p38 Cancer Research Results

p38, p38: Click to Expand ⟱
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P38, or p38 MAPK (p38 mitogen-activated protein kinase), is a protein kinase that plays a significant role in cellular responses to stress, inflammation, and apoptosis (programmed cell death). It is part of the MAPK signaling pathway, which is involved in various cellular processes, including cell growth, differentiation, and survival.
It can have both tumor-suppressive and tumor-promoting effects, depending on the type of cancer and the cellular context.

-p38 activation can contribute to tumor progression by influencing inflammatory signaling and cell-cycle regulation.
-Overexpression can correlate with poor prognosis in some studies.
Scientific Papers found: Click to Expand⟱
4428- AgNPs,    p38 MAPK Activation, DNA Damage, Cell Cycle Arrest and Apoptosis As Mechanisms of Toxicity of Silver Nanoparticles in Jurkat T Cells
- in-vitro, AML, Jurkat
toxicity↝, tumCV↓, ROS↑, p38↑, NRF2↓, NF-kB↝, DNAdam↑, Apoptosis↑,
4430- AgNPs,    Evaluation of the Genotoxic and Oxidative Damage Potential of Silver Nanoparticles in Human NCM460 and HCT116 Cells
- in-vitro, Colon, HCT116 - in-vitro, Nor, NCM460
*Bacteria↓, ROS↑, p‑p38↑, BAX↑, Bcl-2↓, BAX↑, P21↑, TumCD↑, toxicity↝,
335- AgNPs,  PDT,    Biogenic Silver Nanoparticles for Targeted Cancer Therapy and Enhancing Photodynamic Therapy
- Review, NA, NA
ROS↑, GSH↓, GPx↑, Catalase↓, SOD↓, p38↑, BAX↑, Bcl-2↓,
324- AgNPs,  CPT,    Silver Nanoparticles Potentiates Cytotoxicity and Apoptotic Potential of Camptothecin in Human Cervical Cancer Cells
- in-vitro, Cerv, HeLa
ROS↑, Casp3↑, Casp9↑, Casp6↑, GSH↓, SOD↓, GPx↓, MMP↓, P53↑, P21↑, Cyt‑c↑, BID↑, BAX↑, Bcl-2↓, Bcl-xL↓, Akt↓, Raf↓, ERK↓, MAP2K1/MEK1↓, JNK↑, p38↑,
2655- AL,    Allicin and Digestive System Cancers: From Chemical Structure to Its Therapeutic Opportunities
- Review, GC, NA
TGF-β↓, cycD1/CCND1↓, cycE/CCNE↓, CDK1↓, DNAdam↑, ROS↑, BAX↑, JNK↑, MMP↓, p38↑, MAPK↑, Fas↑, Cyt‑c↑, Casp8↑, PARP↑, Casp3↑, Casp9↑, Ca+2↑, ER Stress↑, P21↑, CDK2↓, CDK6↑, TumCCA↑, CDK4↓,
2658- AL,    The Toxic Effect Ways of Allicin on Different Cell Lines
- Review, Var, NA
*antiOx↑, *AntiAg↑, *cardioP↑, Ca+2↑, ROS↑, Casp↑, p38↑, MAPK↑, hepatoP↑, chemoP↑,
2660- AL,    Allicin: A review of its important pharmacological activities
- Review, AD, NA - Review, Var, NA - Review, Park, NA - Review, Stroke, NA
*Inflam↓, AntiCan↑, *antiOx↑, *cardioP↑, *hepatoP↑, *BBB↑, *Half-Life↝, *H2S↑, *BP↓, *neuroP↑, *cognitive↑, *neuroP↑, *ROS↓, *GutMicro↑, *LDH↓, *ROS↓, *lipid-P↓, *antiOx↑, *other↑, *PI3K↓, *Akt↓, *NF-kB↓, *NO↓, *iNOS↓, *PGE2↓, *COX2↓, *IL6↓, *TNF-α↓, *MPO↓, *eff↑, *NRF2↑, *Keap1↓, *TBARS↓, *creat↓, *LDH↓, *AST↓, *ALAT↓, *MDA↓, *SOD↑, *GSH↑, *GSTs↑, *memory↑, chemoP↑, IL8↓, Cyt‑c↑, Casp3↑, Casp8↑, Casp9↑, Casp12↑, p38↑, Fas↑, P53↑, P21↑, CHK1↓, CycB/CCNB1↓, GSH↓, ROS↑, TumCCA↑, Hif1a↓, Bcl-2↓, VEGF↓, TumCMig↓, STAT3↓, VEGFR2↓, p‑FAK↓,
246- AL,    Allicin induces apoptosis of the MGC-803 human gastric carcinoma cell line through the p38 mitogen-activated protein kinase/caspase-3 signaling pathway
- in-vitro, GC, MGC803
Apoptosis↑, cl‑Casp3↑, p38↑, tumCV↓, BAX↑, Bcl-2↑,
248- AL,    Allicin inhibits cell growth and induces apoptosis in U87MG human glioblastoma cells through an ERK-dependent pathway
- in-vitro, GBM, U87MG
