Impacts of drainage, restoration and warming on boreal wetland greenhouse gas fluxes.

Northern wetlands with organic soil i.e., mires are significant carbon storages. This key ecosystem service may be threatened by anthropogenic activities and climate change, yet we still lack a consensus on how these major changes affects their carbon sink capacities. We studied how forestry drainage and restoration combined with experimental warming, impacts greenhouse gas fluxes of wetlands with peat. We measured CO2 and CH4 during two and N2O fluxes during one growing season using the chamber method. Gas fluxes were primarily controlled by water table, leaf area and temperature. Land use had a clear impact of on CO2 exchange. Forestry drainage increased respiration rates and decreased field layer net ecosystem CO2 uptake (NEE) and leaf area index (LAI), while at restoration sites the flux rates and LAI had recovered to the level of undrained sites. CH4 emissions were exceptionally low at all sites during our study years due to natural drought, but still somewhat lower at drained compared to undrained sites. Moderate warming triggered an increase in LAI across all land use types. This was accompanied by an increase in cumulative seasonal NEE. Restoration appeared to be an effective tool to return the ecosystem functions of these wetlands as we found no differences in LAI or any gas flux components (PMAX, Reco, NEE, CH4 or N2O) between restored and undrained sites. We did not find any signs that moderate warming would compromise the return of the ecosystem functions related to C sequestration.

The subrenal capsule assay in selecting chemotherapy for ovarian cancer: a prospective randomized trial.

In order to find out whether the response rate and survival in epithelial ovarian cancer can be improved by aid of sensitivity testing with the subrenal capsule assay (SRCA), 196 patients with FIGO Stage II-IV epithelial ovarian cancer were randomized to be treated with either cyclophosphamide-doxorubicin-cisplatin (CAP) or SRCA-guided chemotherapy. The drug combinations tested with the SRCA were (1) cyclophosphamide-doxorubicin-carboplatin (CACAR), (2) CAP, (3) carboquone-methotrexate-tegafur (CQ-MTX-TEG), (4) cisplatin-etoposide-hexamethyl-melamine (P-VP-HXM), and (5) bleomycin-epirubicin-cisplatin (BEP). A total of 132 patients (CAP, 69; SRCA, 63) were eligible for efficacy analysis based on relaparotomy findings. The overall response rate was 59% in the CAP arm and 62% in the SRCA arm. In the SRCA arm, 16 patients were treated with CACAR, 24 with CAP, 10 with CQ-MTX-TEG, 11 with P-VP-HXM, and 2 with BEP. The response rate to CACAR was 63% and to SRCA-CAP was 75%. The number of complete responses was higher when CAP was given as guided by the assay than when given at random (14/24 vs 23/69; P = 0.03, Pearson chi 2). Survival curves as estimated by Kaplan-Meier method gave a median survival of 24 (SE = 4) months to the SRCA arm and 28 (SE = 5) for the CAP arm (P = 0.7; log-rank test). Because no survival benefit was achieved, the SRCA obviously needs further development before it can be routinely recommended in the choice of first-line chemotherapy for patients with ovarian cancer.

Apoptosis in toremifene-induced growth inhibition of human breast cancer cells in vivo and in vitro.

