Vol 25, No 6 (2025)

Background:One of the growing diseases in today's human societies is cancer, which has become a major challenge, especially in industrialized and developing countries. Cancer treatments are diverse, but they usually use surgery, chemotherapy, and radiotherapy to improve patients. Existing drugs are usually expensive and, in some cases, are not effective due to drug resistance and side effects. Finding compounds of natural origin can be somewhat effective and useful in helping doctors to treat this disease. Ferula plants, which are traditionally used as spices or for medicinal purposes, can be a good source for finding anti-cancer compounds due to their various compounds, such as monoterpenes, sulfide compounds, and polyphenols. Several studies have shown that compounds found in Ferula plants have significant anticancer effects on various types of cancer cells.

Objective:This article was compiled with the aim of collecting evidence and articles related to the anti-cancer effects of three compounds obtained from these plants, namely Conferone, Diversin, and Ferutinin.

Methods:This review article was prepared by searching the terms Conferone, Diversin, Ferutinin and cancer and related information was collected through searching electronic databases such as ISI Web of Knowledge, PubMed and Google Scholar until the March of 2024.

Conclusion:The results of this review showed that relatively comprehensive studies have been conducted in this field and these studies have shown that these compounds can be used in the design of future anticancer drugs. Among the examined compounds, conferone showed that it has the best effect on cancer cells.

Background:Mesoionic compound MI-D possesses important biological activities, such as antiinflammatory and antitumoral against melanoma and hepatocarcinoma. Glioblastoma is the most aggressive and common central nervous system tumor in adults. Currently, chemotherapies are not entirely effective, and the survival of patients diagnosed with glioblastoma is extremely short.

Objective:In this study, we aimed to evaluate the cytotoxicity of MI-D in noninvasive A172 glioblastoma cells and establish which changes in functions linked to energy provision are associated with this effect.

Methods:Cells A172 were cultured under glycolysis and phosphorylation oxidative conditions and evaluated: viability by the MTT method, oxygen consumption by high-resolution respirometry, levels of pyruvate, lactate, citrate, and ATP, and glutaminase and citrate synthase activities by spectrophotometric methods.

Results:Under glycolysis-dependent conditions, MI-D caused significant cytotoxic effects with impaired cell respiration, reducing the maximal capacity of the electron transport chain. However, A172 cells were more susceptible to MI-D effects under oxidative phosphorylation-dependent conditions. At the IC25, inhibition of basal and maximal respiration of A172 cells was observed, without stimulation of the glycolytic pathway or Krebs cycle, along with inhibition of the activity of glutaminase enzyme, resulting in a 30% ATP deficit. Additionally, independent of metabolic conditions, MI-D treatment induced cell death in A172 cells by apoptosis machinery/ processes.

Conclusion:The impairment of mitochondrial respiration by MI-D under the condition sustained by oxidative phosphorylation may enhance the cytotoxic effect on A172 glioma cells, although the mechanism of cell death relies on apoptosis.