TumCG Cancer Research Results

TumCG, Tumor cell growth: Click to Expand ⟱
Source:
Type:
Normal cells grow and divide in a regulated manner through the cell cycle, which consists of phases (G1, S, G2, and M).
Cancer cells often bypass these regulatory mechanisms, leading to uncontrolled proliferation. This can result from mutations in genes that control the cell cycle, such as oncogenes (which promote cell division) and tumor suppressor genes (which inhibit cell division).
CRC, Colorectal Cancer: Click to Expand ⟱
Colorectal cancer is a broader term that encompasses both colon and rectal cancer.
Scientific Papers found: Click to Expand⟱
944- AG,    Astragalus saponins inhibit cell growth, aerobic glycolysis and attenuate the inflammatory response in a DSS-induced colitis model
- vitro+vivo, CRC, NA
Glycolysis↓, lactateProd↓, TumCG↓,
4362- AgNPs,    Enhancing Colorectal Cancer Radiation Therapy Efficacy using Silver Nanoprisms Decorated with Graphene as Radiosensitizers
- in-vitro, CRC, HCT116 - in-vitro, CRC, HT29 - in-vivo, NA, NA
eff↑, TumCG↓, OS↑, RadioS↑, eff↑, ROS↑, DNAdam↑, eff↝,
2634- Api,    Apigenin induces both intrinsic and extrinsic pathways of apoptosis in human colon carcinoma HCT-116 cells
- in-vitro, CRC, HCT116
TumCG↓, TumCCA↑, MMP↓, ROS↑, Ca+2↑, ER Stress↑, mtDam↑, CHOP↑, DR5↑, cl‑BID↑, BAX↑, Cyt‑c↑, cl‑Casp3↑, cl‑Casp8↑, cl‑Casp9↑, Apoptosis↑,
2582- ART/DHA,  5-ALA,    Mechanistic Investigation of the Specific Anticancer Property of Artemisinin and Its Combination with Aminolevulinic Acid for Enhanced Anticolorectal Cancer Activity
- in-vivo, CRC, HCT116 - in-vitro, CRC, HCT116
eff↑, ROS↑, selectivity↑, TumCG↓, toxicity↓,
5398- Ash,    Withaferin-A inhibits colorectal cancer growth and metastasis by targeting the HSP90/HIF-1α/EMT axis
- in-vitro, CRC, HCT116 - in-vitro, CRC, SW48
TumCG↓, TumCMig↓, TumCI↓, HSP90↓, Hif1a↓, EMT↓,
1356- Ash,    Withaferin A induces apoptosis by ROS-dependent mitochondrial dysfunction in human colorectal cancer cells
- in-vitro, CRC, HCT116
ROS↑, TumCCA↑, MMP↓, TumCG↓, Apoptosis↑, JNK↝,
4806- ASTX,    Astaxanthin's Impact on Colorectal Cancer: Examining Apoptosis, Antioxidant Enzymes, and Gene Expression
- in-vitro, CRC, HCT116
BAX↑, Casp3↑, Apoptosis↑, Bcl-2↓, MDA↓, ROS↓, SOD↑, Catalase↑, GPx↑, antiOx↑, TumCG↓, TumCP↓,
2477- Ba,    Baicalein induces apoptosis via a mitochondrial-dependent caspase activation pathway in T24 bladder cancer cells
- in-vitro, CRC, T24/HTB-9
TumCG↓, TumCCA↑, MMP↓, Cyt‑c↑, Casp9↑, Casp3↑, p‑Akt↓, Bcl-2↓, BAX↑, Bax:Bcl2↑, 12LOX↓,
1375- BBR,    13-[CH2CO-Cys-(Bzl)-OBzl]-Berberine: Exploring The Correlation Of Anti-Tumor Efficacy With ROS And Apoptosis Protein
- in-vitro, CRC, HCT8 - in-vivo, NA, NA
