miR-203 Cancer Research Results

miR-203, miR-203: Click to Expand ⟱
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miR-203 has been found to have both tumor-suppressive and oncogenic roles.
miR-203 has been shown to act as a tumor suppressor. It can inhibit cancer cell proliferation, migration, and invasion by targeting oncogenes and signaling pathways that promote tumor growth. expression levels of miR-203 can vary significantly across different cancer types and stages. In some cancers, such as breast cancer and prostate cancer, miR-203 is downregulated, while in others, it may be upregulated.
Scientific Papers found: Click to Expand⟱
3282- SIL,    Role of Silymarin in Cancer Treatment: Facts, Hypotheses, and Questions
- Review, NA, NA
hepatoP↑, This group of flavonoids has been extensively studied and they have been used as hepato-protective substances
AntiCan↑, however, silymarin compounds have clear anticancer effects
TumCMig↓, decreasing migration through multiple targeting, decreasing hypoxia inducible factor-1α expression, i
Hif1a↓, In prostate cancer cells silibinin inhibited HIF-1α translation
selectivity↑, antitumoral activity of silymarin compounds is limited to malignant cells while the nonmalignant cells seem not to be affected
toxicity∅, long history of silymarin use in human diseases without toxicity after prolonged administration.
*antiOx↑, as an antioxidant, by scavenging prooxidant free radicals
*Inflam↓, antiinflammatory effects similar to those of indomethacin,
TumCCA↑, MDA-MB 486 breast cancer cells, G1 arrest was found due to increased p21 and decreased CDKs activity
P21↑,
CDK4↓,
NF-kB↓, human prostate carcinoma cells, silymarin decreased ligand binding to Erb1 135 and NF-kB expression was strongly inhibited by silymarin in hepatoma cell
ERK↓, human prostate carcinoma cells, silymarin decreased ligand binding to Erb1 135 and NF-kB expression was strongly inhibited by silymarin in hepatoma cell
PSA↓, Treating prostate carcinoma cells with silymarin the levels of PSA were significantly decreased and cell growth was inhibited through decreased CDK activity and induction of Cip1/p21 and Kip1/p27. 1
TumCG↓,
p27↑,
COX2↓, such as anti-COX2 and anti-IL-1α activity, 140 antiangiogenic effects through inhibition of VEGF secretion, upregulation of Insulin like Growth Factor Binding Protein 3 (IGFBP3), 141 and inhibition of androgen receptors.
IL1↓,
VEGF↓,
IGFBP3↑,
AR↓,
STAT3↓, downregulation of the STAT3 pathway which was seen in many cell models.
Telomerase↓, silymarin has the ability to decrease telomerase activity in prostate cancer cells
Cyt‑c↑, mitochondrial cytochrome C release-caspase activation.
Casp↑,
eff↝, Malignant p53 negative cells show only minimal apoptosis when treated with silymarin. Therefore, one conclusion is that silymarin may be useful in tumors with conserved p53.
HDAC↓, inhibit histone deacetylase activity;
HATs↑, increase histone acetyltransferase activity
Zeb1↓, reduce expression of the transcription factor ZEB1
E-cadherin↑, increase expression of E-cadherin;
miR-203↑, increase expression of miR-203
NHE1↓, reduce activation of sodium hydrogen isoform 1 exchanger (NHE1)
MMP2↓, target β catenin and reduce the levels of MMP2 and MMP9
MMP9↓,
PGE2↓, reduce activation of prostaglandin E2
Vim↓, suppress vimentin expression
Wnt↓, inhibit Wnt signaling
angioG↓, Silymarin inhibits angiogenesis.
VEGF↓, VEGF downregulation
*TIMP1↓, Silymarin has the capacity to decrease TIMP1 expression166–168 in mice.
EMT↓, found that silibinin had no effect on EMT. However, the opposite was found in other malignant tissues160–162 where it showed inhibitory effects.
TGF-β↓, Silibinin reduces the expression of TGF β2 in different tumors such as triple negative breast, 174 prostate, and colorectal cancers.
CD44↓, Silibinin decreased CD44 expression and the activation of EGFR (epidermal growth factor receptor)
EGFR↓,
PDGF↓, silibinin had the ability to downregulate PDFG in fibroblasts, thus decreasing proliferation.
*IL8↓, Flavonoids, in general, reduce levels of IL-8. Curcumin, 200 apigenin, 201 and silybin showed the ability to decrease IL-8 levels
SREBP1↓, Silymarin inhibited STAT3 phosphorylation and decreased the expression of intranuclear sterol regulatory element binding protein 1 (SREBP1), decreasing lipid synthesis.
MMP↓, reduced membrane potential and ATP content
ATP↓,
uPA↓, silibinin decreased MMP2, MMP9, and urokinase plasminogen activator receptor level (uPAR) in neuroblastoma cells. uPAR is also a marker of cell invasion.
PD-L1↓, Silibinin inhibits PD-L1 by impeding STAT5 binding in NSCLC.
NOTCH↓, Silybin inhibited Notch signaling in hepatocellular carcinoma cells showing antitumoral effects
*SIRT1↑, Silymarin can also increase SIRT1 expression in other tissues, such as hippocampus, 221 articular chondrocytes, 222 and heart muscle
SIRT1↓, Silymarin seems to act differently in tumors: in lung cancer cells SIRT downregulated SIRT1 and exerted multiple antitumor effects such as reduced adhesion and migration and increased apoptosis.
CA↓, Silymarin has the ability to inhibit CA isoforms CA I and CA II.
Ca+2↑, ilymarin increases mitochondrial release of Ca++ and lowers mitochondrial membrane potential in cancer cell
chemoP↑, Silymarin: Decreasing Side Effects and Toxicity of Chemotherapeutic Drugs
cardioP↑, There is also evidence that it protects the heart from doxorubicin toxicity, however, it is less potent than quercetin in this effect.
Dose↝, oral administration of 240 mg of silybin to 6 healthy volunteers the following results were obtained 377 : maximum\,plasmaconcentration0.34±0.16⁢𝜇⁢g/m⁢L
Half-Life↝, and time to maximum plasma concentration 1.32 ± 0.45 h. Absorption half life 0.17 ± 0.09 h, elimination half life 6.32 ± 3.94 h
BioAv↓, silymarin is not soluble in water and oral administration shows poor absorption in the alimentary tract (approximately 1% in rats,
BioAv↓, Our conclusion is that, from a bioavailability standpoint, it is much easier to achieve migration inhibition, than proliferative reduction.
BioAv↓, Combination with succinate: is available on the market under the trade mark Legalon® (bis hemisuccinate silybin). Combination with phosphatidylcholine:
toxicity↝, 13 g daily per os divided into 3 doses was well tolerated. The most frequent adverse event was asymptomatic liver toxicity.
Half-Life↓, It may be necessary to administer 800 mg 4 times a day because the half-life is short.
ROS↓, its ability as an antioxidant reduces ROS production
FAK↓, Silibinin decreased human osteosarcoma cell invasion through Erk inhibition of a FAK/ERK/uPA/MMP2 pathway


