Quercetin / Sp1/3/4 Cancer Research Results

QC, Quercetin: Click to Expand ⟱
Features:
Plant pigment (flavonoid) found in red wine, onions, green tea, apples and berries.
Quercetin is thought to contribute to anticancer effects through several mechanisms:
-Antioxidant Activity:
-Induction of Apoptosis:modify Bax:Bcl-2 ratio
-Anti-inflammatory Effects:
-Cell Cycle Arrest:
-Inhibition of Angiogenesis and Metastasis: (VEGF)

Cellular Pathways:
-PI3K/Akt/mTOR Pathway: central to cell proliferation, survival, and metabolism.
-MAPK/ERK Pathway: influencing cell proliferation, differentiation, and apoptosis.
-NF-κB Pathway: downregulate NF-κB
-JAK/STAT Pathway: interfere with the activation of STAT3
-Apoptotic Pathways: intrinsic (mitochondrial) and extrinsic (death receptor-mediated) pathways

Quercetin has been used at doses around 500–1000 mg per day
Quercetin’s bioavailability from foods or standard supplements can be low.

-Note half-life 11 to 28 hours.
BioAv low 1-10%, poor water-solubility, consuming with fat may improve bioavialability. also piperine or VitC.
Pathways:
- induce ROS production in cancer cells (higher dose). Typicallys Lowers ROS in normal cells(unless it is high dose?)or depends on Redox status?. "quercetin paradox"
- ROS↑ related: MMP↓(ΔΨm), ER Stress↑, UPR↑, GRP78↑, Ca+2↑, Cyt‑c↑, Caspases↑, DNA damage↑, cl-PARP↑, HSP↓, Prx,
- Confusing info about Lowering AntiOxidant defense in Cancer Cells: NRF2↓(some contrary), TrxR↓**, SOD↓(contrary), GSH↓ Catalase↓(contrary), HO1↓(some contrary), GPx↓(some contrary)
- Raises AntiOxidant defense in Normal Cells: ROS↓, NRF2↑, SOD↑, GSH↑, Catalase↑,
- lowers Inflammation : NF-kB↓, COX2↓, p38↓, Pro-Inflammatory Cytokines : NLRP3↓, IL-1β↓, TNF-α↓, IL-6↓, IL-8↓
- inhibit Growth/Metastases : TumMeta↓, TumCG↓, EMT↓, MMPs↓, MMP2↓, MMP9↓, TIMP2, IGF-1↓, uPA↓, VEGF↓, ROCK1↓, FAK↓, NF-κB↓, CXCR4↓, SDF1↓, TGF-β↓, α-SMA↓, ERK↓
- reactivate genes thereby inhibiting cancer cell growth : HDAC↓, DNMTs↓, EZH2↓, P53↑, HSP↓, Sp proteins↓, TET↑
- cause Cell cycle arrest : TumCCA↑, cyclin D1↓, cyclin E↓, CDK2↓, CDK4↓, CDK6↓,
- inhibits Migration/Invasion : TumCMig↓, TumCI↓, TNF-α↓, FAK↓, ERK↓, EMT↓, TOP1↓, TET1,
- inhibits glycolysis and ATP depletion : HIF-1α↓, PKM2↓, cMyc↓, GLUT1↓, LDH↓, LDHA↓, HK2↓, PFKs↓, PDKs↓, ECAR↓, OXPHOS↓, GRP78↑, GlucoseCon↓
- inhibits angiogenesis↓ : VEGF↓, HIF-1α↓, Notch↓, FGF↓, PDGF↓, EGFR↓,
- some indication of inhibiting Cancer Stem Cells : CSC↓, CK2↓, Hh↓, CD24↓, β-catenin↓, Notch2↓,
- Others: PI3K↓, AKT↓, JAK↓, STAT↓, Wnt↓, β-catenin↓, AMPK, α↓, ERK↓, JNK, - SREBP (related to cholesterol).
- Synergies: chemo-sensitization, chemoProtective, RadioSensitizer, RadioProtective, Others(review target notes), Neuroprotective, Cognitive, Renoprotection, Hepatoprotective, CardioProtective,

