condition found tbRes List
CUR, Curcumin: Click to Expand ⟱
Features:
Curcumin is the main active ingredient in Tumeric. Member of the ginger family.Curcumin is a polyphenol extracted from turmeric with anti-inflammatory and antioxidant properties.
- Has iron-chelating, iron-chelating properties. Ferritin. But still known to increase Iron in Cancer cells.
- GSH depletion in cancer cells, exhaustion of the antioxidant defense system. But still raises GSH↑ in normal cells.
- Higher concentrations (5-10 μM) of curcumin induce autophagy and ROS production
- Inhibition of TrxR, shifting the enzyme from an antioxidant to a prooxidant
- Strong inhibitor of Glo-I, , causes depletion of cellular ATP and GSH
- Curcumin has been found to act as an activator of Nrf2, (maybe bad in cancer cells?), hence could be combined with Nrf2 knockdown

Clinical studies testing curcumin in cancer patients have used a range of dosages, often between 500 mg and 8 g per day; however, many studies note that doses on the lower end may not achieve sufficient plasma concentrations for a therapeutic anticancer effect in humans.
• Formulations designed to improve curcumin absorption (like curcumin combined with piperine, nanoparticle formulations, or liposomal curcumin) are often employed in clinical trials to enhance its bioavailability.

-Note half-life 6 hrs.
BioAv is poor, use piperine or other enhancers
Pathways:
- induce ROS production at high concentration. Lowers ROS at lower concentrations
- ROS↑ related: MMP↓(ΔΨm), ER Stress↑, UPR↑, GRP78↑, Cyt‑c↑, Caspases↑, DNA damage↑, cl-PARP↑, HSP↓
- Lowers AntiOxidant defense in Cancer Cells: GSH↓ Catalase↓ HO1↓ GPx↓
but conversely is known as a NRF2↑ activator in cancer
- Raises AntiOxidant defense in Normal Cells: ROS↓, NRF2↑, SOD↑, GSH↑, Catalase↑,
- lowers Inflammation : NF-kB↓, COX2↓, p38↓, Pro-Inflammatory Cytokines : TNF-α↓, IL-6↓, IL-8↓
- inhibit Growth/Metastases : TumMeta↓, TumCG↓, EMT↓, MMPs↓, MMP2↓, MMP9↓, uPA↓, VEGF↓, NF-κB↓, CXCR4↓, SDF1↓, TGF-β↓, α-SMA↓, ERK↓
- reactivate genes thereby inhibiting cancer cell growth : HDAC↓, DNMT1, DNMT3A↓, EZH2↓, P53↑, HSP↓, Sp proteins↓,
- cause Cell cycle arrest : TumCCA↑, cyclin D1↓, CDK2↓, CDK4↓, CDK6↓,
- inhibits Migration/Invasion : TumCMig↓, TumCI↓, ERK↓, EMT↓, TOP1↓, TET1↓,
- inhibits glycolysis /Warburg Effect and ATP depletion : HIF-1α↓, PKM2↓, cMyc↓, GLUT1↓, LDHA↓, HK2↓, PFKs↓, PDKs↓, HK2↓, ECAR↓, OXPHOS↓, GRP78↑, GlucoseCon↓
- inhibits angiogenesis↓ : VEGF↓, HIF-1α↓, Notch↓, FGF↓, PDGF↓, EGFR↓, Integrins↓,
- inhibits Cancer Stem Cells : CSC↓, CK2↓, Hh↓, GLi1↓, CD133↓, CD24↓, β-catenin↓, n-myc↓, sox2↓, OCT4↓,
- Others: PI3K↓, AKT↓, JAK↓, STAT↓, Wnt↓, β-catenin↓, AMPK↓, ERK↓, JNK, TrxR**,
- Synergies: chemo-sensitization, chemoProtective, RadioSensitizer, RadioProtective, Others(review target notes), Neuroprotective, Cognitive, Renoprotection, Hepatoprotective, CardioProtective,

