Caspase-resistant vimentin suppresses apoptosis after photodynamic treatment with a silicon phthalocyanine in Jurkat cells

Oxidative stress, such as photodynamic therapy, is an apoptosis inducer. Apoptosis, as well as photosensitization, have been associated with disruption of the cytoskeletal network. The purpose of the present study was to assess the role of vimentin, a major cytoskeletal protein, in apoptosis after photodynamic treatment (PDT) with the silicon phthalocyanine Pc 4 in human Jurkat T cells. Here we show for the first time that photosensitization with Pc 4 initiates vimentin cleavage and that this event precedes poly(ADP-ribose) polymerase (PARP) degradation. Similar findings were obtained in the presence of C2-ceramide, an inducer of oxidative stress and apoptosis. In the presence of benzyloxycarbonyl-Val-Ala-Asp(O-methyl)-fluoromethylketone, a pan-caspase inhibitor, Pc 4-PDT-induced vimentin and PARP cleavage were abolished. In Jurkat cells transfected with a caspase-resistant vimentin apoptosis was partly suppressed and delayed post-Pc 4-PDT. We suggest that the full-length vimentin confers resistance to nuclear apoptosis after PDT with Pc 4.     

One-electron-transfer reactions in biochemical systems V. Difference in the mechanism of quinone reduction by the NADH dehydrogenase and the NAD(P)H dehydrogenase (DT-diaphorase)

The mitochondrial NADH dehydrogenase catalyzes a one-electron reduction of quinones. Semiquinones thus formed have the hyperfine structures of their free anion radicals and are suggested to be detached from the enzyme. In the presence of suitable electron acceptors electron transfer occurs from the semiquinone to the acceptor. The mechanism of quinone reduction by spinach ferredoxin-NADP reductase is the same as that by the NADH dehydrogenase.

On the other hand, the NAD(P)H dehydrogenase (DT-diaphorase) prepared from liver soluble fraction catalyzes a typical two-electron reduction of quinones such as p-benzoquinone and 2-methyl-1,4-naphthoquinone. The mechanisms of one-electron and two-electron reduction of quinones are readily distinguishable by the use of an electron spin resonance spectrometer equipped with a flow apparatus and also by the use of an appropriate set of electron acceptors.

It is concluded that the reduction of quinones and oxygen by flavoproteins falls into three mechanistic categories: one-electron, two-electron and mixed-type reactions.     

Expression of DNase gamma during Fas-independent apoptotic DNA fragmentation in rodent hepatocytes

Endonuclease-induced DNA fragmentation is a hallmark of apoptosis. DNase gamma (DNase ) was recently identified as one of the endonucleases responsible for apoptotic DNA fragmentation. In this study, immunohistochemistry for DNase was performed on paraffin sections of rodent liver in well-defined models of hepatocyte apoptosis induced by Fas antibody (Fas) or cycloheximide (CHX), and necrosis induced by lipopolysaccharide (LPS) or carbon tetrachloride (CCl₄). DNase immunoreactivity was compared with TdT-mediated dUTP nick-end labeling (TUNEL) reactivity. Our results showed TUNEL reactivity in both apoptotic and necrotic hepatocytes. DNase immunoreactivity was not detected during LPS-induced or CCl₄-induced hepatocyte necrosis. In contrast, it was evident during CHX-induced, but not Fas-induced, apoptotic DNA fragmentation. These findings suggest that DNase plays an important role in Fas-independent apoptotic DNA fragmentation in hepatocytes.     