Bcl-2↓, BAX↑, MAPK↑, ERK↑, ROS↑, p38↑, JNK↑,
249- AL,    Allicin induces apoptosis of the MGC-803 human gastric carcinoma cell line through the p38 mitogen-activated protein kinase/caspase-3 signaling pathway
- in-vitro, GC, MGC803
Casp3↑, p38↑, BAX↑, Bcl-2↓, p38↑, MAPK↑,
241- AL,    Role of p38 MAPK activation and mitochondrial cytochrome-c release in allicin-induced apoptosis in SK-N-SH cells
- in-vitro, neuroblastoma, SK-N-SH
Casp3↑, Casp9↑, p38↑, MAPK↑, Cyt‑c↑, Apoptosis↑,
3272- ALA,    Alpha-lipoic acid as a dietary supplement: Molecular mechanisms and therapeutic potential
- Review, AD, NA
*antiOx↑, *glucose↑, *eNOS↑, *NRF2↑, *MMP9↓, *VCAM-1↓, *NF-kB↓, *cardioP↑, *cognitive↑, *eff↓, *BBB↑, *IronCh↑, *GSH↑, *PKCδ↑, *ERK↑, *p38↑, *MAPK↑, *PI3K↑, *Akt↑, *PTEN↓, *AMPK↑, *GLUT4↑, *GLUT1↑, *Inflam↓,
298- ALA,  Rad,    Synergistic Tumoricidal Effects of Alpha-Lipoic Acid and Radiotherapy on Human Breast Cancer Cells via HMGB1
- in-vitro, BC, MDA-MB-231
Apoptosis↑, P53↑, p38↑, NF-kB↑, TumCCA↑,
2639- Api,    Plant flavone apigenin: An emerging anticancer agent
- Review, Var, NA
*antiOx↑, *Inflam↓, AntiCan↑, ChemoSen↑, BioEnh↑, chemoPv↑, IL6↓, STAT3↓, NF-kB↓, IL8↓, eff↝, Akt↓, PI3K↓, HER2/EBBR2↓, cycD1/CCND1↓, CycD3↓, p27↑, FOXO3↑, STAT3↓, MMP2↓, MMP9↓, VEGF↓, Twist↓, MMP↓, ROS↑, NADPH↑, NRF2↓, SOD↓, COX2↓, p38↑, Telomerase↓, HDAC↓, HDAC1↓, HDAC3↓, Hif1a↓, angioG↓, uPA↓, Ca+2↑, Bax:Bcl2↑, Cyt‑c↑, Casp9↑, Casp12↑, Casp3↑, cl‑PARP↑, E-cadherin↑, β-catenin/ZEB1↓, cMyc↓, CDK4↓, CDK2↓, CDK6↓, IGF-1↓, CK2↓, CSCs↓, FAK↓, Gli↓, GLUT1↓,
416- Api,    In Vitro and In Vivo Anti-tumoral Effects of the Flavonoid Apigenin in Malignant Mesothelioma
- vitro+vivo, NA, NA
Bax:Bcl2↑, P53↑, ROS↑, Casp9↑, Casp8↑, cl‑PARP1↑, p‑ERK⇅, p‑JNK↓, p‑p38↑, p‑Akt↓, cJun↓, NF-kB↓, EGFR↓, TumCCA↑,
3383- ART/DHA,    Dihydroartemisinin: A Potential Natural Anticancer Drug
- Review, Var, NA
TumCP↓, Apoptosis↑, TumMeta↓, angioG↓, TumAuto↑, ER Stress↑, ROS↑, Ca+2↑, p38↑, HSP70/HSPA5↓, PPARγ↑, GLUT1↓, Glycolysis↓, PI3K↓, Akt↓, Hif1a↓, PKM2↓, lactateProd↓, GlucoseCon↓, EMT↓, Slug↓, Zeb1↓, ZEB2↓, Twist↓, Snail?, CAFs/TAFs↓, TGF-β↓, p‑STAT3↓, M2 MC↓, uPA↓, HH↓, AXL↓, VEGFR2↓, JNK↑, Beclin-1↑, GRP78/BiP↑, eff↑, eff↑, eff↑, eff↑, eff↑, eff↑, IL4↓, DR5↑, Cyt‑c↑, Fas↑, FADD↑, cl‑PARP↑, cycE/CCNE↓, CDK2↓, CDK4↓, Mcl-1↓, Ki-67↓, Bcl-2↓, CDK6↓, VEGF↓, COX2↓, MMP9↓,
3156- Ash,    Withaferin A: From ayurvedic folk medicine to preclinical anti-cancer drug
- Review, Var, NA
MAPK↑, p38↑, BAX↑, BIM↑, CHOP↑, ROS↑, DR5↑, Apoptosis↑, Ferroptosis↑, GPx4↓, BioAv↝, HSP90↓, RET↓, E6↓, E7↓, Akt↓, cMET↓, Glycolysis↓, TCA↓, NOTCH1↓, STAT3↓, AP-1↓, PI3K↓, eIF2α↓, HO-1↑, TumCCA↑, CDK1↓, *hepatoP↑, *GSH↑, *NRF2↑, Wnt↓, EMT↓, uPA↓, CSCs↓, Nanog↓, SOX2↓, CD44↓, lactateProd↓, Iron↑, NF-kB↓,
3160- Ash,    Withaferin A: A Pleiotropic Anticancer Agent from the Indian Medicinal Plant Withania somnifera (L.) Dunal
- Review, Var, NA
TumCCA↑, H3↑, P21↑, cycA1/CCNA1↓, CycB/CCNB1↓, cycE/CCNE↓, CDC2↓, CHK1↓, Chk2↓, p38↑, MAPK↑, E6↓, E7↓, P53↑, Akt↓, FOXO3↑, ROS↑, γH2AX↑, MMP↓, mitResp↓, eff↑, TumCD↑, Mcl-1↓, ER Stress↑, ATF4↑, ATF3↑, CHOP↑, NOTCH↓, NF-kB↓, Bcl-2↓, STAT3↓, CDK1↓, β-catenin/ZEB1↓, N-cadherin↓, EMT↓, Cyt‑c↑, eff↑, CDK4↓, p‑RB1↓, PARP↑, cl‑Casp3↑, cl‑Casp9↑, NRF2↑, ER-α36↓, LDHA↓, lipid-P↑, AP-1↓, COX2↓, RenoP↑, PDGFR-BB↓, SIRT3↑, MMP2↓, MMP9↓, NADPH↑, NQO1↑, GSR↑, HO-1↑, *SOD2↑, *Prx↑, *Casp3?, eff↑, Snail↓, Slug↓, Vim↓, CSCs↓, HEY1↓, MMPs↓, VEGF↓, uPA↓, *toxicity↓, CDK2↓, CDK4↓, HSP90↓,
