Unveiling the therapeutic potential of plant steroid peimine: A study on apoptotic induction in MRMT-1 cell line-induced breast cancer in rats.

BACKGROUND: Breast cancer stands as a leading contributor to global cancer-related mortality. Progressing Research and Medical Innovations Elevate Treatment Choices and Results for Breast Cancer. Among these, Peimine, a natural steroid inherent in plants, notably within the Fritillaria species, demonstrates the capability to trigger apoptosis in breast cancer cells through the mitochondrial membrane permeation pathway. Nevertheless, its impact on an appropriate cancer model remains an area necessitating further exploration. AIM: This study explored the in vivo anticancer effects of peimine on MRMT-1 Cell-line induced breast cancer in rats. METHOD: Cancer was induced by the administration of MRMT-1 (6 x 106 cells) cells in the mammary pads of SD rats. The daily drug treatmentcommenced on day 14 and continued till 39 days. Peimine was administered in two doses (0.24 mg/kg and 0.48 mg/kg p.o) to examine its efficacy in curing breast cancer while tamoxifen was used as standard. RESULTS: A reduction in tumour size was observed in the peimine-treated groups. Peimine can correct the changed blood cell count in addition to its anti-tumour activity. In peimine-treated rats, imbalanced immune marker IgE, serum oxidative marker, and tissue apoptotic markers like cytochrome c and calcium level were shown to be restored significantly. CONCLUSION: Our findings imply that quinine has beneficial effects as an anti-neoplastic medication for breast cancer, most likely through its apoptotic activity. More research is necessary to thoroughly understand their mechanisms of action, ideal dose, and potential side effects.

Exploring the effects of vasoactive constituents in large cardamom: implications for the anti-hypertensive effect via eNOS coupling pathway - an in-vitro study in rat endothelial cells.

Endothelial dysfunction, linked to reduced eNOS expression and nitric oxide (NO) availability, contributes to cardiovascular diseases (CVDs). Large cardamom exhibits antihypertensive effects by augmenting NO levels and antioxidant activity. To decipher its mechanisms, selected constituents were docked with eNOS-associated target genes such as GTP cyclohydrolase I (GTPCH-1) and (dihydrofolate reductase [DHFR]). Endothelial damage induced by L-NAME and fructose was countered by assessing nitric oxide metabolites (NOx), tetrahydrobipterin (BH4 levels), GCH-I expression and super oxide dismutase (SOD) activity after constituent incubation. Cyanidin-3-O-glucoside and petunidin-3-O-glucoside notably restored impaired vascular markers in both models. These phytoconstituents are likely to activate GCH-BH4-eNOS pathways, upregulating SOD and NO expression, maintaining endothelial integrity. Large cardamom's antihypertensive effects may stem from these components, synergistically enhancing endothelial NO release via the eNOS pathway.

Kaempferide exhibits an anticancer effect against hepatocellular carcinoma in vitro and in vivo.

CONTEXT: Phytochemicals have been promising candidates for cancer therapy, affecting various cancer initiation and progression stages. Kaempferide is a mono methoxy flavone that shows potent anticancer effects on multiple cancers both in vitro and in vivo. MATERIALS AND METHODS: We evaluated the anticancer activity of kaempferide against HCC using an MTT ((3-[4,5-dimethylthiazol-2-yl]-2,5 diphenyl tetrazolium bromide) assay. HepG2, Huh7, and N1S1 were used for preliminary in vitro studies. This is followed by an apoptosis analysis assessed by caspase-3 and 9. The in vivo effects of the compound were studied in the N1S1 orthotopically injected SD (Sprague Dawley) rat model, where the animal was given kaempferide (25 mg/kg thrice a week) and vehicle (Cremophor:ethanol) iv. The expression of caspase-9 and a critical tumor marker, transforming growth factor beta 1 (TGF-ß 1), were assessed in both control and treatment tumor samples. RESULTS: Kaempferide-induced dose-dependent cytotoxicity in three HCC cell lines (HepG2: IC50 = 27.94 ± 2.199 µM; Huh7: IC50 = 25.65 ± 0.956 µM; and N1S1: IC50 = 15.18 ± 3.68 µM). Furthermore, caspase-dependent apoptosis was confirmed in vitro. Kaempferide showed a significant reduction in tumor size and tumor volume in vivo. Histopathological evaluation by hematoxylin and eosin (H&E) staining confirmed that altered cells were significantly demolished in the kaempferide-treated animals, which correlates with tumor reduction compared to the vehicle-treated group. Caspase-9 levels were also found to be increased in the treatment group. TGF-ß 1, a crucial marker in invasion and metastasis of liver cancer, was also downregulated in the treatment group (control = 207.8 ± 22.9 pg/mL and kaempferide-treated = 157.3 ± 13.8 pg/mL). CONCLUSION: We report for the first time the potential of kaempferide as a promising alternative against HCC, which further warrants its clinical validation.