包装 | 价格(元) |
50mg | 电议 |
100mg | 电议 |
200mg | 电议 |
Cell lines | OSCC cells |
Preparation Method | In order to determine the effect of oxaliplatin on cell viability, CAL27 cells and SCC25 cells were treated with different concentrations of oxaliplatin for 12, 24, and 48 hours. |
Reaction Conditions | 0-300uM Oxaliplatin for 12, 24, and 48 hours |
Applications | Oxaliplatin inhibited cell viability, migration, and cloning formation of OSCC cells and induced cell death in vitro. |
Animal models | BALB/c mice |
Preparation Method | Subjects were injected intraperitoneally (once every two days) with oxaliplatin (5 mg/kg in PBS, oxaliplatin group) or same volume of PBS (control group). After 21 days, mice were euthanized, and their xenografts were harvested and weighed. |
Dosage form | 5 mg/kg oxaliplatin for 21 days |
Applications | Oxaliplatin inhibited tumor growth of OSCC and caused upregulation of PARP1 in vivo. |
文献引用 | |
产品描述 | Oxaliplatin is a cytotoxic chemotherapy drug used to treat cancer. Oxaliplatin works by interfering with the development of DNA in a cell. This helps to treat cancer which is caused by cells rapidly growing and dividing out of control. Oxaliplatin can induce DNA damage in cancer cells. Besides,oxaliplatin can interfere with the cell cycle, promote apoptosis, and induce autophagy in tumor cells[2,3]. Oxaliplatin inhibited cell viability, migration, and cloning formation of OSCC cells and induced cell death in vitro[1]. Oxaliplatin inhibited the growth of HCCLM3 and Hep3B cells.Downregulation of the anti-apoptotic proteins Bcl-2 and Bcl-xL and upregulation of the pro-apoptotic protein Bax during oxaliplatin-induced apoptosis[6]. Oxaliplatin was found to be active against C32 and G361 cell lines with IC50 values of 49.48 and 9.07 uM (1 h exposure), 9.47 and 1.30 uM (4 h exposure), and 0.98 and 0.14 uM (24 h exposure), respectively. At a 24 h exposure oxaliplatin appears to be significantly more active than cisplatin against the G361 cell line[4]. 85-88% of all platinum from oxaliplatin was bound to plasma proteins within the first 5 h with an average half-life of 1.71 +/- 0.06 h. When oxaliplatin was incubated in whole blood, the erythrocytes took up 37.1 +/- 2.1% of the total platinum in 2 h (maximum uptake) which was not exchangeable into plasma[5]. The in vivo anticancer effect of oxaliplatin was studied using a nude mouse subcutaneously implanted with CAL27 cells. The average volume of tumors was markedly smaller in the oxaliplatin group than in the control group. Therefore, these results indicated that oxaliplatin inhibited the growth of xenograft OSCC cells in vivo, which was accompanied by the upregulated expression of PARP1[1]. Oxaliplatin-treated mice displayed reduced weight gain, mechanical allodynia, and exploratory behavior deficits that were not significantly improved by exercise[7]. When investigated oxaliplatin-induced haematological toxicities and splenomegaly in mice, Blood analysis showed dose dependent decreases in white and red blood cell counts, and significant changes in haematological indices.Spleen weight was significantly increased indicating splenomegaly, and red pulp tissue exhibited substantial dysplasia[8]. Oxaliplatin-treated mice displayed reduced weight gain and behavioral deficits. Mice treated over a shorter course had significantly increased STAT3 phosphorylation in gastrocnemius muscles. Mice receiving extended oxaliplatin treatment demonstrated reduced hindlimb muscle mass with upregulation of myopathy-associated genes Foxo3, MAFbx, and Bnip3[9]. References: |