Integrated hepadnaviral DNA in livers and tumors of chronic hepatitis B patients has been reported for many years. In this study, we investigated whether hepatitis B virus DNA integration occurs preferentially at sites of cell DNA damage. A single I-SceI homing endonuclease recognition site was introduced into the DNA of the chicken hepatoma cell line LMH by stable DNA transfection, and double-strand breaks were induced by transient expression of I-SceI after transfection of an I-SceI expression vector. Alteration of the target cleavage site by imprecise nonhomologous end joining occurred at a frequency of ≈10–3 per transfected cell. When replication of an avian hepadnavirus, duck hepatitis B virus, occurred at the time of double-strand break repair, we observed integration of viral DNA at the site of the break with a frequency of ≈10–4 per transfected cell. Integration depended on the production of viral double-stranded linear DNA and the expression of I-SceI, and integrated DNA was stable through at least 17 cell divisions. Integration appeared to occur through nonhomologous end joining between the viral linear DNA ends and the I-SceI-induced break, because small deletions or insertions were observed at the sites of end joining. The results suggest that integration of hepadnaviral DNA in infected livers occurs at sites of DNA damage and may indicate the presence of more widespread genetic changes caused by viral DNA integration itself
Phospholipase C (PLC) family members constitute a family of diverse enzymes. Thirteen different family members have been cloned. These family members have unique structures that mediate various functions. Although PLC family members all appear to signal through the bi-products of cleaving phospholipids, it is clear that each family member, and at times each isoform, contributes to unique cellular functions. This chapter provides a review of the current literature on PLC. In addition, references have been provided for more in-depth information regarding areas that are not discussed including tyrosine kinase activation of PLC. Understanding the roles of the individual PLC enzymes, and their distinct cellular functions, will lead to a better understanding of the physiological roles of these enzymes in the development of diseases and the maintenance of homeostasis.
It has been suggested that glial cells and/or their progenitors are the primary target cells for radiation-induced demyelination. Cultures of terminally differentiated oligodendrocytes, immature oligodendrocytes, and O-2A progenitor cells were generated from the cerebral cortex and spinal cord of perinatal rat pups. Irradiation of cultures of terminally differentiated oligodendrocytes resulted in a significant increase in the percentage of apoptotic cells from 15% in control to 30% in irradiated samples, with the maximum increase induced by 10 Gy. This increase in apoptosis could be observed by 1 h after irradiation with the maximum level reached at 3-6 h. Apoptotic cells were not detected before or after irradiation of cultures of O-2A progenitor cells or immature oligodendrocytes. These data suggest that radiation-induced apoptosis of terminally differentiated oligodendrocytes may be involved in early demyelination.
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