1532- Ba,    Baicalein as Promising Anticancer Agent: A Comprehensive Analysis on Molecular Mechanisms and Therapeutic Perspectives
- Review, NA, NA
ROS↑, ER Stress↑, Ca+2↑, MMPs↓, Cyt‑c↑, Casp3↑, ROS↑, DR5↑, ROS↑, BAX↑, Bcl-2↓, MMP↓, Casp3↑, Casp9↑, P53↑, p16↑, P21↑, p27↑, HDAC10↑, MDM2↓, Apoptosis↑, PI3K↓, Akt↓, p‑Akt↓, p‑mTOR↓, NF-kB↓, p‑IκB↓, IκB↑, BAX↑, Bcl-2↓, ROS⇅, BNIP3↑, p38↑, 12LOX↓, Mcl-1↓, Wnt?, GLI2↓, AR↓, eff↑,
1390- BBR,  Rad,    Berberine Inhibited Radioresistant Effects and Enhanced Anti-Tumor Effects in the Irradiated-Human Prostate Cancer Cells
- in-vitro, Pca, PC3
RadioS↑, Apoptosis↑, ROS↑, eff↑, BAX↑, Casp3↑, P53↑, p38↑, JNK↑, Bcl-2↓, ERK↓, HO-1↓,
2691- BBR,    Berberine induces FasL-related apoptosis through p38 activation in KB human oral cancer cells
- in-vitro, Oral, KB
tumCV↓, DNAdam↑, Casp3↑, Casp7↑, FasL↑, Casp8↑, Casp9↑, PARP↑, BAX↑, BAD↑, APAF1↑, MMP2↓, MMP9↓, p‑p38↑, ERK↑, MAPK↑,
2735- BetA,    Betulinic acid as apoptosis activator: Molecular mechanisms, mathematical modeling and chemical modifications
- Review, Var, NA
mt-Apoptosis↑, Casp↑, p38↑, MAPK↓, JNK↓, VEGF↓, AIF↑, Cyt‑c↑, ROS↑, Ca+2↑, ATP↓, NF-kB↓, ATF3↓, TOP1↓, VEGF↓, survivin↓, Sp1/3/4↓, MMP↓, ChemoSen↑, selectivity↑, BioAv↓, BioAv↑, BioAv↑, BioAv↑, BioAv↑,
2743- BetA,    Betulinic acid and the pharmacological effects of tumor suppression
- Review, Var, NA
ROS↑, MMP↓, Cyt‑c↑, Apoptosis↑, TumCCA↑, Sp1/3/4↓, STAT3↓, NF-kB↓, EMT↓, TOP1↓, MAPK↑, p38↑, JNK↑, Casp↑, Bcl-2↓, BAX↑, VEGF↓, LAMs↓,
1421- Bos,    Coupling of boswellic acid-induced Ca2+ mobilisation and MAPK activation to lipid metabolism and peroxide formation in human leucocytes
- in-vitro, AML, HL-60 - in-vitro, Nor, NA
ROS↑, NADPH↝, 5LO↓, Ca+2↑, p38↑, p42↑,
5870- CA,    Carnosic Acid Mediates Production of Reactive Oxygen Species to Regulate Mitogen‐Activated Protein Kinase Pathway Phosphorylation and Induce Apoptosis in Human Breast Cancer Cells
- vitro+vivo, BC, T47D - in-vitro, BC, MCF-7
ROS↑, cJun↑, p38↑, eff↓, TumCP↓, glucose↓, Apoptosis↑, BAX↑, PARP↑, Bcl-2↓, TumCG↑, Ki-67↓, STAT3↓, PI3K↓, Akt↓, mTOR↓,
5874- CA,    Carnosic Acid Mediates Production of Reactive Oxygen Species to Regulate Mitogen-Activated Protein Kinase Pathway Phosphorylation and Induce Apoptosis in Human Breast Cancer Cells
- vitro+vivo, BC, T47D - in-vitro, BC, MCF10
AntiTum↓, ROS↑, cJun↑, p‑p38↑, Apoptosis↑, ROS↑, eff↑, TumCP↓, glucose↓, BAX↑, PARP↑, Bcl-2↓, eff↓, Ki-67↓, toxicity↝, STAT3↓, PI3K↓, Akt↓, mTOR↓,
5858- CAP,    Capsaicin as a Microbiome Modulator: Metabolic Interactions and Implications for Host Health
- Review, Nor, NA - Review, AD, NA
*BBB↓, *GutMicro↑, Obesity↓, *Inflam↓, *AntiCan↑, *TRPV1↑, *Ca+2↑, *antiOx↑, *cardioP↑, *BioAv↓, *Half-Life↓, *BioAv↝, *BioAv↑, *neuroP↑, Apoptosis↑, p38↑, ROS↑, MMP↓, MPT↑, Cyt‑c↑, Casp↑, TRIB3↑, NADH↓, SIRT1↓, TumCG↓, TumCMig↓, TOP1↓, TOP2↓, β-catenin/ZEB1↓, *ROS↓, *Aβ↓,
5907- CAR,    Anti-proliferative and pro-apoptotic effect of carvacrol on human hepatocellular carcinoma cell line HepG-2
- in-vitro, Liver, HepG2
TumCG↓, Apoptosis↓, Casp3↓, cl‑PARP↑, Bcl-2↓, p‑ERK↓, p‑p38↑, *Bacteria↓, *AntiAg↑, *Inflam↓, *antiOx↑, *AChE↓, AntiTum↑, MMP↓, Cyt‑c↑, Bax:Bcl2↑, Casp↑, DNAdam↑, selectivity↑,