ROS↑, TumCP↓, XIAP↓, TumCG↓, *toxicity↓,
2335- BBR,    Chemoproteomics reveals berberine directly binds to PKM2 to inhibit the progression of colorectal cancer
- in-vitro, CRC, HT29 - in-vitro, CRC, HCT116 - in-vivo, NA, NA
PKM2↓, Glycolysis↓, p‑STAT3↓, Bcl-2↓, cycD1/CCND1↓, TumCG↓, Ki-67↓, lactateProd↓, glucose↓,
2708- BBR,    Berberine decelerates glucose metabolism via suppression of mTOR‑dependent HIF‑1α protein synthesis in colon cancer cells
- in-vitro, CRC, HCT116
TumCG↓, GlucoseCon↓, GLUT1↓, LDHA↓, HK2↓, Hif1a↓, mTOR↓, Glycolysis↓,
1010- BBR,    Berberine binds RXRα to suppress β-catenin signaling in colon cancer cells
- vitro+vivo, CRC, NA
β-catenin/ZEB1↓, TumCG↓,
1031- BCA,    Biochanin A Suppresses Tumor Progression and PD-L1 Expression via Inhibiting ZEB1 Expression in Colorectal Cancer
- vitro+vivo, CRC, HCT116 - vitro+vivo, CRC, SW-620
PD-L1↓, TumCG↓, Zeb1↓, E-cadherin↑, N-cadherin↓, EMT↓,
2745- BetA,    Betulinic acid inhibits colon cancer cell and tumor growth and induces proteasome-dependent and -independent downregulation of specificity proteins (Sp) transcription factors
- in-vitro, CRC, RKO - in-vitro, CRC, SW480 - in-vivo, NA, NA
Apoptosis↑, TumCG↓, Sp1/3/4↓, survivin↓, VEGF↓, p65↓, EGFR↓, cycD1/CCND1↓, ROS↑, MMP↓,
2746- BetA,    Betulinic acid induces apoptosis and inhibits metastasis of human colorectal cancer cells in vitro and in vivo
- in-vitro, CRC, HCT116 - in-vivo, CRC, NA
TumCG↓, BAX↑, Bcl-2↓, ROS↑, MMP↓, TIMP2↑, TumVol↓,
5475- BM,    The Purified Extract from the Medicinal Plant Bacopa monnieri, Bacopaside II, Inhibits Growth of Colon Cancer Cells In Vitro by Inducing Cell Cycle Arrest and Apoptosis
- in-vitro, Colon, HT29 - in-vitro, Colon, SW48 - in-vitro, Colon, SW-620 - in-vitro, CRC, HCT116
AQPs↓, TumCG↓, TumCCA↓, Apoptosis↑, eff↝,
5678- BML,    Bromelain inhibits the ability of colorectal cancer cells to proliferate via activation of ROS production and autophagy
- in-vivo, CRC, NA
AntiCan↑, TumCG↓, ROS↑, Apoptosis↑, Endoglin↑, Casp3↑, Casp8↑, Casp9↑, ATG5↑, Beclin-1↑, p62↑, PARP↑,
5685- BML,    The Therapeutic Effects of Bromelain against Colorectal Cancer: A Systematic Review
- Review, CRC, NA
TumCG↓, TumMeta↓, ROS⇅, Bcl-2↓, Casp3↑, Casp7↑, Casp8↑, Casp9↑, P53↑,
1169- Bos,    Boswellic Acid Inhibits Growth and Metastasis of Human Colorectal Cancer in Orthotopic Mouse Model By Downregulating Inflammatory, Proliferative, Invasive, and Angiogenic Biomarkers
- in-vivo, CRC, NA
TumCG↓, TumVol↓, Weight∅, ascitic↓, TumMeta↓, Ki-67↓, CD31↓, NF-kB↓, COX2↓, Bcl-2↓, Bcl-xL↓, IAP1↓, survivin↓, cycD1/CCND1↓, ICAM-1↓, MMP9↓, CXCR4↓, VEGF↓,
1427- Bos,    Acetyl-keto-β-boswellic acid inhibits cellular proliferation through a p21-dependent pathway in colon cancer cells