- Selectivity: Cancer Cells vs Normal Cells

Rank Pathway / Axis Cancer Cells Normal Cells Label Primary Interpretation Notes
1 Reactive oxygen species (ROS) ↑ ROS (dose-, metal-, context-dependent) ↓ ROS Conditional Driver Biphasic redox modulation Quercetin exhibits pro-oxidant behavior in cancer cells while protecting normal cells
2 Mitochondrial integrity / intrinsic apoptosis ↓ ΔΨm; ↑ caspase activation ↔ preserved Driver Execution of intrinsic apoptosis Mitochondrial dysfunction is a central apoptosis route in cancer cells
3 PI3K → AKT → mTOR axis ↓ AKT / ↓ mTOR ↔ adaptive suppression Driver Growth and survival inhibition AKT/mTOR suppression is a consistently reported upstream effect in cancer models
4 NF-κB signaling ↓ NF-κB activation ↓ inflammatory NF-κB tone Secondary Reduced survival and inflammatory transcription NF-κB inhibition contributes to chemosensitization and apoptosis susceptibility
5 MAPK signaling (JNK / p38) ↑ JNK / ↑ p38 ↔ minimal Secondary Stress-mediated apoptosis signaling MAPK activation supports apoptosis downstream of redox stress
6 Cell cycle regulation ↑ G1/S or G2/M arrest ↔ largely spared Phenotypic Cytostatic growth control Cell-cycle arrest reflects disruption of growth signaling
7 HIF-1α hypoxia signaling ↓ HIF-1α ↔ minimal Secondary Reduced hypoxia tolerance Quercetin interferes with hypoxia-driven transcriptional programs
8 NRF2 antioxidant response ↑ NRF2 (adaptive, context-dependent) ↑ NRF2 (protective) Adaptive Stress compensation NRF2 induction reflects redox buffering rather than primary cytotoxicity


Sp1/3/4, Specificity Protein: Click to Expand ⟱
Source:
Type:
SP2 (Specificity Protein 2) and SP3 (Specificity Protein 3) are also members of the Sp/KLF (Sp1/Krüppel-like factor) family of transcription factors, similar to SP1. They share some functional similarities but also have distinct roles in cellular processes and cancer biology.
-Sp proteins are a family of transcription factors that play a crucial role in regulating gene expression.
-SP1 is often overexpressed in various types of cancer, including breast, prostate, and lung cancers. However, expression levels of Sp in normal cells and tissues are low to undetectable.

SP inhibitors:
-Curcumin, Resveratrol, EGCG, Genistein, Piperlongumine, Betulinic acid
Scientific Papers found: Click to Expand⟱
923- QC,    Quercetin as an innovative therapeutic tool for cancer chemoprevention: Molecular mechanisms and implications in human health
- Review, Var, NA
ROS↑, GSH↓, Ca+2↝, MMP↓, Casp3↑, Casp8↑, Casp9↑, other↓, *ROS↓, *NRF2↑, HO-1↑, TumCCA↑, Inflam↓, STAT3↓, DR5↑, P450↓, MMPs↓, IFN-γ↓, IL6↓, COX2↓, IL8↓, iNOS↓, TNF-α↓, cl‑PARP↑, Apoptosis↑, P53↑, Sp1/3/4↓, survivin↓, TRAILR↑, Casp10↑, DFF45↑, TNFR 1↑, Fas↑, NF-kB↓, IKKα↓, cycD1/CCND1↓, Bcl-2↓, BAX↑, PI3K↓, Akt↓, E-cadherin↓, Vim↓, β-catenin/ZEB1↓, cMyc↓, EMT↓, MMP2↓, NOTCH1↓, MMP7↓, angioG↓, TSP-1↑, CSCs↓, XIAP↓, Snail↓, Slug↓, LEF1↓, P-gp↓, EGFR↓, GSK‐3β↓, mTOR↓, RAGE↓, HSP27↓, VEGF↓, TGF-β↓, COL1↓, COL3A1↓,
104- RES,  QC,    Resveratrol and Quercetin in Combination Have Anticancer Activity in Colon Cancer Cells and Repress Oncogenic microRNA-27a
- in-vitro, Colon, HT-29
Casp3↑, PARP↑, survivin↓, miR-27a-3p↓, Sp1/3/4↓, ZBTB10↑, ROS⇅, TAC↑, tumCV↓,

