Natural products modulate cell apoptosis: a promising way for treating endometrial cancer

The key role of natural products in the fight against endometrial Cancer

Endometrial cancer (EC) is a common malignant disease in women, originating from the endometrial tissue. Over the past few decades, the global incidence rate of EC has gradually increased, and the affected population has become progressively younger. Traditional treatment methods, such as surgery and adjuvant therapy, have considerable toxic side effects. Furthermore, their therapeutic effectiveness is significantly very uncertain. Therefore, the search for a new type of treatment for EC is a top priority. Natural products are a class of compounds found in nature that have a wide range of biological functions; their derivatives have chemical structures that show great potential for developing new drugs. The latest studies have found that certain natural products, such as flavonoids, plant polyphenols, terpenoids and alkaloids, have inhibitory effects on EC cells in non-clinical models and animal studies. Despite challenges, including low extraction and bioavail ability, the potential of natural products for treating EC is still highly regarded by the scientific community. In the future, as research on natural products deepens and is combined with modern drug design and delivery technologies, it is hoped that more efficient and less toxic anti-cancer drugs will be developed, thereby offering EC patients more treatment options and hope. This article summarises the possible molecular mechanisms of various natural products and their bioactive components with regard to EC cells, as well as the latest research, to provide new ideas for further research and drug development.

Hydrogen sulfide protects the endometrium in a rat model of type 1 diabetes via modulation of PPARγ/mTOR and Nrf-2/NF-κb pathways

Diabetes is one of the leading causes of endometrial diseases in women. No study has addressed the influence of hydrogen sulphide (H2S) donors on endometrial injury on top of type 1 diabetes. This research was conducted to study either the effect of sodium hydrosulphide (NaHS), the H2S donor, or DL-propargylglycine (PAG), the inhibitor of endogenous H2S production, on the endometrium of diabetic rats. A total of 40 female Wistar rats were separated into control group, diabetic group, diabetic group treated with NaHS and diabetic group treated with PAG. Serum levels of insulin, glucose, total cholesterol (TC) and triglycerides (TG) were assessed. Uterine tissue markers of oxidative stress, inflammation, apoptosis and cell proliferation were analysed. Diabetes-induced endometrial overgrowth associated with oxidative stress, inflammation and inhibition of apoptosis. NaHS administration reversed the previous conditions while PAG administration got them worse. We concluded that H2S prevented endometrial overgrowth in a rat model of type 1 diabetes through modulation of PPARγ/mTOR and Nrf-2/NF-κB pathways.

The study of the mechanism of non-coding RNA regulation of programmed cell death in diabetic cardiomyopathy

Diabetic cardiomyopathy (DCM) represents a distinct myocardial disorder elicited by diabetes mellitus, characterized by aberrations in myocardial function and structural integrity. This pathological condition predominantly manifests in individuals with diabetes who do not have concurrent coronary artery disease or hypertension. An escalating body of scientific evidence substantiates the pivotal role of programmed cell death (PCD)-encompassing apoptosis, autophagy, pyroptosis, ferroptosis, and necroptosis-in the pathogenic progression of DCM, thereby emerging as a prospective therapeutic target. Additionally, numerous non-coding RNAs (ncRNAs) have been empirically verified to modulate the biological processes underlying programmed cell death, consequently influencing the evolution of DCM. This review systematically encapsulates prevalent types of PCD manifest in DCM as well as nascent discoveries regarding the regulatory influence of ncRNAs on programmed cell death in the pathogenesis of DCM, with the aim of furnishing novel insights for the furtherance of research in PCD-associated disorders relevant to DCM.

Berberine: Potential preventive and therapeutic strategies for human colorectal cancer

Colorectal cancer (CRC) is a common digestive tract tumor, with incidences continuing to rise. Although modern medicine has extended the survival time of CRC patients, its adverse effects and the financial burden cannot be ignored. CRC is a multi-step process and can be caused by the disturbance of gut microbiome and chronic inflammation's stimulation. Additionally, the presence of precancerous lesions is also a risk factor for CRC. Consequently, scientists are increasingly interested in identifying multi-target, safe, and economical herbal medicine and natural products. This paper summarizes berberine's (BBR) regulatory mechanisms in the occurrence and development of CRC. The findings indicate that BBR regulates gut microbiome homeostasis and controls mucosal inflammation to prevent CRC. In the CRC stage, BBR inhibits cell proliferation, invasion, and metastasis, blocks the cell cycle, induces cell apoptosis, regulates cell metabolism, inhibits angiogenesis, and enhances chemosensitivity. BBR plays a role in the overall management of CRC. Therefore, using BBR as an adjunct to CRC prevention and treatment could become a future trend in oncology.

Prolidase-proline oxidase axis is engaged in apoptosis induction by birch buds flavonol santin in endometrial adenocarcinoma cell line

Cancer of the corpus uteri and cervix uteri, collectively ranks second among new cancer cases in women after breast cancer. Therefore, investigation of new anticancer agents and identifying new molecular targets presents a challenge to improve effectiveness of chemotherapy. In this study, antiproliferative activity of flavonoids derived from the buds of silver birch and downy birch was evaluated in endometrial cancer Ishikawa cells and cervical cancer HeLa cells. It was found that flavanol santin reduced viability of both cell lines better than other flavonoids, including apigenin and luteolin. Moreover, this activity was slightly higher than that induced by the chemotherapy drug, cisplatin. Santin promoted intrinsic and extrinsic apoptosis pathways in cancer cells, but it had low toxicity in normal fibroblasts. The mechanisms of impairing cancer cell viability included induction of oxidative proline catabolism, however in different ways in the cell lines used. In HeLa cells, increase of proline oxidation was due to activation of p53 leading to proline oxidase upregulation. In contrast, in Ishikawa cells, having basal proline oxidase level significantly higher than HeLa cells, santin treatment decreased its expression. Nevertheless, proline oxidation was induced in these cells since santin increased expression and activity of prolidase, an enzyme providing proline from protein degradation. In both cell lines, proline oxidation was associated with generation of reactive oxygen species leading to reduction in cell viability. Our findings reveal the involvement of proline oxidase in induction of apoptosis by santin and identify a role of prolidase in proline oxidase-dependent apoptosis.