Research Topic: Apoptosis

A Novel Erinacine S Derivative from Hericium erinaceus Overcomes Chemoresistance in Colorectal Cancer Cells by Enhancing TRAIL/TNFR1/DR5 Expression through Histone Acetylation

mycolabadmin

This study shows that erinacine S, a natural compound from Lion’s Mane mushrooms, can help overcome drug resistance in colorectal cancer cells. The compound works by activating pathways that trigger cancer cell death and by modifying how genes are expressed at the molecular level. In both laboratory experiments and animal models, erinacine S successfully stopped tumor growth and killed resistant cancer cells, suggesting it could be a promising natural treatment for patients with hard-to-treat colorectal cancer.

Read More »

Mycochemistry, antioxidant activity and anticancer potentiality of ethyl acetate extract of Daldinia eschscholtzii against A549 lung cancer cell line

mycolabadmin

Researchers studied a wild fungus called Daldinia eschscholtzii to see if it could fight lung cancer. They found that an extract from this fungus contained 28 different beneficial compounds and was effective at killing cancer cells by triggering a process called apoptosis (programmed cell death). The treatment also reduced the cancer cells’ ability to spread, and it appeared safe for normal, healthy cells. Several compounds in the extract showed promise as potential anti-cancer drugs.

Read More »

Staurosporine as an Antifungal Agent

mycolabadmin

Staurosporine is a natural compound produced by soil bacteria that can kill fungi. Scientists originally discovered it in 1977 and found it works by blocking proteins called kinases that fungi need to survive. Recent research shows it could be useful against drug-resistant fungal infections, especially when combined with other antifungal medicines. However, it needs to be modified to make it safer for human use.

Read More »

Physicochemical Characteristics of Chitosan Extracted from Pleurotus ostreatus and Its Anticancer Activity Against the MDA-MB-231 Breast Cancer Cell Line

mycolabadmin

Researchers extracted a compound called chitosan from oyster mushrooms (Pleurotus ostreatus) and tested its ability to fight breast cancer cells. The chitosan successfully killed cancer cells by triggering apoptosis, a natural cell death process, while showing promise as a safer alternative to conventional chemotherapy. The study demonstrates that mushroom-derived compounds could have significant therapeutic potential for cancer treatment with fewer side effects than traditional drugs.

Read More »

Exploring the Anticancer Potential of Coriolus versicolor in Breast Cancer: A Review

mycolabadmin

Coriolus versicolor, also known as turkey tail mushroom, has been used in traditional Chinese medicine for thousands of years. Recent scientific research shows it may help fight breast cancer through multiple mechanisms: killing cancer cells directly through programmed cell death pathways, breaking down the estrogen that fuels some breast cancers, preventing cancer spread, and boosting the immune system. While early studies are promising and one clinical trial showed good safety and immune benefits, larger studies are needed before this mushroom can be recommended as an official cancer treatment.

Read More »

Phallus indusiatus Extracts Promoted MCF-7 Apoptosis Under TNFα-induced Tumor Microenvironment by Attenuating NF-kappaB and Akt Activation

mycolabadmin

Bamboo mushroom extracts show promise in helping treat breast cancer by making cancer cells more sensitive to chemotherapy drugs. The mushroom reduces inflammation and blocks protective signals in cancer cells, making them more likely to die. This research suggests bamboo mushroom could be a helpful supplement for breast cancer patients, especially when used alongside standard cancer treatments.

Read More »
Scroll to Top