| 1 |
p53 Bax Bcl-2 mitochondrial apoptosis |
↑ p53, ↑ Bax, ↓ Bcl-2, ↑ apoptosis |
Relative sparing reported in some non-malignant comparator cells, but not fully established |
G |
Intrinsic apoptotic killing |
Most central anticancer mechanism; reported in HepG2, cervical carcinoma, breast cancer, and leukemia-related models. |
| 2 |
Caspase 9 caspase 3 apoptosis execution |
↑ caspase-dependent apoptosis |
Model-dependent selectivity |
G |
Execution-phase apoptosis |
Fits mitochondrial apoptosis pattern; strongest when paired with p53 Bax Bcl-2 findings. |
| 3 |
Proliferation and cell-cycle control |
↓ proliferation, ↓ colony formation, cell-cycle arrest (model-dependent) |
Less defined |
G |
Growth suppression |
Broad preclinical anticancer signal, but potency and selectivity vary by cell line and assay. |
| 4 |
mTOR autophagy inhibition |
↑ mTOR signaling, ↓ LC3-II, ↓ GFP-LC3 puncta, ↓ protective autophagy |
Not well characterized |
R/G |
Reduced survival autophagy |
Colon cancer data suggest autophagy supports survival under eurycomanone stress; autophagy inhibition strengthens growth inhibition. |
| 5 |
TGF-β1 EMT Smad signaling |
↓ EMT, ↓ migration, ↓ invasion, ↑ E-cadherin or ↓ N-cadherin depending on cell line |
Not established |
G |
Anti-invasive effect |
Relevant to metastatic NSCLC behavior; effects differ between A549 and Calu-1 cells. |
| 6 |
Akt non-Smad EMT signaling |
↓ Akt-linked EMT signaling (context-dependent) |
Not established |
R/G |
Migration and invasion suppression |
Secondary to TGF-β1 anti-EMT mechanism; therapeutic leverage is anti-metastatic rather than direct cytotoxicity. |
| 7 |
MMP-2 extracellular matrix invasion |
↓ MMP-2 secretion, ↓ Matrigel invasion |
Not established |
G |
Reduced matrix invasion |
Supports anti-metastatic classification in NSCLC models. |
| 8 |
Angiogenesis support signaling |
↓ angiogenesis-associated activity in colon cancer models |
Normal endothelial-cell selectivity not fully defined |
G |
Reduced tumor-support signaling |
Preclinical pathway; not sufficient alone to classify as a validated anti-angiogenic therapy. |
| 9 |
A549 tumor marker proteins |
↓ prohibitin, ↓ annexin 1, ↓ ERp28 reported |
Not established |
G |
Proteomic tumor phenotype modulation |
Useful as supporting mechanistic evidence in lung cancer, but less central than apoptosis or EMT inhibition. |
| 10 |
ROS NRF2 oxidative stress |
Insufficient direct eurycomanone cancer evidence for core ranking |
Eurycoma extract shows antioxidant effects in non-cancer models |
G |
Context-dependent stress modulation |
ROS or NRF2 is NOT a primary cancer mechanism. |
| 11 |
Steroidogenesis aromatase phosphodiesterase |
Potential hormone-context relevance, not a direct anticancer axis |
↑ androgenic or fertility-related signaling in reproductive models |
G |
Endocrine pharmacology |
Important safety and interpretation constraint, especially for hormone-sensitive disease contexts. |
| 12 |
Clinical Translation Constraint |
In-vitro potency may not match oral systemic exposure |
Supplement safety is extract-dependent; liver injury is a possible rare concern |
G |
Limits clinical use |
Main constraints are oral PK, extract variability, lack of cancer trials, dose ceiling, possible hepatotoxicity signal, and uncertain normal-cell therapeutic window. |