Showing Research Papers: 1 to 2 of 2

* indicates research on normal cells as opposed to diseased cells
Total Research Paper Matches: 2

Pathway results for Effect on Cancer / Diseased Cells:


Redox & Oxidative Stress

GSH↓, 1,   HO-1↑, 1,   ROS↑, 1,   ROS⇅, 1,   TAC↑, 1,  

Mitochondria & Bioenergetics

MMP↓, 1,   XIAP↓, 1,  

Core Metabolism/Glycolysis

cMyc↓, 1,  

Cell Death

Akt↓, 1,   Apoptosis↑, 1,   BAX↑, 1,   Bcl-2↓, 1,   Casp10↑, 1,   Casp3↑, 2,   Casp8↑, 1,   Casp9↑, 1,   DR5↑, 1,   Fas↑, 1,   iNOS↓, 1,   survivin↓, 2,   TNFR 1↑, 1,   TRAILR↑, 1,  

Kinase & Signal Transduction

Sp1/3/4↓, 2,  

Transcription & Epigenetics

miR-27a-3p↓, 1,   other↓, 1,   tumCV↓, 1,  

Protein Folding & ER Stress

HSP27↓, 1,  

DNA Damage & Repair

DFF45↑, 1,   P53↑, 1,   PARP↑, 1,   cl‑PARP↑, 1,  

Cell Cycle & Senescence

cycD1/CCND1↓, 1,   TumCCA↑, 1,  

Proliferation, Differentiation & Cell State

CSCs↓, 1,   EMT↓, 1,   GSK‐3β↓, 1,   mTOR↓, 1,   NOTCH1↓, 1,   PI3K↓, 1,   STAT3↓, 1,  

Migration

Ca+2↝, 1,   COL1↓, 1,   COL3A1↓, 1,   E-cadherin↓, 1,   LEF1↓, 1,   MMP2↓, 1,   MMP7↓, 1,   MMPs↓, 1,   RAGE↓, 1,   Slug↓, 1,   Snail↓, 1,   TGF-β↓, 1,   TSP-1↑, 1,   Vim↓, 1,   β-catenin/ZEB1↓, 1,  

Angiogenesis & Vasculature

angioG↓, 1,   EGFR↓, 1,   VEGF↓, 1,   ZBTB10↑, 1,  

Barriers & Transport

P-gp↓, 1,  

Immune & Inflammatory Signaling

COX2↓, 1,   IFN-γ↓, 1,   IKKα↓, 1,   IL6↓, 1,   IL8↓, 1,   Inflam↓, 1,   NF-kB↓, 1,   TNF-α↓, 1,  

Drug Metabolism & Resistance

P450↓, 1,  

Clinical Biomarkers

EGFR↓, 1,   IL6↓, 1,   RAGE↓, 1,  
Total Targets: 72

Pathway results for Effect on Normal Cells:


Redox & Oxidative Stress

NRF2↑, 1,   ROS↓, 1,  
Total Targets: 2

Scientific Paper Hit Count for: Sp1/3/4, Specificity Protein
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:%  Cells:%  prod#:140  Target#:506  State#:%  Dir#:%
  wNotes=0  sortOrder:rid,rpid

 

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