5894- CAR,    Targeting Gastrointestinal Cancers with Carvacrol: Mechanistic Insights and Therapeutic Potential
- Review, Var, NA
AntiCan↑, Apoptosis↑, Inflam↓, angioG↓, TumMeta↓, selectivity↑, BioAv↑, ChemoSen↑, Dose↝, TumCP↓, hepatoP↑, Casp3↑, Casp9↑, Bcl-2↓, ROS↑, GSH↓, BAX↑, Casp7↑, Casp8↑, Cyt‑c↑, Fas↑, FADD↑, P53↑, Bcl-2↓, TumMeta↓, TumCMig↓, TumCI↓, E-cadherin↑, TIMP2↑, TIMP3↑, N-cadherin↓, ZEB2↓, *lipid-P↓, *AST↓, *ALAT↓, *ALP↓, *LDH↓, *SOD↑, *Catalase↑, *GPx↑, *GSR↑, selectivity↑, cl‑PARP↑, ERK↓, p38↑, OS↑, AFP↓, COX2↓, VEGF↓, PCNA↓, Ki-67↓, TNF-α↓, BioAv↓,
1298- CGA,    Chlorogenic acid regulates apoptosis and stem cell marker-related gene expression in A549 human lung cancer cells
- in-vitro, Lung, A549
Bcl-2↓, BAX↑, Casp3↑, p38↑, JNK↑, Nanog↓, SOX2↓, OCT4↓,
2780- CHr,    Anti-cancer Activity of Chrysin in Cancer Therapy: a Systematic Review
- Review, Var, NA
*antiOx↑, Inflam↓, *hepatoP↑, AntiCan↑, Cyt‑c↑, Casp3↑, XIAP↓, p‑Akt↓, PI3K↑, Apoptosis↑, COX2↓, FAK↓, AMPK↑, STAT3↑, MMP↓, DNAdam↑, BAX↑, Bak↑, Casp9↑, p38↑, MAPK↑, TumCCA↑, ChemoSen↑, HDAC8↓, Wnt↓, NF-kB↓, angioG↓, BioAv↓,
2783- CHr,    Apoptotic Effects of Chrysin in Human Cancer Cell Lines
- Review, Var, NA
TumCP↓, Apoptosis↑, Casp↑, PCNA↓, p38↑, NF-kB↑, DNAdam↑, XIAP↓, Cyt‑c↑, Casp3↑, Akt↓, SCF↓, hTERT/TERT↓, COX2↓, *Inflam↓, *antiOx↑, *chemoPv↑, AR-V7?, CYP19?,
2791- CHr,    Chrysin attenuates progression of ovarian cancer cells by regulating signaling cascades and mitochondrial dysfunction
- in-vitro, Ovarian, OV90
TumCP↓, TumCD↑, ROS↑, Ca+2↑, MMP↓, MAPK↑, PI3K↑, p‑Akt↑, PCNA↓, p‑p70S6↑, p‑ERK↑, p38↑, JNK↑, DNAdam↑, TumCCA↑, chemoP↑,
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↓,
463- CUR,    Curcumin induces autophagic cell death in human thyroid cancer cells
- in-vitro, Thyroid, K1 - in-vitro, Thyroid, FTC-133 - in-vitro, Thyroid, BCPAP - in-vitro, Thyroid, 8505C
TumAuto↑, LC3II↑, Beclin-1↑, p‑p38↑, p‑JNK↑, p‑ERK↑, p62↓, p‑PDK1↓, p‑Akt↓, p‑p70S6↓, p‑PIK3R1↓, p‑S6↓, p‑4E-BP1↓,
1303- EGCG,    (-)-Epigallocatechin-3-gallate induces apoptosis in human endometrial adenocarcinoma cells via ROS generation and p38 MAP kinase activation
- in-vitro, EC, NA
TumCP↓, ER-α36↓, cycD1/CCND1↓, ERK↑, Jun↓, BAX↑, Bcl-2↓, cl‑Casp3↑, ROS↑, p38↑,
2844- FIS,    Fisetin, a dietary flavonoid induces apoptosis via modulating the MAPK and PI3K/Akt signalling pathways in human osteosarcoma (U-2 OS) cells
- in-vitro, OS, U2OS
tumCV↓, Apoptosis↑, Casp3↑, Casp8↑, Casp9↑, BAX↑, BAD↑, Bcl-2↓, Bcl-xL↓, PI3K↓, Akt↓, ERK↓, p‑JNK↑, p‑cJun↑, p‑p38↑, ROS↑, MMP↓, mTORC1↓, PTEN↑, p‑GSK‐3β↓, GSK‐3β↑, NF-kB↓, IKKα↑, Cyt‑c↑,
2830- FIS,    Biological effects and mechanisms of fisetin in cancer: a promising anti-cancer agent
- Review, Var, NA
TumCG↓, angioG↓, *ROS↓, TumCMig↓, VEGF↓, MAPK↑, NF-kB↓, PI3K↓, Akt↓, mTOR↓, NRF2↑, HO-1↑, ROS↓, Inflam↓, ER Stress↑, ROS↑, TumCP↓, ChemoSen↑, PTEN↑, P53↑, Casp3↑, Casp8↑, Casp9↑, COX2↓, Wnt↓, EGFR↓, Mcl-1↓, survivin↓, IAP1↓, IAP2↓, PGE2↓, β-catenin/ZEB1↓, DR5↑, MMP2↓, MMP9↓, FAK↓, uPA↓, EMT↓, ERK↓, JNK↑, p38↑, PKCδ↓, BioAv↓, BioAv↑, BioAv↑,
1972- GamB,  doxoR,    Gambogic acid sensitizes resistant breast cancer cells to doxorubicin through inhibiting P-glycoprotein and suppressing survivin expression
- in-vitro, BC, NA
eff↑, P-gp↓, ROS↑, survivin↓, p38↑,
1922- JG,    Juglone induces apoptosis of tumor stem-like cells through ROS-p38 pathway in glioblastoma
- in-vitro, GBM, U87MG
