   HSP70/HSPA5↓, 1,   HSP90↓, 1,   UPR↑, 1,  

Autophagy & Lysosomes

Beclin-1↑, 1,   LC3B↑, 1,   LC3B-II↑, 1,   p62↑, 1,   TumAuto↑, 4,  

DNA Damage & Repair

DNAdam↑, 6,   P53↑, 4,   p‑P53↑, 1,   PARP↓, 1,   PARP↑, 4,   p‑PARP↑, 1,   cl‑PARP↑, 2,  

Cell Cycle & Senescence

CDK1↓, 2,   CDK2↓, 3,   CDK2↑, 1,   CDK4↓, 1,   CycB/CCNB1↓, 2,   cycD1/CCND1↓, 4,   cycE/CCNE↓, 2,   P21↑, 3,   TumCCA↑, 7,  

Proliferation, Differentiation & Cell State

cMET↓, 1,   CSCs↓, 1,   EMT↓, 3,   ERK↓, 2,   ERK↑, 1,   FGF↓, 1,   FOXO3↑, 1,   IGF-1↓, 1,   IGF-1R↓, 3,   IGF-2↓, 1,   IGFBP3↑, 2,   p‑Jun↑, 1,   mTOR↓, 2,   NOTCH↓, 1,   NOTCH1↓, 1,   PI3K↓, 4,   RAS↓, 1,   Shh↓, 2,   TumCG↓, 3,   TumCG↑, 1,   Wnt↓, 1,   Wnt/(β-catenin)↓, 1,  

Migration

Ca+2↑, 1,   E-cadherin↑, 1,   FAK↓, 1,   MMP2↓, 2,   MMP9↓, 2,   MMPs↓, 3,   N-cadherin↓, 1,   PDGF↓, 2,   RIP3↑, 1,   p‑RIP3↑, 1,   TGF-β↓, 1,   TSP-1↑, 1,   TumCP↓, 4,   TumCP↑, 1,   uPA↓, 1,   uPAR↓, 1,  

Angiogenesis & Vasculature

angioG↓, 2,   EGFR↓, 2,   Hif1a↑, 1,   PDI↑, 1,   VEGF↓, 2,   VEGFR2↓, 2,  

Immune & Inflammatory Signaling

COX2↓, 1,   CRP↓, 1,   CXCL1↓, 1,   IL10↓, 1,   IL1β↓, 1,   IL6↓, 1,   NF-kB↓, 2,   PSA↓, 1,   TLR4↓, 1,   TNF-α↓, 2,  

Hormonal & Nuclear Receptors

AR↓, 3,   CDK6↓, 1,  

Drug Metabolism & Resistance

ChemoSen↑, 1,   Dose↑, 1,   Dose↝, 1,   Dose∅, 1,   eff↓, 5,   eff↑, 3,   selectivity↓, 1,   selectivity↑, 7,  

Clinical Biomarkers

AR↓, 3,   CRP↓, 1,   EGFR↓, 2,   HER2/EBBR2↓, 1,   IL6↓, 1,   LDH↑, 1,   PSA↓, 1,  

Functional Outcomes

AntiCan↑, 1,   chemoPv↑, 1,   toxicity↓, 1,   TumW↓, 1,  
Total Targets: 176

Pathway results for Effect on Normal Cells:


Redox & Oxidative Stress

ROS↓, 1,  

Cell Death

Apoptosis∅, 1,  

Functional Outcomes

toxicity↓, 1,  
Total Targets: 3

Scientific Paper Hit Count for: Casp9, Caspase-9
9 Quercetin
4 Curcumin
2 Berberine
1 Apigenin (mainly Parsley)
1 Metformin
1 Graviola
1 Phenethyl isothiocyanate
1 doxorubicin
1 Paclitaxel
1 Resveratrol
1 Sulforaphane (mainly Broccoli)
1 Selenite (Sodium)
1 Urolithin
Query results interpretion may depend on "conditions" listed in the research papers.
Such Conditions may include : 
  -low or high Dose
  -format for product, such as nano of lipid formations
  -different cell line effects
  -synergies with other products 
  -if effect was for normal or cancerous cells

Filter Conditions: Pro/AntiFlg:%  IllCat:%  CanType:22  Cells:%  prod#:%  Target#:45  State#:%  Dir#:2
  wNotes=0  sortOrder:rid,rpid

 

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