Table 7.
Fungi applied for cancer therapy.
| Fungi | Mechanism | Therapy |
|---|---|---|
| Agaricus bisporus 176; Agaricus blazei 176; Amauroderma rude 176; Amauroderma rugosum 172; Antrodia camphorate 173; Clitocybe alexandri 169; Coprinus comatus 174; Cordyceps militaris 158; Coriolus versicolor 156; Daldinia concentrica 163; Flammulina velutipes 175; Fomes fomentarius 176; Fomitopsis officinalis 182; Fuscoporia torulosa 176; Ganoderma lucidum 157; Ganoderma sinense 35; Grifola frondose 180; Hericium erinaceum 165; Hypsizigus marmoreus 176; Inonotus obliquus 161; Laetiporus sulphureus 159; Lentinus crinitus 176; Lentinus edodes 176; Lepista inversa 169; Lignosus rhinocerotis 176; Lyophyllum shimeji 176; Marasmius oreades 176; Paecilomyces japonica 162; Phellinus linteus 176; Pholiota nameko 176; Pleurotus eryngii 160; Pleurotus ostreatus 176; Podostroma cornu-damae 176; Poria cocos 176; Russula delica 166; Russula lepida 167; Schizophyllum commune 176; Tricholoma mongolicum 168; Xylaria psidii 170; Xylaria schweinitzii 164; Xylaria sp.171; | Stimulating apoptotic and autophagic effects by extracts | Anti-tumoral effects on cell lines in vitro |
| Antrodia camphorate 176; Auricularia auricularia-judae 195; Coriolus versicolor 196; Fomitopsis officinalis 182; Ganoderma sinense 35; Grifola frondose 180; Lentinus edodes 176; Pleurotus ostreatus 197; Schizophyllum commune 176 | Modulating immune cells and cytokine/chemokine networks 176 | Decreasing tumor size, inhibiting metastasis and elongating lifespan of tumor bearing animals (Acting as an oncolytic agent; Therapeutics for cancer immunotherapy in vivo) |