Curcumin, a polyphenolic compound isolated from Curcuma longa (Turmeric) is widely used in traditional Ayurvedic medicine. Its potential therapeutic effects on a variety of diseases have long been known. Though anti-tumour effects of curcumin have been reported earlier, its mode of action and telomerase inhibitory effects are not clearly determined in brain tumour cells. In the present study, we demonstrate that curcumin binds to cell surface membrane and infiltrates into cytoplasm to initiate apoptotic events. Curcumin treatment has resulted in higher cytotoxicity in the cells that express telomerase enzyme, highlighting its potential as an anticancer agent. Curcumin induced growth inhibition and cell cycle arrest at G2/M phase in the glioblastoma and medulloblastoma cells used in the study. Gene and protein expression analyses revealed that curcumin down-regulated CCNE1, E2F1 and CDK2 and up-regulated the expression of PTEN genes resulting in growth arrest at G2/M phase. Curcumin-induced apoptosis is found to be associated with increased caspase-3/7 activity and overexpression of Bax. In addition, down-regulation of Bcl2 and survivin was observed in curcumin-treated cells. Besides these effects, we found curcumin to be inhibiting telomerase activity and down-regulating hTERT mRNA expression leading to telomere shortening. We conclude that telomerase inhibitory effects of curcumin underscore its use in adjuvant cancer therapy.
We report here the results of a telomere length analysis in four male Chinese hamsters by quantitative fluorescence in situ hybridization (Q-FISH). We were able to measure telomere length of 64 (73%) of 88 Chinese hamster telomeres. We could not measure telomere length in chromosome 10 or in the short arms of chromosomes 5, 6, 7 and 8 because of the overlaps between the interstitial and terminal telomeric signals. Our analysis in the 73% of Chinese hamster telomeres indicate that their average length is ∼38 kb. Therefore, Chinese hamster telomeres are comparable in length to mouse telomeres, but are much longer than human telomeres. Similar to previous Q-FISH studies on human and mouse chromosomes, our results indicate that individual Chinese hamster chromosomes may have specific telomere lengths, suggesting that chromosome-specific factors may be involved in telomere length regulation.
Multiple genetic alterations are common in cancers including those of the breast. The mechanisms leading to these alterations such as point mutations, gene amplifications, deletions and replication error are often associated with frequent and consistent loss of heterozygosity (LOH) or microsatellite instability (MSI). Several cytological and molecular studies have shown high frequency loss of genetic information on the long arm of chromosome 11 (i.e., 11q) in various primary breast cancers. In the present study allelic alterations in a refined position on the long arm of chromosome 11 were studied to identify the spectrum of induced damage at different stages of malignant transformation of MCF-10F cell lines after exposure to high-LET radiation using •-particles and exposure to estradiol by using PCR-single strand conformation polymorphism (SSCP) and fluorescence in situ hybridization (FISH) analysis. Microsatellite markers were selected from chromosome 11 (11q23-q24 loci) and it was found that frequency of allelic imbalance occurs at different stages of tumor progression with a range of 15-45% depending on the marker studied. These results strongly suggested the presence of several tumor suppressor genes in this critical region of chromosome 11 (11q23-q24). It also represents the first indication of allele loss at these loci in human breast epithelial cells induced by radiation and estrogen treatment suggesting a potential interventional target in breast carcinogenesis.
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