tumCV↓, TumCP↓, ROS↑, p‑p38↑, eff↓, Apoptosis↑, OS↑,
5118- JG,    Juglone induces apoptosis and autophagy via modulation of mitogen-activated protein kinase pathways in human hepatocellular carcinoma cells
- in-vitro, HCC, HepG2
m-ROS↑, DNAdam↑, Apoptosis↑, TumAuto↑, p38↑, MAPK↑, JNK↑, MMP↓, LC3II↑, Beclin-1↑,
2923- LT,    Luteolin induces apoptosis through endoplasmic reticulum stress and mitochondrial dysfunction in Neuro-2a mouse neuroblastoma cells
- in-vitro, NA, NA
Apoptosis↑, TumCD↑, Casp12↑, Casp9↑, Casp3↑, ER Stress↑, CHOP↑, GRP78/BiP↑, GRP94↑, cl‑ATF6↑, p‑eIF2α↑, MMP↓, JNK↓, p38↑, ERK↑, Cyt‑c↑,
2919- LT,    Luteolin as a potential therapeutic candidate for lung cancer: Emerging preclinical evidence
- Review, Var, NA
RadioS↑, ChemoSen↑, chemoP↑, *lipid-P↓, *Catalase↑, *SOD↑, *GPx↑, *GSTs↑, *GSH↑, *TNF-α↓, *IL1β↓, *Casp3↓, *IL10↑, NRF2↓, HO-1↓, NQO1↓, GSH↓, MET↓, p‑MET↓, p‑Akt↓, HGF/c-Met↓, NF-kB↓, Bcl-2↓, SOD2↓, Casp8↑, Casp3↑, PARP↑, MAPK↓, NLRP3↓, ASC↓, Casp1↓, IL6↓, IKKα↓, p‑p65↓, p‑p38↑, MMP2↓, ICAM-1↓, EGFR↑, p‑PI3K↓, E-cadherin↓, ZO-1↑, N-cadherin↓, CLDN1↓, β-catenin/ZEB1↓, Snail↓, Vim↑, ITGB1↓, FAK↓, p‑Src↓, Rac1↓, Cdc42↓, Rho↓, PCNA↓, Tyro3↓, AXL↓, CEA↓, NSE↓, SOD↓, Catalase↓, GPx↓, GSR↓, GSTs↓, GSH↓, VitE↓, VitC↓, CYP1A1↓, cFos↑, AR↓, AIF↑, p‑STAT6↓, p‑MDM2↓, NOTCH1↓, VEGF↓, H3↓, H4↓, HDAC↓, SIRT1↓, ROS↑, DR5↑, Cyt‑c↑, p‑JNK↑, PTEN↓, mTOR↓, CD34↓, FasL↑, Fas↑, XIAP↓, p‑eIF2α↑, CHOP↑, LC3II↑, PD-1↓, STAT3↓, IL2↑, EMT↓, cachexia↓, BioAv↑, *Half-Life↝, *eff↑,
2917- LT,  Rad,    Luteolin acts as a radiosensitizer in non‑small cell lung cancer cells by enhancing apoptotic cell death through activation of a p38/ROS/caspase cascade
- in-vitro, Lung, NA
Bcl-2↓, Casp3↑, Casp8↑, Casp9↑, p‑p38↑, ROS↑, RadioS↑,
3457- MF,    Cellular stress response to extremely low‐frequency electromagnetic fields (ELF‐EMF): An explanation for controversial effects of ELF‐EMF on apoptosis
- Review, Var, NA
Apoptosis↑, H2O2↑, ROS↑, eff↑, eff↑, Ca+2↑, MAPK↑, *Catalase↑, *SOD1↑, *GPx1↑, *GPx4↑, *NRF2↑, TumAuto↑, ER Stress↑, HSPs↑, SIRT3↑, ChemoSen↑, UPR↑, other↑, PI3K↓, JNK↑, p38↑, eff↓, *toxicity?,
3477- MF,    Electromagnetic fields regulate calcium-mediated cell fate of stem cells: osteogenesis, chondrogenesis and apoptosis
- Review, NA, NA
*Ca+2↑, *VEGF↑, *angioG↑, Ca+2↑, ROS↑, Necroptosis↑, TumCCA↑, Apoptosis↑, *ATP↑, *FAK↑, *Wnt↑, *β-catenin/ZEB1↑, *ROS↑, p38↑, MAPK↑, β-catenin/ZEB1↓, CSCs↓, TumCP↓, ROS↑, RadioS↑, Ca+2↑, eff↓, NO↑,
3469- MF,    Pulsed Electromagnetic Fields (PEMF)—Physiological Response and Its Potential in Trauma Treatment
- Review, NA, NA
*eff↑, *eff↝, *other↑, Ca+2↑, ROS↑, HSP70/HSPA5↑, *NOTCH↑, *HEY1↑, *p38↑, *MAPK↑,
488- MF,    Repetitive exposure to a 60-Hz time-varying magnetic field induces DNA double-strand breaks and apoptosis in human cells
- in-vitro, NA, HeLa - in-vitro, NA, IMR90
DNAdam↑, p‑γH2AX↑, Chk2↑, p38↑, Apoptosis↑,
194- MF,    Electromagnetic Field as a Treatment for Cerebral Ischemic Stroke
- Review, Stroke, NA
*BAD↓, *BAX↓, *Casp3↓, *Bcl-xL↑, *p‑Akt↑, *MMP9↓, *p‑ERK↑, *HIF-1↓, *ROS↓, *VEGF↑, *Ca+2↓, *SOD↑, *IL2↑, *p38↑, *HSP70/HSPA5↑, *Apoptosis↓, *ROS↓, *NO↓,
1170- MushCha,    Chaga mushroom extract suppresses oral cancer cell growth via inhibition of energy metabolism
- in-vitro, Oral, HSC4
tumCV↓, TumCP↓, TumCCA↑, STAT3↓, Glycolysis↓, MMP↓, TumAuto↑, p38↑, NF-kB↑,