- in-vitro, CRC, HT-29 - in-vitro, CRC, HCT116 - in-vitro, CRC, LS174T
TumCG↓, TumCCA↑, cycD1/CCND1↓, cycE/CCNE↓, CDK2↓, CDK4↓, p‑RB1↓, P21↑,
1422- Bos,    Boswellic acid exerts antitumor effects in colorectal cancer cells by modulating expression of the let-7 and miR-200 microRNA family
- in-vitro, CRC, NA - in-vivo, NA, NA
5LO↓, TumCG↓, Let-7↑, miR-200b↑, NF-kB↓, cMyc↓, cycD1/CCND1↓, MMP9↓, CXCR4↓, VEGF↓, Bcl-xL↓, survivin↓, IAP1↓, XIAP↓, TumCG↓, CDK6↓, Vim↓, E-cadherin↑,
1426- Bos,  CUR,  Chemo,    Novel evidence for curcumin and boswellic acid induced chemoprevention through regulation of miR-34a and miR-27a in colorectal cancer
- in-vivo, CRC, NA - in-vitro, CRC, HCT116 - in-vitro, CRC, RKO - in-vitro, CRC, SW480 - in-vitro, RCC, SW-620 - in-vitro, RCC, HT-29 - in-vitro, CRC, Caco-2
miR-34a↑, miR-27a-3p↓, TumCG↓, BAX↑, Bcl-2↓, PARP1↓, TumCCA↑, Apoptosis↑, cMyc↓, CDK4↓, CDK6↓, cycD1/CCND1↓, ChemoSen↑, miR-34a↑, miR-27a-3p↓,
5707- Brut,    Targeting Redox Homeostasis and Cell Survival Signaling with a Flavonoid-Rich Extract of Bergamot Juice in In Vitro and In Vivo Colorectal Cancer Models
- in-vitro, CRC, HCT116
Risk↓, TumCG↓, Apoptosis↑, TumCCA↑, ROS↑, MMP↓, DNAdam↑, TumMeta↓, TumCP↓,
5706- Brut,    Bergamot juice extract inhibits proliferation by inducing apoptosis in human colon cancer cells
- in-vitro, CRC, HT29
TumCG↓, MAPK↓, TumCCA↑, Apoptosis↑, ROS↑, DNAdam↑, AntiCan↑,
2047- Buty,    Sodium butyrate inhibits migration and induces AMPK-mTOR pathway-dependent autophagy and ROS-mediated apoptosis via the miR-139-5p/Bmi-1 axis in human bladder cancer cells
- in-vitro, CRC, T24/HTB-9 - in-vitro, Nor, SV-HUC-1 - in-vitro, Bladder, 5637 - in-vivo, NA, NA
HDAC↓, AntiTum↑, TumCMig↓, AMPK↑, mTOR↑, TumAuto↑, ROS↑, miR-139-5p↑, BMI1↓, TumCI?, E-cadherin↑, N-cadherin↓, Vim↓, Snail↓, cl‑PARP↑, cl‑Casp3↑, BAX↑, Bcl-2↓, Bcl-xL↓, MMP↓, PINK1↑, PARK2↑, TumMeta↓, TumCG↓, LC3II↑, p62↓, eff↓,
5760- CAPE,    Caffeic acid phenethyl ester induces growth arrest and apoptosis of colon cancer cells via the beta-catenin/T-cell factor signaling
- in-vitro, CRC, HCT116 - in-vitro, CRC, SW480
TumCG↓, TumCCA↑,
6160- Cin,    Cinnamaldehyde induces apoptosis and enhances anti-colorectal cancer activity via covalent binding to HSPD1
- vitro+vivo, CRC, HCT116
AntiTum↑, Apoptosis↑, PI3K↓, Akt↓, TumCG↓, TumCCA↑, HSPD1 / HSP60↓, Ki-67↓, ChemoSen↑,
4671- CUR,    Targeting colorectal cancer stem cells using curcumin and curcumin analogues: insights into the mechanism of the therapeutic efficacy
- in-vitro, CRC, NA
CSCs↓, TumCG↓, ChemoSen↑, Wnt↓, β-catenin/ZEB1↓, Shh↓, NOTCH↓, DNMT1↓, STAT3↓, NF-kB↓, EGFR↓, IGFR↓, TumCCA↓, cl‑PARP↑, BAX↑, ECM/TCF↓,