- Selectivity: Cancer Cells vs Normal Cells


DNMT1, DNA (cytosine-5-)-methyltransferase 1: Click to Expand ⟱
Source: CGL-Driver Genes
Type: Oncogene
DNMT1 overexpression in various cancer types.
DNA (cytosine-5-)-methyltransferase 1, commonly referred to as DNMT1, is an enzyme that plays a crucial role in the maintenance of DNA methylation patterns.
Increased DNMT1 activity can promote tumorigenesis by facilitating the accumulation of methylation changes that drive cancer progression.
Is frequently overexpressed in a variety of cancers, including breast, colorectal, lung, prostate, and hematological malignancies. This overexpression is often associated with hypermethylation of tumor suppressor genes, leading to their silencing and contributing to tumorigenesis.
Scientific Papers found: Click to Expand⟱
443- CUR,    Reduced Caudal Type Homeobox 2 (CDX2) Promoter Methylation Is Associated with Curcumin’s Suppressive Effects on Epithelial-Mesenchymal Transition in Colorectal Cancer Cells
- in-vitro, CRC, SW480
DNMT1↓,
DNMT3A↓,
N-cadherin↓,
Vim↓,
Wnt↓, Wnt3a
Snail↓, Snail1
Twist↓,
β-catenin/ZEB1↓,
E-cadherin↑,
EMT↓, Curcumin incubation inhibited EMT
CDX2↓,

422- CUR,    Curcumin induces re-expression of BRCA1 and suppression of γ synuclein by modulating DNA promoter methylation in breast cancer cell lines
- in-vitro, BC, HCC-38 - in-vitro, BC, T47D
BRCA1↑,
TET1↑,
DNMT3A↑, Curcumin downregulates the expression of DNMT1 and upregulates TET1 and DNMT3 in HCC-38 cells
DNMT1↓,
SNCG↓,
miR-29b↓, HCC-38 cells
miR-29b↑, upregulates miR-29b in T47D cells

2688- CUR,    Effects of resveratrol, curcumin, berberine and other nutraceuticals on aging, cancer development, cancer stem cells and microRNAs
- Review, Var, NA - Review, AD, NA
*ROS↓, CUR reduced the production of ROS
*SOD↑, CUR also upregulated the expression of superoxide dismutase (SOD) genes
p16↑, The effects of CUR on gene expression in cancer-associated fibroblasts obtained from breast cancer patients has been examined. CUR increased the expression of the p16INK4A and other tumor suppressor proteins
JAK2↓, CUR decreased the activity of the JAK2/STAT3 pathway
STAT3↓,
CXCL12↓, and many molecules involved in cellular growth and metastasis including: stromal cell-derived factor-1 (SDF-1), IL-6, MMP2, MMP9 and TGF-beta
IL6↓,
MMP2↓,
MMP9↓,
TGF-β↓,
α-SMA↓, These effects reduced the levels of alpha-smooth muscle actin (alpha-SMA) which was attributed to decreased migration and invasion of the cells.
LAMs↓, CUR suppressed Lamin B1 and
DNAdam↑, induced DNA damage-independent senescence in proliferating but not quiescent breast stromal fibroblasts in a p16INK4A-dependent manner.
*memory↑, CUR has recently been shown to suppress memory decline by suppressing beta-site amyloid precursor protein cleaving enzyme 1 (BACE1= Beta-secretase 1, an important gene in AD) expression which is implicated in beta-amyoid pathology in 5xFAD transgenic
*cognitive↑, CUR was found to decrease adiposity and improve cognitive function in a similar fashion as CR in 15-month-old mice.
*Inflam↓, The effects of CUR and CR were positively linked with anti-inflammatory or antioxidant actions
*antiOx↓,
*NO↑, CUR treatment increased nNOS expression, acidity and NO concentration
*MDA↓, CUR treatment resulted in decreased levels of MDA
*ROS↓, CUR treatment was determined to cause reduction of ROS in the AMD-RPEs and protected the cells from H2O2-induced cell death by reduction of ROS levels.
DNMT1↓, CUR has been shown to downregulate the expression of DNA methyl transferase I (DNMT1)
ROS↑, induction of ROS and caspase-3-mediated apoptosis
Casp3↑,
Apoptosis↑,
miR-21↓, CUR was determined to decrease both miR-21 and anti-apoptotic protein expression.
LC3II↓, CUR also induced proteins associated with cell death such as LC3-II and other proteins in U251 cells
ChemoSen↑, The combined CUR and temozolomide treatment resulted in enhanced toxicity in U-87 glioblastoma cells.
NF-kB↓, suppression of NF-kappaB activity
CSCs↓, Dendrosomal curcumin increased the expression of miR-145 and decreased the expression of stemness genes including: NANOG, OCT4A, OCT4B1, and SOX2 [113]
Nanog↓,
OCT4↓,
SOX2↓,
eff↑, A synergistic interaction was observed when emodin and CUR were combined in terms of inhibition of cell growth, survival and invasion.
Sp1/3/4↓, CUR inducing ROS which results in suppression of specificity protein expression (SP1, SP3 and SP4) as well as miR-27a.
miR-27a-3p↓,
ZBTB10↑, downregulation of miR-27a by CUR, increased expression of ZBTB10 occurred
SOX9?, This resulted in decreased SOX9 expression.
ChemoSen↑, CUR used in combination with cisplatin resulted in a synergistic cytotoxic effect, while the effects were additive or sub-additive in combination with doxorubicin
VEGF↓, Some of the effects of CUR treatment are inhibition of NF-κB activity and downstream effector proteins, including: VEGF, MMP-9, XIAP, BCL-2 and Cyclin-D1.
XIAP↓,
Bcl-2↓,
cycD1↓,
BioAv↑, Piperine is an alkaloid found in the seeds of black pepper (Piper nigrum) and is known to enhance the bioavailability of several therapeutic agents, including CUR
Hif1a↓, CUR inhibits HIF-1 in certain HCC cell lines and in vivo studies with tumor xenografts. CUR also inhibited EMT by suppressing HIF-1alpha activity in HepG2 cells
EMT↓,
BioAv↓, CUR has a poor solubility in aqueous enviroment, and consequently it has a low bioavailability and therefore low concentrations at the target sites.
PTEN↑, CUR treatment has been shown to result in activation of PTEN, which is a target of miR-21.
VEGF↓, CUR treatment resulted in a decrease of VEGF and activated Akt.
Akt↑,
EZH2↓, CUR also suppressed EZH2 expression by induction of miR-let 7c and miR-101.
NOTCH1↓, The expression of NOTCH1 was inhibited upon EZH2 suppression [
TP53↑, CUR has been shown to activate the TP53/miR-192-5p/miR-215/XIAP pathway in NSCLC.
NQO1↑, CUR can also induce the demethylation of the nuclear factor erythroid-2 (NF-E2) related factor-2 (NRT2) gene which in turn activates (NQO1), heme oxygenase-1 (HO1) and an antioxidant stress pathway which can prevent growth in mouse TRAMP-C1 prostate
HO-1↑,


