Antiproliferative activity of cycloalkanecarboxamide derivatives possessing sulfonate or sulfamate moiety.

A series of cycloalkanecarboxamide-containing sulfonate and sulfamate derivatives were prepared, and their antiproliferative activity was tested against NCI-60 cancer cell lines panel. Compound 1f possessing cyclohexyl and p-(tert-butyl)benzenesulfonate moieties was the most active among all the target compounds. It exerted broad-spectrum anticancer activity against all the nine cancer types involved in the NCI-60 panel. Additionally, compound 1g containing cyclohexyl and p-fluorobenzenesulfonate moieties was the most potent against HT29 colon cancer cell line (IC50 = 4.73 µM) with selectivity index more than 4.23 towards HT29 than normal fibroblasts. It exerts its antiproliferative activity against HT29 through the induction of apoptosis (increasing caspase 3/7 activity) but not necrosis. Structure-activity relationship studies are presented in detail.

Promising drug candidates for the treatment of polycystic ovary syndrome (PCOS) as alternatives to the classical medication metformin.

Polycystic ovary syndrome (PCOS) is a prevalent hormonal disorder that affects women of reproductive age. It is characterized by abnormal production of androgens, typically present in small quantities in females. This study aimed to investigate the therapeutic potential of Irosustat (STX64), STX140, and compound 1G as new drug candidates for the treatment of letrozole-induced PCOS in female Wistar rats. 36 rats were divided into six groups of equal size. PCOS was induced in all groups, except the normal control group, by administering letrozole orally (1 mg/kg/day for 35 days). The onset of abnormal estrous cycle was confirmed by examining daily vaginal smears under a microscope. Subsequently, each rat group was assigned to a different treatment regimen, including one control group, one letrozole group, one metformin group (500 mg/kg/day) as a reference drug, and the other groups received a different drug candidate orally for 30 days. After treatment, blood collection was performed for biochemical measurements and determination of oxidative stress markers. The rats were dissected to separate ovaries and uterus for morphological, histological, and western blotting studies. Treatment with the drug candidates improved the ovaries and uterus weight measurements compared to the untreated PCOS group. The three tested drug candidates demonstrated promising improvements in lipid profile, blood glucose level, testosterone, progesterone, luteinizing hormone (LH), follicle-stimulating hormone (FSH), and estradiol levels. In addition, western blotting confirmed their promising effects on Akt, mTOR, and AMPK-α pathways. This study led to the discovery of three promising drug candidates for the management of PCOS as alternatives to metformin.

Discovery and optimization of 2,3-diaryl-1,3-thiazolidin-4-one-based derivatives as potent and selective cytotoxic agents with anti-inflammatory activity.

Several studies have indicated the potential therapeutic outcomes of combining selective COX-2 inhibitors with tubulin-targeting anticancer agents. In the current study, a novel series of thiazolidin-4-one-based derivatives (7a-q) was designed by merging the pharmacophoric features of some COXs inhibitors and tubulin polymerization inhibitors. Compounds 7a-q were synthesized and evaluated for their cytotoxic activity against MCF7, HT29, and A2780 cancer cell lines (IC50 = 0.02-17.02 µM). The cytotoxicity of 7a-q was also assessed against normal MRC5 cells (IC50 = 0.47-13.46 µM). Compounds 7c, 7i, and 7j, the most active in the MTT assay, significantly reduced the number of HT29 colonies compared to the control. Compounds 7c, 7i, and 7j also induced significant decreases in the tumor volumes and masses in Ehrlich solid carcinoma-bearing mice compared to the control. The three compounds also exhibited significant anti-HT29 migration activity in the wound-healing assay. They have also induced cell cycle arrest in HT29 cells at the S and G2/M phases. In addition, they induced significant increases in both early and late apoptotic events in HT29 cells compared to the control, where 7j showed the highest effect. On the other hand, compound 7j (1 µM) displayed weak inhibitory activity against tubulin polymerization compared to colchicine (3 µM). On the other hand, compounds 7a-q inhibited the activity of COX-2 (IC50 = 0.42-29.11 µM) compared to celecoxib (IC50 = 0.86 µM). In addition, 7c, 7i, and 7j showed moderate inhibition of inflammation in rats compared to indomethacin, with better GIT safety profiles. Molecular docking analysis revealed that 7c, 7i, and 7j have higher binding free energies towards COX-2 than COX-1. These above results suggested that 7j could serve as a potential anticancer drug candidate.

Upadacitinib protects against cisplatin-induced renal and hepatic dysfunction without impairing its anticancer activity.

Cisplatin-induced renal and hepatic dysfunctions are major drawbacks and obstacles to its clinical applications. Induction of inflammation is a part of its molecular mechanism of toxicity. The impact of upadacitinib, a selective JAK1-inhibitory anti-inflammatory agent, on cisplatin-induced adverse effects, histopathologic changes, kidney and liver functions, oxidative stress, and inflammatory biomarkers were investigated compared to silymarin and losartan in male Wistar rats. The animals were treated with upadacitinib (10 mg/kg/day) for two weeks in addition to one dose of cisplatin (10 mg/kg) on the seventh day of treatment. The liver and kidney functions as well as the oxidative biomarkers and inflammatory burst, were biochemically measured. Upadacitinib pre-treatment significantly improved liver function markers (ALT and AST) and inhibited cisplatin-induced lipid profile aberrations (total cholesterol and triglycerides). Moreover, it protected the kidney functions as indicated by blood urea nitrogen, serum creatinine, creatinine clearance, and albumin levels. Upadacitinib also attenuated cisplatin-induced hepatic and renal inflammatory events, as indicated by the reduction of MDA and TNFα levels. In addition, it improved the superoxide dismutase (SOD) activity. Upadacitinib effectively diminished histopathologic structural damage in liver and kidney tissues. Western blotting of NF-kB and p-Akt confirmed the renoprotective effect of upadacitinib. Furthermore, the cell viability assay shows that upadacitinib did not have any inhibitory activity on cisplatin anticancer potency in MCF-7 and A549 cells. Moreover, upadacitinib has improved the potency of cisplatin against lung cancer cells in a dose-dependent pattern. These results highlight upadacitinib's protective effects from cisplatin-induced toxicity without impairing its anticancer activity.

The impact of Catechol-O-methyl transferase knockdown on the cell proliferation of hormone-responsive cancers.

Estrogen (E2) plays a central role in the development and progression of hormone-responsive cancers. Estrogen metabolites exhibit either stimulatory or inhibitory roles on breast and prostate cells. The catechol metabolite 4-hydroxyestradiol (4-OHE2) enhances cell proliferation, while 2-methoxyestradiol (2 ME) possesses anticancer activity. The major metabolizing enzyme responsible for detoxifying the deleterious metabolite 4-OHE2 and forming the anticancer metabolite 2 ME is Catechol-O-Methyl Transferase (COMT). The current work investigated the relationship between the expression level of COMT and the cell proliferation of hormone-responsive cancers. The results showed that COMT silencing enhanced the cell proliferation of ER-α positive cancer cells MCF-7 and PC-3 but not the cells that lack ER-α expression as MDA-MB231 and DU-145. The data generated from our study provides a better understanding of the effect of COMT on critical signaling pathways involved in the development and progression of breast cancer (BC) and prostate cancer (PC) including ER-α, p21cip1, p27kip1, NF-κB (P65) and CYP19A1. These findings suggest that COMT enzyme plays a tumor suppressor role in hormone receptor-positive tumors which opens the door for future studies to validate COMT expression as a novel biomarker for the prediction of cancer aggressiveness and treatment efficacy.