2974- CUR,    Curcumin Suppresses Metastasis via Sp-1, FAK Inhibition, and E-Cadherin Upregulation in Colorectal Cancer
- in-vitro, CRC, HCT116 - in-vitro, CRC, HT29 - in-vitro, CRC, HCT15 - in-vitro, CRC, COLO205 - in-vitro, CRC, SW-620 - in-vivo, NA, NA
TumCMig↓, TumCI↓, TumCG↓, TumMeta↓, Sp1/3/4↓, HDAC4↓, FAK↓, CD24↓, E-cadherin↑, EMT↓, TumCP↓, NF-kB↓, AP-1↝, STAT3↓, P53?, β-catenin/ZEB1↓, NOTCH1↝, Hif1a↝, PPARα↝, Rho↓, MMP2↓, MMP9↓,
3578- CUR,  SIL,    Curcumin, but not its degradation products, in combination with silibinin is primarily responsible for the inhibition of colon cancer cell proliferation
- in-vitro, CRC, DLD1
eff↑, BioAv↓, TumCG↓,
1896- dietMet,    Dietary methionine links nutrition and metabolism to the efficacy of cancer therapies
- in-vivo, CRC, NA
TumCG↓, *GSH↓, RadioS↑, eff↑,
1116- GI,    6-Shogaol Inhibits the Cell Migration of Colon Cancer by Suppressing the EMT Process Through the IKKβ/NF-κB/Snail Pathway
- in-vitro, Colon, Caco-2 - in-vitro, CRC, HCT116
TumCG↓, Apoptosis↑, TumCMig↓, MMP2↓, N-cadherin↓, IKKα↓, p‑NF-kB↓, Snail↓, VEGF↓,
841- Gra,    The Chemopotential Effect of Annona muricata Leaves against Azoxymethane-Induced Colonic Aberrant Crypt Foci in Rats and the Apoptotic Effect of Acetogenin Annomuricin E in HT-29 Cells: A Bioassay-Guided Approach
- in-vitro, CRC, HT-29 - in-vitro, Nor, CCD841
PCNA↓, Bcl-2↓, BAX↑, *MDA↓, lipid-P↓, TumCG↓, MMP↓, Cyt‑c↑, Casp3↑, Casp7↑, Casp9↑, *ROS↓, LDH↓, *toxicity↓, selectivity↑,
1292- GSE,  EGCG,    Antiproliferative and Apoptotic Effects Triggered by Grape Seed Extract (GSE) versus Epigallocatechin and Procyanidins on Colon Cancer Cell Lines
- in-vitro, Colon, Caco-2 - in-vitro, CRC, HCT8
TumCG↓, Apoptosis↑,
2400- HCAs,    The Mixture of Ferulic Acid and P-Coumaric Acid Suppresses Colorectal Cancer through lncRNA 495810/PKM2 Mediated Aerobic Glycolysis
- in-vitro, CRC, NA - in-vivo, CRC, NA
PKM2↓, Glycolysis↓, TumCG↓,
4523- HNK,  MAG,  BA,    Honokiol-Magnolol-Baicalin Possesses Synergistic Anticancer Potential and Enhances the Efficacy of Anti-PD-1 Immunotherapy in Colorectal Cancer by Triggering GSDME-Dependent Pyroptosis
- in-vitro, CRC, HCT116 - in-vitro, CRC, LoVo - in-vivo, CRC, HCT116
AntiCan↑, eff↑, TumCP↓, TumCCA↓, cycD1/CCND1↓, Pyro↑, Apoptosis↑, cl‑GSDME↑, Bcl-2↓, Cyt‑c↑, Casp9↑, TumCG↓,
2178- itraC,    Itraconazole inhibits tumor growth via CEBPB-mediated glycolysis in colorectal cancer
- in-vivo, CRC, HCT116
TumCG↓, Glycolysis↓, CEBPB?, ENO1↓, LDHA↓, PKM2↓, GAPDH↓, ECAR↓, OCR↓,
502- MF,    Electromagnetic field investigation on different cancer cell lines
- in-vitro, BC, MDA-MB-231 - in-vitro, Colon, SW480 - in-vitro, CRC, HCT116
TumCG↓, Apoptosis↑,
775- Mg,    The Supplement of Magnesium Element to Inhibit Colorectal Tumor Cells
