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| Eurycomanone — Eurycomanone is a highly oxygenated quassinoid diterpenoid from Eurycoma longifolia Jack, commonly known as tongkat ali or longjack. It is a small-molecule plant secondary metabolite and should be classified as a natural-product quassinoid, not as an essential oil constituent. It is best indexed separately from crude Eurycoma longifolia extract because isolated eurycomanone has specific anticancer mechanisms, while commercial tongkat ali extracts have variable composition and separate androgenic/supplement safety issues. Primary mechanisms (ranked):
Bioavailability / PK relevance: Oral exposure is plausible but constrained by formulation, extract matrix, and rapid disposition; pure eurycomanone and standardized Eurycoma extracts are not interchangeable for PK interpretation. Cancer evidence is mostly based on isolated compound exposure in cell culture, so achievable systemic concentrations remain a major translation constraint. In-vitro vs systemic exposure relevance: Several anticancer studies use micromolar or microgram-per-mL concentrations that may exceed typical nutraceutical oral exposure. Non-toxic anti-invasive NSCLC work used sub-cytotoxic micromolar doses, but clinical relevance remains uncertain without cancer PK/PD data. This is concentration-driven pharmacology, not field-based or trigger-based therapy. Clinical evidence status: Preclinical only for cancer. No cancer RCTs, no oncology deployment, and no regulatory approval as an anticancer drug. Human studies and supplement safety data relate mainly to Eurycoma longifolia extracts for male-health indications, not isolated eurycomanone for cancer. Eurycomanone Mechanistic Profile
TSF legend: P: 0–30 min R: 30 min–3 hr G: >3 hr |
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| The selectivity of cancer products (such as chemotherapeutic agents, targeted therapies, immunotherapies, and novel cancer drugs) refers to their ability to affect cancer cells preferentially over normal, healthy cells. High selectivity is important because it can lead to better patient outcomes by reducing side effects and minimizing damage to normal tissues. Achieving high selectivity in cancer treatment is crucial for improving patient outcomes. It relies on pinpointing molecular differences between cancerous and normal cells, designing drugs or delivery systems that exploit these differences, and overcoming intrinsic challenges like tumor heterogeneity and resistance Factors that affect selectivity: 1. Ability of Cancer cells to preferentially absorb a product/drug -EPR-enhanced permeability and retention of cancer cells -nanoparticle formations/carriers may target cancer cells over normal cells -Liposomal formations. Also negatively/positively charged affects absorbtion 2. Product/drug effect may be different for normal vs cancer cells - hypoxia - transition metal content levels (iron/copper) change probability of fenton reaction. - pH levels - antiOxidant levels and defense levels 3. Bio-availability |
| 6576- | EU, | Eurycomanone induce apoptosis in HepG2 cells via up-regulation of p53 |
| - | in-vitro, | HCC, | HepG2 |
| 6578- | EU, | Eurycomanol and eurycomanone as potent inducers for cell-cycle arrest and apoptosis in small and large human lung cancer cell lines |
| - | in-vitro, | Lung, | H460 | - | in-vitro, | Lung, | A549 |
| 6579- | EU, | Eurycomanone and Eurycomanol from Eurycoma longifolia Jack as Regulators of Signaling Pathways Involved in Proliferation, Cell Death and Inflammation |
| - | in-vitro, | AML, | K562 |
| 6584- | EU, | Eurycoma longifolia: an overview on the pharmacological properties for the treatment of common cancer |
| - | Review, | Var, | NA |
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#:415 Target#:1110 State#:% Dir#:2
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