Apoptosis is induced in aging SV40 T antigen-transformed human fibroblasts through p53- and p21CIP1/WAF1-independent pathways

Effects of emodin on the gene expression profiling of human breast carcinoma cells

BACKGROUND

The mechanism of emodin-mediated cell apoptosis has been investigated extensively in many types of human cancer cells. Our previous study demonstrated that emodin induced apoptosis through the decrease of Bcl-2/Bax ratio and the increase of cytoplasm cytochrome c concentration in human breast cancer BCap-37 cells. However, emodin's reaction to breast cancer cells remains elusive.

MATERIALS AND METHODS

An apoptosis-associated cDNA microarray comprised of 458 known genes, namely, death receptors, calpains, death kinases, granzymes, DNA fragmentation proteins, caspases and Bcl-2 family, was used to determine the impact of emodin in breast cancer BCap-37 cells. Furthermore, the candidate emodin target genes were further evaluated via real-time quantitative PCR and Western blot analysis.

RESULTS

We found that gene expression profiling in human breast cancer BCap-37 cells was altered when exposed to emodin. Thirty of the unique genes that were either induced or repressed in response to emodin-induced apoptosis were also identified. A follow-up study characterized p53, emodin-induced gene, IGF-2, and emodin-repressed gene, and the downstream proteins were also seen as possible molecular targets of emodin.

CONCLUSION

Data from this study provide novel evidence that emodin induces gene expression profiling changes, but has no effects on caspases. In addition, the p53 pathway may cooperate with the IGF-2 pathway, resulting in an emodin-induced apoptosis through disruption of the mitochondrial signaling pathway in BCap-37 cells.

Calcium salicylate-mediated apoptosis in human HT-1080 fibrosarcoma cells

Salicylates are novel biologically active compounds that exhibit multiple therapeutic activities. The anti-cancer effectiveness of calcium salicylate has been investigated on human HT-1080 fibrosarcoma cell lines at relatively low concentrations (predominantly 0.4 mM) compared to those previously reported. Although low calcium salicylate concentrations did not retard tumour growth progression significantly, as measured by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) and time-lapse assays, its cytotoxic characteristics were proven to be prominent by various morphological and immunocytological techniques. The results here demonstrate evidence for approximately 25% apoptosis after treatment with calcium salicylate, which up-regulatd the expression of p53, p21 and Bax, and down-regulated Bcl-2 in HT-1080 cells.

Termination of lifespan of SV40-transformed human fibroblasts in crisis is due to apoptosis

Normal human fibroblasts in culture have a limited lifespan, ending in replicative senescence. Introduction of SV40 sequences encoding large T antigen and small t antigen into pre-senescent cells results in an extension of lifespan for an additional 20-30 population doublings. Rare clones of SV40-transformed cells are capable of indefinite growth and are described as immortal; however, the great majority of SV40-transformed cells terminate this extended lifespan in cell death, termed "crisis." We have examined the properties of cells in crisis to obtain further insights into mechanism of cell death and immortalization. Populations at the terminal cell passage show a balance between cell replication and cell death over a period of several weeks, with a progressive increase in cells undergoing cell death. During this period, there is less than a 3-fold increase in attached cell number, with two stages being identifiable on the basis of the focal pattern of cell survival. We also demonstrate that cells in crisis are undergoing apoptosis based on TUNEL assay, subG1 DNA content, annexin V reactivity, and activation of caspases 3 and 8. We suggest a model whereby SV40-transformed cells acquire increased sensitivity to apoptosis based on changes in properties which activate caspase 8 in addition to changes previously described involving shortening of telomeric sequences. While only telomere stabilization could be clearly shown to be essential for survival of cells through crisis, the extended period of cell replication and altered gene expression observed in SV40-transformed cells during crisis are compatible with other genetic alterations in immortal cells.

Agnoprotein 1a and agnoprotein 1b of avian polyomavirus are apoptotic inducers

Avian polyomavirus (APV) causes an acute fatal disease in a variety of avian species. DNA laddering indicating apoptosis was demonstrated in APV-infected chicken embryo (CE) cells. DNA laddering, however, was not observed in Vero cells infected with mammalian polyomavirus simian virus 40. Expression of APV agnoprotein 1a and agnoprotein 1b induced apoptosis in insect cells and CE cells. An APV full-length plasmid transfected in CE cells induced apoptosis, and infectious virus was produced. After transfection of CE cells with a plasmid containing a mutated initiation codon for agnoprotein 1a and agnoprotein 1b, however, a considerably lower number of apoptotic cells was observed, and no infectious progeny was produced.