5060-50-4Relevant academic research and scientific papers
Luotonin-A based quinazolinones cause apoptosis and senescence via HDAC inhibition and activation of tumor suppressor proteins in HeLa cells
Venkatesh, Ramineni,Ramaiah, M. Janaki,Gaikwad, Hanmant K.,Janardhan, Sridhara,Bantu, Rajashaker,Nagarapu, Lingaiah,Sastry, G. Narahari,Ganesh, A. Raksha,Bhadra, Manikapal
, p. 87 - 101 (2015)
A series of novel quinazolinone hybrids were synthesized by employing click chemistry and evaluated for anti-proliferative activities against MCF-7, HeLa and K562 cell lines. Among these cell lines, HeLa cells were found to respond effectively to these quinazolinone hybrids with IC50 values ranging from 5.94 to 16.45 μM. Some of the hybrids (4q, 4r, 4e, 4k, 4t, 4w) with promising anti-cancer activity were further investigated for their effects on the cell cycle distribution. FACS analysis revealed the G1 cell cycle arrest nature of these hybrids. Further to assess the senescence inducing ability of these compounds, a senescence associated β-gal assay was performed. The senescence inducing nature of these compounds was supported by the effect of hybrid (4q) on p16 promoter activity, the marker for senescence. Moreover, cells treated with most effective compound (4q) show up-regulation of p53, p21 and downregulation of HDAC-1, HDAC-2, HDAC-5 and EZH2 mRNA levels. Docking results suggest that, the triazole nitrogen showed Zn+2 mediated interactions with the histidine residue of HDACs.
Preparation of 2 methyl 3 (2 hydroxymethyl)phenyl 4(3H) quinazalone: a metabolite of methaqualone
Cella
, p. 1627 - 1627 (2007/10/09)
Pancreatic insulin content and insulin secretion from the pancreas of obese mice fed ad lib (ob/ob), obese mice maintained on a restricted diet (ob/ob RD) and lean mice has been studied using incubated pieces of pancreas in vitro and in a perifusion system. The ob/ob mice pancreas contained approximately twice as much insulin as the lean mice pancreas, whereas the ob/ob RD mice had a normal insulin content. Increasing the glucose concentration had a marked and prolonged stimulating effect on insulin secretion in the pancreas of the ob/ob and ob/ob RD mice, but not in the lean mice. Leucine stimulated insulin secretion in all three groups of animals both in the absence and presence of glucose in a biphasic manner; in the presence of glucose the insulin secreted from the pancreas of the ob/ob and ob/ob RD mice was abnormally high. Arginine stimulated insulin secretion from the lean mouse pancreas in the absence of glycose, whereas in the obese mouse pancreas stimulation was observed only in the presence of glucose, and the effect increased with increasing glucose concentration. The large amounts of insulin which can be secreted by the pancreas of the ob/ob and ob/ob RD mice under stimulation suggest that an abnormal response of the pancreas to biological stimuli of insulin secretion could be a primary defect in these animals.