Showing Research Papers: 1 to 50 of 92
Page 1 of 2 Next

* indicates research on normal cells as opposed to diseased cells
Total Research Paper Matches: 92

Pathway results for Effect on Cancer / Diseased Cells:


Redox & Oxidative Stress

ATF3↓, 1,   ATF3↑, 1,   Catalase↓, 2,   CYP1A1↓, 1,   Ferroptosis↑, 1,   GPx↓, 2,   GPx↑, 1,   GPx4↓, 1,   GSH↓, 6,   GSR↓, 1,   GSR↑, 1,   GSTs↓, 1,   H2O2↑, 1,   HO-1↓, 2,   HO-1↑, 3,   Iron↑, 1,   lipid-P↑, 1,   NADH↓, 1,   NQO1↓, 1,   NQO1↑, 1,   NRF2↓, 3,   NRF2↑, 2,   ROS↓, 1,   ROS↑, 38,   ROS⇅, 1,   m-ROS↑, 1,   SIRT3↑, 2,   SOD↓, 4,   SOD2↓, 1,   VitC↓, 1,   VitE↓, 1,  

Mitochondria & Bioenergetics

AIF↑, 2,   ATP↓, 1,   CDC2↓, 1,   mitResp↓, 1,   MMP↓, 15,   MPT↑, 1,   p42↑, 1,   Raf↓, 1,   XIAP↓, 3,  

Core Metabolism/Glycolysis

12LOX↓, 1,   AMPK↑, 1,   cMyc↓, 1,   glucose↓, 2,   GlucoseCon↓, 1,   Glycolysis↓, 3,   lactateProd↓, 2,   LDHA↓, 1,   NADPH↑, 2,   NADPH↝, 1,   p‑PDK1↓, 1,   p‑PIK3R1↓, 1,   PKM2↓, 1,   PPARγ↑, 1,   p‑S6↓, 1,   SIRT1↓, 2,   TCA↓, 1,  

Cell Death

Akt↓, 12,   p‑Akt↓, 5,   p‑Akt↑, 1,   APAF1↑, 1,   Apoptosis↓, 1,   Apoptosis↑, 22,   mt-Apoptosis↑, 1,   BAD↑, 2,   Bak↑, 1,   BAX↑, 21,   Bax:Bcl2↑, 3,   Bcl-2↓, 22,   Bcl-2↑, 1,   Bcl-xL↓, 2,   BID↑, 1,   BIM↑, 1,   Casp↑, 6,   Casp1↓, 1,   Casp12↑, 3,   Casp3↓, 1,   Casp3↑, 19,   cl‑Casp3↑, 3,   Casp6↑, 1,   Casp7↑, 2,   Casp8↑, 10,   Casp9↑, 15,   cl‑Casp9↑, 1,   Chk2↓, 1,   Chk2↑, 1,   CK2↓, 1,   Cyt‑c↑, 18,   DR5↑, 5,   FADD↑, 2,   Fas↑, 5,   FasL↑, 2,   Ferroptosis↑, 1,   HEY1↓, 1,   HGF/c-Met↓, 1,   hTERT/TERT↓, 1,   IAP1↓, 1,   IAP2↓, 1,   JNK↓, 2,   JNK↑, 11,   p‑JNK↓, 1,   p‑JNK↑, 3,   MAPK↓, 2,   MAPK↑, 15,   Mcl-1↓, 4,   MDM2↓, 1,   p‑MDM2↓, 1,   Necroptosis↑, 1,   p27↑, 2,   p38↓, 1,   p38↑, 37,   p‑p38↑, 11,   survivin↓, 3,   Telomerase↓, 1,   TumCD↑, 4,  

Kinase & Signal Transduction

HER2/EBBR2↓, 1,   p‑p70S6↓, 1,   p‑p70S6↑, 1,   RET↓, 1,   Sp1/3/4↓, 2,  

Transcription & Epigenetics

cJun↓, 1,   cJun↑, 2,   p‑cJun↑, 1,   H3↓, 1,   H3↑, 1,   H4↓, 1,   other↑, 1,   tumCV↓, 6,  

Protein Folding & ER Stress

cl‑ATF6↑, 1,   CHOP↑, 4,   eIF2α↓, 1,   p‑eIF2α↑, 2,   ER Stress↑, 7,   GRP78/BiP↑, 2,   GRP94↑, 1,   HSP70/HSPA5↓, 1,   HSP70/HSPA5↑, 1,   HSP90↓, 2,   HSPs↑, 1,   UPR↑, 1,  