- vitro+vivo, CRC, DLD1
TumCCA↑, Apoptosis↑, Casp3↑, TumCG↓,
1182- MushCha,    Ergosterol peroxide from Chaga mushroom (Inonotus obliquus) exhibits anti-cancer activity by down-regulation of the β-catenin pathway in colorectal cancer
- in-vitro, CRC, HCT116 - in-vitro, CRC, HT-29 - in-vitro, CRC, SW-620 - in-vitro, CRC, DLD1
Apoptosis↑, TumCG↓, FASN↓, β-catenin/ZEB1↓, cMyc↓, cycD1/CCND1↓, CDK8↓, Ki-67↓,
5599- NaHCO3,    Acidity generated by the tumor microenvironment drives local invasion
- in-vivo, BC, MDA-MB-231 - in-vitro, CRC, HCT116
e-pH↑, TumCG↓, TumCI↓, Dose↝,
1227- OLST,    Anti-Obesity Drug Orlistat Alleviates Western-Diet-Driven Colitis-Associated Colon Cancer via Inhibition of STAT3 and NF-κB-Mediated Signaling
- in-vivo, CRC, NA
OS↑, Inflam↓, TumCG↓, STAT3↓, NF-kB↓, β-catenin/ZEB1↓, Slug↓, XIAP↓, CDK4↓, cycD1/CCND1↓, Bcl-2↓,
2070- PB,    Phenylbutyrate-induced apoptosis is associated with inactivation of NF-kappaB IN HT-29 colon cancer cells
- in-vitro, CRC, HT-29
TumCG↓, Apoptosis↑, MMP↓, Casp3↑, PARP↓, NF-kB↓, eff↑,
4958- PEITC,    Cancer-preventive effect of phenethyl isothiocyanate through tumor microenvironment regulation in a colorectal cancer stem cell xenograft model
- vitro+vivo, CRC, NA
CSCs↓, TumCG↓, Inflam↓,
4961- PEITC,    Phenethyl isothiocyanate suppresses cancer stem cell properties in vitro and in a xenograft model
- vitro+vivo, CRC, HCT116
CSCs↓, TumCG↓, CSCsMark↓,
993- RES,    Resveratrol reverses the Warburg effect by targeting the pyruvate dehydrogenase complex in colon cancer cells
- in-vitro, CRC, Caco-2 - in-vivo, Nor, HCEC 1CT
TumCG↓, Glycolysis↓, PPP↓, ATP↑, PDH↑, Ca+2↝, TumCP↓, lactateProd↓, OCR↑, ECAR↓, *ECAR∅, *other?, cycE/CCNE↑, cycA1/CCNA1↑, TumCCA↑, cycD1/CCND1↑, OXPHOS↑,
2040- SAHA,    The histone deacetylase inhibitor SAHA arrests cancer cell growth, up-regulates thioredoxin-binding protein-2, and down-regulates thioredoxin
- in-vitro, Pca, LNCaP - in-vitro, CRC, T24/HTB-9 - in-vitro, BC, MCF-7
HDAC↓, TumCG↓, Diff↑, Apoptosis↑, TXNIP↑,
4902- Sal,  OXA,    Salinomycin and oxaliplatin synergistically enhances cytotoxic effect on human colorectal cancer cells in vitro and in vivo
- vitro+vivo, CRC, NA
RadioS↑, ChemoSen↑, TumCP↓, Apoptosis↑, ROS↑, MMP↓, MAPK↑, eff↓, TumCG↓, TumCCA↑,
4909- Sal,    Salinomycin: Anti-tumor activity in a pre-clinical colorectal cancer model
- vitro+vivo, CRC, NA
AntiTum↑, Apoptosis↑, mtDam↑, ROS↑, SOD1↓, ChemoSen↑, CSCs↑, ALDH↓, TumCG↓, TumCP↓, TumCD↑, ATP↓,
5041- SAS,  Cisplatin,    Xc− inhibitor sulfasalazine sensitizes colorectal cancer to cisplatin by a GSH-dependent mechanism
- in-vitro, CRC, NA
xCT↓, Inflam↓, Apoptosis↓, GSH↓, ROS↑, TumCG↓, selectivity↑, eff↑, eff↓,