Temperature and nutrient availability control growth rate and fatty acid composition of facultatively psychrophilic <Emphasis Type="Italic">Cobetia marina</Emphasis> strain L-2

A facultative psychrophilic bacterium, strain L-2, that grows at 0 and 5°C as minimum growth temperatures in complex and defined media, respectively, was isolated. On the basis of taxonomic studies, strain L-2 was identified as Cobetia marina. The adaptability of strain L-2 to cold temperature was higher than that of the type strain and of other reported strains of the same species. When the bacterium was grown at 5–15°C in a defined medium, it produced a high amount of trans-unsaturated fatty acids. By contrast, in a complex medium in the same temperature range it produced a low amount of trans-unsaturated fatty acids. In the complex medium at 5°C, the bacterium exhibited a three-fold higher growth rate than that obtained in the defined medium. Following a temperature shift from 11 to 5°C, strain L-2 grew better in complex than in defined medium. Furthermore, when the growth temperature was shifted from 0 to 5°C both the growth rate and the yield of strain L-2 growing in complex medium was markedly enhanced. These phenomena suggest that an upshift of the growth temperature had a positive effect on metabolism. The effects of adding complex medium components to the defined medium on bacterial growth rate and fatty acid composition at 5°C were also studied. The addition of yeast extract followed by peptone was effective in promoting rapid growth, while glutamate addition was less effective, resulting in a cis-unsaturated fatty acid ratio similar to that of cells grown in the complex medium. These results suggest that the rapid growth of strain L-2 at low temperatures requires a high content of various amino acids rather than the presence of a high ratio of cis-unsaturated fatty acids in the cell membrane.     

Inhibition of osteoporosis due to restricted food intake by the fish oils DHA and EPA and perilla oil in the rat

Seven-week old female rats fed restricted foods including the fish oils Docosahesaenoic Acid (DHA) and Eicosapentaenoic Acid (EPA) and perilla oil with food intake decreased by 50%, had increases of fracture force and bone mineral density (BMD) and decreases in levels of Deoxypiridinoline (Dpd) and Calcium (Ca) in the urine, compared with those of rats with osteoporosis due to restricted soy bean oil food intake. Therefore, the fish oils DHA and EPA and perilla oil depressed excretion of urinary Ca and inhibited osteoporosis due to restricted food intake.     

Running inhibits osteoporosis induced by protein-deficient (PD) food intake

Running at 0.7 km/h for 10 min every day inhibited development of osteoporosis caused by protein deficient (PD) food intake. Urine alkaline phosphatase (ALP), a marker of bone formation osteoporosis, was not elevated in rats fed PD, when the osteoporosis was inhibited by running. Estrogen supplementation increased bone-breaking energy (BBE), but did not increase bone mineral density (BMD), and did not decrease urinary ALP levels.     

Carry-over effects of ozone and water stress on leaf phenological characteristics and bud frost hardiness of <Emphasis Type="Italic">Fagus crenata</Emphasis> seedlings

We examined the carry-over effects of ozone (O₃) and/or water stress on leaf phenological characteristics and bud frost hardiness of Fagus crenata seedlings. Three-year-old seedlings were exposed to charcoal-filtered air or 60 nl l^–1 O₃, 7 h a day, from May to October 1999 in naturally-lit growth chambers. Half of the seedlings in each gas treatment received 250 ml of water at 3-day intervals (well-watered treatment), while the rest received 175 ml of water at the same intervals (water-stressed treatment). All the seedlings were moved from the growth chambers to an experimental field on October 1999, and grown until April 2000 under field conditions. The exposure to O₃ during the growing season induced early leaf fall and reduction in leaf non-structural carbohydrates concentrations in the early autumn, as well as resulting in late bud break and reduction in the number of leaves per bud in the following spring. However, O₃ did not affect bud frost hardiness in the following winter. On the contrary, water stress did not affect leaf phenological characteristics, leaf and bud non-structural carbohydrates concentrations and bud frost hardiness. There were no significant synergistic or antagonistic effects of O₃ and water stress on leaf phenological characteristics, concentrations of leaf and bud non-structural carbohydrates and bud frost hardiness of the seedlings. These results show that the carry-over effects of O₃ can be found on the phenological characteristics and leaf non-structural carbohydrates concentrations, although there are almost no carry-over effects of water stress on phenological characteristics and winter hardiness of the seedlings.