HSP27 Cancer Research Results

HSP27, Heat shock protein 27: Click to Expand ⟱
Source:
Type: Protein
Heat Shock Protein 27 (Hsp27), also known as HSPB1, is a small heat shock protein that plays a crucial role in cellular stress responses, protein folding, and protection against apoptosis.
Hsp27 is involved in various cellular processes, including the stabilization of proteins, regulation of the cytoskeleton, and modulation of signaling pathways.
Acts as a protein chaperone and an antioxidant and plays a role in the inhibition of apoptosis and actin cytoskeletal remodeling. Plays a key role in anti-cancer treatment resistance, inhibition of apoptosis and tumor progression. HSP27 is upregulated in many cancers and is associated with a poor prognosis.

Expression in Cancers: Hsp27 is often overexpressed in various types of cancers, including breast, prostate, lung, and colorectal cancers. Its expression can be induced by stressors such as heat shock, oxidative stress, and exposure to certain chemotherapeutic agents.
Prognostic Implications: The expression levels of Hsp27 have been associated with cancer prognosis. In many studies, high levels of Hsp27 expression correlate with poor prognosis, increased tumor aggressiveness, and resistance to chemotherapy.
Scientific Papers found: Click to Expand⟱
2843- FIS,    Fisetin and Quercetin: Promising Flavonoids with Chemopreventive Potential
- Review, Var, NA
NRF2↑, fisetin increased the protein level and accumulation Nrf2 and down regulated the protein levels of Keap1
Keap1↓,
ChemoSen↑, In vitro studies showed that fisetin and quercetin could also act against chemotherapeutic resistance in several cancers
BioAv↓, Fisetin has low aqueous solubility and bioavailability
Cyt‑c↑, release of cytochrome c from mitochondria, caspase-3 and caspase-9 mRNA and protein expression, and B-cell lymphoma 2 (Bcl-2) and Bcl-2 associated X (Bax) levels, were found to be regulated in the fisetin-treated cancer cell line
Casp3↑,
Casp9↑,
BAX↑,
tumCV↓, fisetin at 5–80 µM significantly reduced the viability of A431 human epidermoid carcinoma cells by the release of cytochrome c,
Mcl-1↓, reducing the anti-apoptotic protein expression of Bcl-2, Bcl-xL, and Mcl-1 along with elevation of pro-apoptotic protein expression (Bax, Bak, and Bad) and caspase cleavage and poly-ADP-ribose polymerase (PARP) protein
cl‑PARP↑,
IGF-1↓, fisetin promoted caspase-8 and cytochrome c expression, possibly by impeding the aberrant activation of insulin growth factor receptor 1 and Akt
Akt↓,
CDK6↓, fisetin binds with CDK6, which in turn blocks its activity with an inhibitory concentration (IC50) at a concentration of 0.85 μM
TumCCA↑, fisetin is identified as a regulator of cell cycle checkpoints, leading to cell arrest through CDK inhibition in HL60 cells and astrocyte cells over the G0/G1, S, and G2/M phases
P53?, exhibiting elevated levels of p53
cycD1/CCND1↓, 10–60 μM fisetin concentration, prostate cancer cells PC3, LNCaP, and CWR22Ry1 had decreased cellular viability and decreased levels of D1, D2, and E cyclins and their activating partners CDK2, and CDKs 4/ 6,
cycE/CCNE↓,
CDK2↓, decreased levels of D1, D2, and E cyclins and their activating partners CDK2, and CDKs 4/ 6,
CDK4↓,
CDK6↓,
MMP2↓, fisetin displayed tumor inhibitory effects by blocking MMP-2 and MMP-9 at mRNA and protein levels in prostate PC-3 cells
MMP9↓,
MMP1↓, Similarly, fisetin can also inhibit MMP-1, MMP-9, MMP-7, MMP-3, and MMP-14 gene expression linked with ECM remodeling in human umbilical vascular endothelial cells (HUVECs) and HT-1080 fibrosarcoma cells [9
MMP7↓,
MMP3↓,
VEGF↓, fisetin in a concentration-dependent manner (10–50 μM concentration) significantly inhibited regular serum, growth-enhancing supplement, and vascular endothelial growth factor (VEGF)
PI3K↓, fisetin inhibited PI3K expression and phosphorylation of Akt
mTOR↓, fisetin treatment activated the apoptotic process through inhibiting both PI3K and mammalian target of rapamycin (mTOR) signaling pathways
COX2↓, fisetin resulted in activation of apoptosis and inhibition of COX-2 and the Wnt/EGFR/NF-kB pathway
Wnt↓,
EGFR↓,
NF-kB↓,
ERK↓, Fisetin is one of the flavonoids that has been found to suppress ERK1/2 signaling in human gastric (SGC7901), hepatic (HepG2), colorectal (Caco-2)
ROS↑, fisetin induced ROS generation and suppressed ERK through its phosphorylation
angioG↓, fisetin-induced anti-angiogenesis led to reduced VEGF and epidermal growth factor receptor (EGFR) expression
TNF-α↓, Fisetin suppressed IL-1β-mediated expression of inducible nitric oxide synthase, nitric oxide, interleukin-6, tumor necrotic factor-α, prostaglandin E2, cyclooxygenase-2 (iNOS, NO, IL-6, TNF-α, PGE2, and COX-2),
PGE2↓,
iNOS↓,
NO↓,
IL6↓,
HSP70/HSPA5↝, fisetin-mediated inhibition of cellular proliferation by HSP70 and HSP27 regulation
HSP27↝,


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

Keap1↓, 1,   NRF2↑, 1,   ROS↑, 1,  

Cell Death

Akt↓, 1,   BAX↑, 1,   Casp3↑, 1,   Casp9↑, 1,   Cyt‑c↑, 1,   iNOS↓, 1,   Mcl-1↓, 1,  

Transcription & Epigenetics

tumCV↓, 1,  

Protein Folding & ER Stress

HSP27↝, 1,   HSP70/HSPA5↝, 1,  

DNA Damage & Repair

P53?, 1,   cl‑PARP↑, 1,  

Cell Cycle & Senescence

CDK2↓, 1,   CDK4↓, 1,   cycD1/CCND1↓, 1,   cycE/CCNE↓, 1,   TumCCA↑, 1,  

Proliferation, Differentiation & Cell State

ERK↓, 1,   IGF-1↓, 1,   mTOR↓, 1,   PI3K↓, 1,   Wnt↓, 1,  

Migration

MMP1↓, 1,   MMP2↓, 1,   MMP3↓, 1,   MMP7↓, 1,   MMP9↓, 1,  

Angiogenesis & Vasculature

angioG↓, 1,   EGFR↓, 1,   NO↓, 1,   VEGF↓, 1,  

Immune & Inflammatory Signaling

COX2↓, 1,   IL6↓, 1,   NF-kB↓, 1,   PGE2↓, 1,   TNF-α↓, 1,  

Hormonal & Nuclear Receptors

CDK6↓, 2,  

Drug Metabolism & Resistance

BioAv↓, 1,   ChemoSen↑, 1,  

Clinical Biomarkers

EGFR↓, 1,   IL6↓, 1,  
Total Targets: 44

Pathway results for Effect on Normal Cells:


Total Targets: 0

Scientific Paper Hit Count for: HSP27, Heat shock protein 27
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

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