Autophagy & Lysosomes

Beclin-1↑, 3,   BNIP3↑, 1,   LC3II↑, 3,   p62↓, 1,   TumAuto↑, 6,  

DNA Damage & Repair

CHK1↓, 2,   DNAdam↑, 9,   p16↑, 1,   P53↑, 9,   PARP↑, 6,   cl‑PARP↑, 4,   cl‑PARP1↑, 1,   PCNA↓, 4,   γH2AX↑, 1,   p‑γH2AX↑, 1,  

Cell Cycle & Senescence

CDK1↓, 3,   CDK2↓, 4,   CDK4↓, 5,   cycA1/CCNA1↓, 1,   CycB/CCNB1↓, 2,   cycD1/CCND1↓, 3,   CycD3↓, 1,   cycE/CCNE↓, 3,   P21↑, 6,   p‑RB1↓, 1,   TumCCA↑, 11,  

Proliferation, Differentiation & Cell State

p‑4E-BP1↓, 1,   AR-V7?, 1,   CD34↓, 1,   CD44↓, 1,   cFos↑, 1,   cMET↓, 1,   CSCs↓, 4,   EMT↓, 6,   ERK↓, 6,   ERK↑, 4,   p‑ERK↓, 1,   p‑ERK↑, 2,   p‑ERK⇅, 1,   FOXO3↑, 2,   Gli↓, 1,   GSK‐3β↑, 1,   p‑GSK‐3β↓, 1,   HDAC↓, 2,   HDAC1↓, 1,   HDAC10↑, 1,   HDAC3↓, 1,   HDAC8↓, 1,   HH↓, 1,   IGF-1↓, 1,   Jun↓, 1,   p‑Jun↑, 1,   MAP2K1/MEK1↓, 1,   mTOR↓, 4,   p‑mTOR↓, 1,   mTORC1↓, 1,   Nanog↓, 2,   NOTCH↓, 1,   NOTCH1↓, 2,   OCT4↓, 1,   PI3K↓, 9,   PI3K↑, 2,   p‑PI3K↓, 1,   PTEN↓, 1,   PTEN↑, 2,   SCF↓, 1,   SOX2↓, 2,   p‑Src↓, 1,   STAT3↓, 10,   STAT3↑, 1,   p‑STAT3↓, 1,   p‑STAT6↓, 1,   TOP1↓, 3,   TOP2↓, 1,   TumCG↓, 3,   TumCG↑, 1,   Wnt?, 1,   Wnt↓, 3,  

Migration

5LO↓, 1,   AP-1↓, 2,   AXL↓, 2,   Ca+2↑, 12,   CAFs/TAFs↓, 1,   Cdc42↓, 1,   CEA↓, 1,   CLDN1↓, 1,   E-cadherin↓, 1,   E-cadherin↑, 2,   ER-α36↓, 2,   FAK↓, 4,   p‑FAK↓, 1,   GLI2↓, 1,   ITGB1↓, 1,   Ki-67↓, 4,   LAMs↓, 1,   MET↓, 1,   p‑MET↓, 1,   MMP2↓, 5,   MMP9↓, 5,   MMPs↓, 2,   N-cadherin↓, 3,   PKCδ↓, 1,   Rac1↓, 1,   Rho↓, 1,   Slug↓, 2,   Snail?, 1,   Snail↓, 2,   TGF-β↓, 2,   TIMP2↑, 1,   TIMP3↑, 1,   TRIB3↑, 1,   TumCI↓, 1,   TumCMig↓, 4,   TumCP↓, 11,   TumMeta↓, 3,   Twist↓, 2,   Tyro3↓, 1,   uPA↓, 5,   Vim↓, 1,   Vim↑, 1,   Zeb1↓, 1,   ZEB2↓, 2,   ZO-1↑, 1,   β-catenin/ZEB1↓, 6,  

Angiogenesis & Vasculature

angioG↓, 5,   ATF4↑, 1,   EGFR↓, 2,   EGFR↑, 1,   Hif1a↓, 3,   NO↑, 1,   PDGFR-BB↓, 1,   VEGF↓, 10,   VEGFR2↓, 2,  

Barriers & Transport

GLUT1↓, 2,   P-gp↓, 1,  

Immune & Inflammatory Signaling

ASC↓, 1,   COX2↓, 7,   ICAM-1↓, 1,   IKKα↓, 1,   IKKα↑, 1,   IL2↑, 1,   IL4↓, 1,   IL6↓, 2,   IL8↓, 2,   Inflam↓, 3,   IκB↑, 1,   p‑IκB↓, 1,   M2 MC↓, 1,   NF-kB↓, 11,   NF-kB↑, 3,   NF-kB↝, 1,   p‑p65↓, 1,   PD-1↓, 1,   PGE2↓, 1,   TNF-α↓, 1,  

Protein Aggregation

NLRP3↓, 1,  

Hormonal & Nuclear Receptors

AR↓, 2,   CDK6↓, 2,   CDK6↑, 1,   CYP19?, 1,  

Drug Metabolism & Resistance

BioAv↓, 4,   BioAv↑, 8,   BioAv↝, 1,   BioEnh↑, 1,   ChemoSen↑, 7,   Dose↝, 1,   eff↓, 5,   eff↑, 15,   eff↝, 1,   RadioS↑, 4,   selectivity↑, 4,  