Showing Research Papers: 1 to 50 of 57
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* indicates research on normal cells as opposed to diseased cells
Total Research Paper Matches: 57

Pathway results for Effect on Cancer / Diseased Cells:


NA, unassigned

HSPD1 / HSP60↓, 1,  

Redox & Oxidative Stress

antiOx↑, 1,   Catalase↑, 1,   GPx↑, 1,   GSH↓, 1,   lipid-P↓, 1,   MDA↓, 1,   OXPHOS↑, 1,   PARK2↑, 1,   ROS↓, 1,   ROS↑, 14,   ROS⇅, 1,   SOD↑, 1,   SOD1↓, 1,   xCT↓, 1,  

Mitochondria & Bioenergetics

ATP↓, 1,   ATP↑, 1,   MMP↓, 10,   mtDam↑, 2,   OCR↓, 1,   OCR↑, 1,   PINK1↑, 1,   XIAP↓, 3,  

Core Metabolism/Glycolysis

12LOX↓, 1,   AMPK↑, 1,   cMyc↓, 3,   ECAR↓, 2,   ENO1↓, 1,   FASN↓, 1,   GAPDH↓, 1,   glucose↓, 1,   GlucoseCon↓, 1,   Glycolysis↓, 6,   HK2↓, 1,   lactateProd↓, 3,   LDH↓, 1,   LDHA↓, 2,   PDH↑, 1,   PKM2↓, 3,   PPARα↝, 1,   PPP↓, 1,  

Cell Death

Akt↓, 1,   p‑Akt↓, 1,   Apoptosis↓, 1,   Apoptosis↑, 20,   BAX↑, 8,   Bax:Bcl2↑, 1,   Bcl-2↓, 11,   Bcl-xL↓, 3,   cl‑BID↑, 1,   Casp3↑, 7,   cl‑Casp3↑, 2,   Casp7↑, 2,   Casp8↑, 2,   cl‑Casp8↑, 1,   Casp9↑, 5,   cl‑Casp9↑, 1,   Cyt‑c↑, 4,   DR5↑, 1,   cl‑GSDME↑, 1,   IAP1↓, 2,   JNK↝, 1,   MAPK↓, 1,   MAPK↑, 1,   Pyro↑, 1,   survivin↓, 3,   TumCD↑, 1,  

Kinase & Signal Transduction

Sp1/3/4↓, 2,  

Transcription & Epigenetics

miR-27a-3p↓, 2,  

Protein Folding & ER Stress

CHOP↑, 1,   ER Stress↑, 1,   HSP90↓, 1,  

Autophagy & Lysosomes

ATG5↑, 1,   Beclin-1↑, 1,   LC3II↑, 1,   p62↓, 1,   p62↑, 1,   TumAuto↑, 1,  

DNA Damage & Repair

DNAdam↑, 3,   DNMT1↓, 1,   P53?, 1,   P53↑, 1,   PARP↓, 1,   PARP↑, 1,   cl‑PARP↑, 2,   PARP1↓, 1,   PCNA↓, 1,  

Cell Cycle & Senescence

CDK2↓, 1,   CDK4↓, 3,   cycA1/CCNA1↑, 1,   cycD1/CCND1↓, 9,   cycD1/CCND1↑, 1,   cycE/CCNE↓, 1,   cycE/CCNE↑, 1,   P21↑, 1,   p‑RB1↓, 1,   TumCCA↓, 3,   TumCCA↑, 12,  

Proliferation, Differentiation & Cell State

ALDH↓, 1,   BMI1↓, 1,   CD24↓, 1,   CDK8↓, 1,   CEBPB?, 1,   CSCs↓, 3,   CSCs↑, 1,   CSCsMark↓, 1,   Diff↑, 1,   EMT↓, 3,   HDAC↓, 2,   HDAC4↓, 1,   IGFR↓, 1,   Let-7↑, 1,   miR-34a↑, 2,   mTOR↓, 1,   mTOR↑, 1,   NOTCH↓, 1,   NOTCH1↝, 1,   PI3K↓, 1,   Shh↓, 1,   STAT3↓, 3,   p‑STAT3↓, 1,   TumCG↓, 51,   Wnt↓, 1,  