Showing Research Papers: 1 to 1 of 1

* indicates research on normal cells as opposed to diseased cells
Total Research Paper Matches: 1

Pathway results for Effect on Cancer / Diseased Cells:


Redox & Oxidative Stress

ROS↓, 1,  

Mitochondria & Bioenergetics

ATP↓, 1,   MMP↓, 1,  

Core Metabolism/Glycolysis

SIRT1↓, 1,   SREBP1↓, 1,  

Cell Death

Casp↑, 1,   Cyt‑c↑, 1,   p27↑, 1,   Telomerase↓, 1,  

Transcription & Epigenetics

HATs↑, 1,  

Cell Cycle & Senescence

CDK4↓, 1,   P21↑, 1,   TumCCA↑, 1,  

Proliferation, Differentiation & Cell State

CD44↓, 1,   EMT↓, 1,   ERK↓, 1,   HDAC↓, 1,   IGFBP3↑, 1,   NOTCH↓, 1,   STAT3↓, 1,   TumCG↓, 1,   Wnt↓, 1,  

Migration

CA↓, 1,   Ca+2↑, 1,   E-cadherin↑, 1,   FAK↓, 1,   miR-203↑, 1,   MMP2↓, 1,   MMP9↓, 1,   PDGF↓, 1,   TGF-β↓, 1,   TumCMig↓, 1,   uPA↓, 1,   Vim↓, 1,   Zeb1↓, 1,  

Angiogenesis & Vasculature

angioG↓, 1,   EGFR↓, 1,   Hif1a↓, 1,   VEGF↓, 2,  

Barriers & Transport

NHE1↓, 1,  

Immune & Inflammatory Signaling

COX2↓, 1,   IL1↓, 1,   NF-kB↓, 1,   PD-L1↓, 1,   PGE2↓, 1,   PSA↓, 1,  

Hormonal & Nuclear Receptors

AR↓, 1,  

Drug Metabolism & Resistance

BioAv↓, 3,   Dose↝, 1,   eff↝, 1,   Half-Life↓, 1,   Half-Life↝, 1,   selectivity↑, 1,  

Clinical Biomarkers

AR↓, 1,   EGFR↓, 1,   PD-L1↓, 1,   PSA↓, 1,  

Functional Outcomes

AntiCan↑, 1,   cardioP↑, 1,   chemoP↑, 1,   hepatoP↑, 1,   toxicity↝, 1,   toxicity∅, 1,  
Total Targets: 63

Pathway results for Effect on Normal Cells:


Redox & Oxidative Stress

antiOx↑, 1,  

Core Metabolism/Glycolysis

SIRT1↑, 1,  

Migration

TIMP1↓, 1,  

Immune & Inflammatory Signaling

IL8↓, 1,   Inflam↓, 1,  
Total Targets: 5

Scientific Paper Hit Count for: miR-203, miR-203
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#:%  Target#:190  State#:%  Dir#:2
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