Clinical Biomarkers

AFP↓, 1,   AR↓, 2,   CEA↓, 1,   E6↓, 2,   E7↓, 2,   EGFR↓, 2,   EGFR↑, 1,   HER2/EBBR2↓, 1,   hTERT/TERT↓, 1,   IL6↓, 2,   Ki-67↓, 4,   NSE↓, 1,   TRIB3↑, 1,  

Functional Outcomes

AntiCan↑, 4,   AntiTum↓, 1,   AntiTum↑, 1,   cachexia↓, 1,   chemoP↑, 4,   chemoPv↑, 1,   hepatoP↑, 2,   Obesity↓, 1,   OS↑, 2,   RenoP↑, 1,   toxicity↝, 3,  
Total Targets: 335

Pathway results for Effect on Normal Cells:


Redox & Oxidative Stress

antiOx↑, 9,   Catalase↑, 3,   GPx↑, 2,   GPx1↑, 1,   GPx4↑, 1,   GSH↑, 4,   GSR↑, 1,   GSTs↑, 2,   Keap1↓, 1,   lipid-P↓, 3,   MDA↓, 1,   MPO↓, 1,   NRF2↑, 4,   Prx↑, 1,   ROS↓, 6,   ROS↑, 1,   SOD↑, 4,   SOD1↑, 1,   SOD2↑, 1,   TBARS↓, 1,  

Metal & Cofactor Biology

IronCh↑, 1,  

Mitochondria & Bioenergetics

ATP↑, 1,  

Core Metabolism/Glycolysis

ALAT↓, 2,   AMPK↑, 1,   glucose↑, 1,   H2S↑, 1,   LDH↓, 3,  

Cell Death

Akt↓, 1,   Akt↑, 1,   p‑Akt↑, 1,   Apoptosis↓, 1,   BAD↓, 1,   BAX↓, 1,   Bcl-xL↑, 1,   Casp3?, 1,   Casp3↓, 2,   HEY1↑, 1,   iNOS↓, 1,   MAPK↑, 2,   p38↑, 3,   TRPV1↑, 1,  

Transcription & Epigenetics

other↑, 2,  

Protein Folding & ER Stress

HSP70/HSPA5↑, 1,  

Proliferation, Differentiation & Cell State

ERK↑, 1,   p‑ERK↑, 1,   NOTCH↑, 1,   PI3K↓, 1,   PI3K↑, 1,   PTEN↓, 1,   Wnt↑, 1,  

Migration

AntiAg↑, 2,   Ca+2↓, 1,   Ca+2↑, 2,   FAK↑, 1,   MMP9↓, 2,   PKCδ↑, 1,   VCAM-1↓, 1,   β-catenin/ZEB1↑, 1,  

Angiogenesis & Vasculature

angioG↑, 1,   eNOS↑, 1,   HIF-1↓, 1,   NO↓, 2,   VEGF↑, 2,  

Barriers & Transport

BBB↓, 1,   BBB↑, 2,   GLUT1↑, 1,   GLUT4↑, 1,  

Immune & Inflammatory Signaling

COX2↓, 1,   IL10↑, 1,   IL1β↓, 1,   IL2↑, 1,   IL6↓, 1,   Inflam↓, 6,   NF-kB↓, 2,   PGE2↓, 1,   TNF-α↓, 2,  

Synaptic & Neurotransmission

AChE↓, 1,  

Protein Aggregation

Aβ↓, 1,  

Drug Metabolism & Resistance

BioAv↓, 1,   BioAv↑, 1,   BioAv↝, 1,   eff↓, 1,   eff↑, 3,   eff↝, 1,   Half-Life↓, 1,   Half-Life↝, 2,  

Clinical Biomarkers

ALAT↓, 2,   ALP↓, 1,   AST↓, 2,   BP↓, 1,   creat↓, 1,   GutMicro↑, 2,   IL6↓, 1,   LDH↓, 3,  

Functional Outcomes

AntiCan↑, 1,   cardioP↑, 4,   chemoPv↑, 1,   cognitive↑, 2,   hepatoP↑, 3,   memory↑, 1,   neuroP↑, 3,   toxicity?, 1,   toxicity↓, 1,  

Infection & Microbiome

Bacteria↓, 2,  
Total Targets: 104

Scientific Paper Hit Count for: p38, p38
8 Thymoquinone
7 Allicin (mainly Garlic)
6 Piperlongumine
5 Magnetic Fields
4 Silver-NanoParticles
4 Quercetin
4 Resveratrol
3 Radiotherapy/Radiation
3 Chrysin
3 Luteolin
3 Sulforaphane (mainly Broccoli)
3 Shikonin
3 Vitamin K2
2 Alpha-Lipoic-Acid
2 Apigenin (mainly Parsley)
2 Ashwagandha(Withaferin A)
2 Berberine
2 Betulinic acid
2 Carnosic acid
2 Carvacrol
2 Curcumin
2 Fisetin
2 Juglone
2 Phenylbutyrate
2 Silymarin (Milk Thistle) silibinin
1 Photodynamic Therapy
1 Camptothecin
1 Artemisinin
1 Baicalein
1 Boswellia (frankincense)
1 Capsaicin
1 Chlorogenic acid
1 EGCG (Epigallocatechin Gallate)
1 Gambogic Acid
1 doxorubicin
1 Mushroom Chaga
1 Propolis -bee glue
1 SonoDynamic Therapy UltraSound
1 Hyperthermia
1 Phenethyl isothiocyanate
1 Piperine
1 Selenium
1 Oxygen, Hyperbaric
1 Selenite (Sodium)
1 Aflavin-3,3′-digallate
1 Urolithin
1 Vitamin C (Ascorbic 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:%  Cells:%  prod#:%  Target#:235  State#:%  Dir#:2
  wNotes=0  sortOrder:rid,rpid

 

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