* indicates research on normal cells as opposed to diseased cells
Total Research Paper Matches: 3

Results for Effect on Cancer/Diseased Cells:
Akt↑,1,   Apoptosis↑,1,   Bcl-2↓,1,   BioAv↓,1,   BioAv↑,1,   BRCA1↑,1,   Casp3↑,1,   CDX2↓,1,   ChemoSen↑,2,   CSCs↓,1,   CXCL12↓,1,   cycD1↓,1,   DNAdam↑,1,   DNMT1↓,3,   DNMT3A↓,1,   DNMT3A↑,1,   E-cadherin↑,1,   eff↑,1,   EMT↓,2,   EZH2↓,1,   Hif1a↓,1,   HO-1↑,1,   IL6↓,1,   JAK2↓,1,   LAMs↓,1,   LC3II↓,1,   miR-21↓,1,   miR-27a-3p↓,1,   miR-29b↓,1,   miR-29b↑,1,   MMP2↓,1,   MMP9↓,1,   N-cadherin↓,1,   Nanog↓,1,   NF-kB↓,1,   NOTCH1↓,1,   NQO1↑,1,   OCT4↓,1,   p16↑,1,   PTEN↑,1,   ROS↑,1,   Snail↓,1,   SNCG↓,1,   SOX2↓,1,   SOX9?,1,   Sp1/3/4↓,1,   STAT3↓,1,   TET1↑,1,   TGF-β↓,1,   TP53↑,1,   Twist↓,1,   VEGF↓,2,   Vim↓,1,   Wnt↓,1,   XIAP↓,1,   ZBTB10↑,1,   α-SMA↓,1,   β-catenin/ZEB1↓,1,  
Total Targets: 58

Results for Effect on Normal Cells:
antiOx↓,1,   cognitive↑,1,   Inflam↓,1,   MDA↓,1,   memory↑,1,   NO↑,1,   ROS↓,2,   SOD↑,1,  
Total Targets: 8

Scientific Paper Hit Count for: DNMT1, DNA (cytosine-5-)-methyltransferase 1
3 Curcumin
Filter Conditions: Pro/AntiFlg:%  IllCat:%  CanType:%  Cells:%  prod#:65  Target#:85  State#:%  Dir#:%
  wNotes=on  sortOrder:rid,rpid

 

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