Migration

5LO↓, 1,   AP-1↝, 1,   Ca+2↑, 1,   Ca+2↝, 1,   CD31↓, 1,   E-cadherin↑, 4,   FAK↓, 1,   Ki-67↓, 4,   miR-139-5p↑, 1,   miR-200b↑, 1,   MMP2↓, 2,   MMP9↓, 3,   N-cadherin↓, 3,   Rho↓, 1,   Slug↓, 1,   Snail↓, 2,   TIMP2↑, 1,   TumCI?, 1,   TumCI↓, 3,   TumCMig↓, 4,   TumCP↓, 8,   TumMeta↓, 5,   TXNIP↑, 1,   Vim↓, 2,   Zeb1↓, 1,   β-catenin/ZEB1↓, 5,  

Angiogenesis & Vasculature

ECM/TCF↓, 1,   EGFR↓, 2,   Endoglin↑, 1,   Hif1a↓, 2,   Hif1a↝, 1,   VEGF↓, 4,  

Barriers & Transport

AQPs↓, 1,   GLUT1↓, 1,  

Immune & Inflammatory Signaling

COX2↓, 1,   CXCR4↓, 2,   ICAM-1↓, 1,   IKKα↓, 1,   Inflam↓, 3,   NF-kB↓, 6,   p‑NF-kB↓, 1,   p65↓, 1,   PD-L1↓, 1,  

Cellular Microenvironment

e-pH↑, 1,  

Hormonal & Nuclear Receptors

CDK6↓, 2,  

Drug Metabolism & Resistance

BioAv↓, 1,   ChemoSen↑, 5,   Dose↝, 1,   eff↓, 3,   eff↑, 8,   eff↝, 2,   RadioS↑, 3,   selectivity↑, 3,  

Clinical Biomarkers

ascitic↓, 1,   EGFR↓, 2,   Ki-67↓, 4,   LDH↓, 1,   PD-L1↓, 1,  

Functional Outcomes

AntiCan↑, 3,   AntiTum↑, 3,   OS↑, 2,   Risk↓, 1,   toxicity↓, 1,   TumVol↓, 2,   Weight∅, 1,  
Total Targets: 188

Pathway results for Effect on Normal Cells:


Redox & Oxidative Stress

GSH↓, 1,   MDA↓, 1,   ROS↓, 1,  

Core Metabolism/Glycolysis

ECAR∅, 1,  

Transcription & Epigenetics

other?, 1,  

Functional Outcomes

toxicity↓, 2,  
Total Targets: 6

Scientific Paper Hit Count for: TumCG, Tumor cell growth
4 Berberine
4 Boswellia (frankincense)
4 Curcumin
3 Shikonin
2 Ashwagandha(Withaferin A)
2 Betulinic acid
2 Bromelain
2 Bruteridin(bergamot juice)
2 Phenethyl isothiocyanate
2 salinomycin
2 Vitamin C (Ascorbic Acid)
1 Astragalus
1 Silver-NanoParticles
1 Apigenin (mainly Parsley)
1 Artemisinin
1 5-Aminolevulinic acid
1 Astaxanthin
1 Baicalein
1 Biochanin A
1 Bacopa monnieri
1 Chemotherapy
1 Butyrate
1 Caffeic Acid Phenethyl Ester (CAPE)
1 Cinnamon
1 Silymarin (Milk Thistle) silibinin
1 diet Methionine-Restricted Diet
1 Ginger/6-Shogaol/Gingerol
1 Graviola
1 Grapeseed extract
1 EGCG (Epigallocatechin Gallate)
1 Hydroxycinnamic-acid
1 Honokiol
1 Magnolol
1 Baicalin
1 itraconazole
1 Magnetic Fields
1 Magnesium
1 Mushroom Chaga
1 Bicarbonate(Sodium)
1 Orlistat
1 Phenylbutyrate
1 Resveratrol
1 Vorinostat
1 Oxaliplatin
1 Sulfasalazine
1 Cisplatin
1 Selenium NanoParticles
1 irinotecan
1 Ursolic acid
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:6  Cells:%  prod#:%  Target#:323  State#:%  Dir#:1
  wNotes=0  sortOrder:rid,rpid

 

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