BACKGROUND: Antiestrogens inhibit the stimulative effects of estrogens on breast cancer growth, but the mechanism(s) by which they trigger tumor regression are not completely understood. Growth retardation and tumor regression can be achieved by enhanced cell death and/or arrested cell proliferation. PURPOSE: Our aim was to investigate the effect of a new antiestrogen, toremifene, on human breast cancer cells grown either in culture or as tumors in nude mice. METHODS: The growth and morphology of in vitro cultured cells of the human breast cancer cell line MCF-7 were monitored by time-lapse video. MCF-7 cells and ZR-75-1 human breast cancer cells were grown as tumors in nude mice and subsequently examined by electron microscopy. The integrity of DNA isolated from these cells was determined by standard gel electrophoretic techniques. Northern blot hybridization analysis was used to determine the steady-state levels of the mRNAs for testosterone-repressed prostatic message-2 (TRPM-2), tumor growth factor beta-1 (TGF beta 1), and pS2 (a small, cysteine-rich protein of unknown function). RESULTS: Time-lapse video microscopy of the cell cultures indicated that treatment with 7.5 microM toremifene for 3 days caused approximately 60% of the cells to exhibit morphologic characteristics typical of cells undergoing programmed death, or apoptosis. The number of mitoses gradually decreased to zero over a 3- to 4-day period. Estrogen withdrawal for the same length of time resulted in an approximately equal number of apoptoses and mitoses. These changes were not associated with the pattern of DNA fragmentation, detectable as ladders in agarose gels, that is characteristic of the DNA of cells undergoing apoptosis. Elevated levels of TRPM-2 and TGF beta 1 mRNAs were observed in in vitro or in vivo grown tumor cells treated with 5-10 microM toremifene. Elevated levels of TRPM-2, but not TGF beta 1, mRNA were observed in the tumor cells after estrogen withdrawal. The steady-state level of pS2 mRNA in the tumor cells dropped in response to either toremifene treatment or estrogen withdrawal. CONCLUSION: Toremifene causes growth inhibition of estrogen-sensitive breast cancer cells by inducing some cells to undergo apoptosis and by inhibiting other cells from entering mitosis. The higher than normal amounts of TRPM-2 and TGF beta 1 protein that would likely result from the elevated levels of TRPM-2 and TGF beta 1 mRNAs measured in these cells after toremifene treatment may have an important role in the growth inhibition process. IMPLICATION: Apoptosis as an active, targeted process provides a potential new therapeutic approach for treating breast cancer.

Estrogen suppression of erbB2 expression is associated with increased growth rate of ZR-75-1 human breast cancer cells in vitro and in nude mice.

Amplification and enhanced expression of the erbB2/HER-2/neu gene has been associated with an increased growth rate and poor prognosis of human breast cancer. We have studied the relationship between erbB2 expression and the regulation of cell growth by estrogen and anti-estrogens in the human breast cancer cell line ZR-75-1 in vitro and in athymic nude mice, pS2 being used as a marker gene for estrogen-stimulated gene expression. Only low amounts of erbB2 mRNA were seen in the cells grown in vitro in the presence of estrogen which stimulated the cells to proliferate rapidly and induced the expression of pS2 mRNA. Upon hormone withdrawal, erbB2 mRNA and protein increased, while pS2 mRNA declined to an undetectable level and cell proliferation slowed down. Opposite but more rapid changes were observed upon estrogen addition. The anti-estrogens toremifene and tamoxifen inhibited estrogen induction of pS2 expression, down-regulation of erbB2 expression and proliferation of the ZR-75-I cells in a concentration-dependent manner. Similar results were obtained in nude mice. ZR-75-I cells formed tumors only in mice carrying estrogen pellets. In these tumors little erbB2 mRNA was seen. Concomitant administration of toremifene or tamoxifen increased erbB2 mRNA and abolished pS2 mRNA. Our results show that enhanced expression of erbB2 is associated with hormone deprivation and growth arrest of the estrogen-dependent breast cancer cell line ZR-75-I. Thus, in mammary epithelial cells, erbB2 may have important estrogen-regulated functions which are not related to cell proliferation.

Changes in cell membrane fluidity affect the sodium transport across frog skin and its sensitivity to amiloride.

1. 1-5 mM n-hexanol added to the outer (mucosal) medium of isolated skin of the frog Rana temporaria increases the short circuit current (Isc) across it. 2. This effect shows a saturable dependency on the outer sodium concentration, also when NaCl is replaced by Na2SO4. 3. n-Hexanol at a concentration of 1 mM, and cold acclimation of the frogs, which increases the fluidity of epidermal cell membranes, do not affect the sensitivity of Isc to the inhibiting effect of amiloride. 4. n-Hexanol at a concentration (5 mM) which causes a fluidization of cell membrane preparations from isolated frog epidermis also increases the sensitivity of Isc to amiloride. 5. The effects of low concentrations of n-hexanol and of cold acclimation probably depend on an increase of the permeability of apical membranes of epidermal cells to sodium caused by membrane fluidization. At higher concentrations of n-hexanol, a further disordering of the membrane structure occurs with a better access of amiloride to its action sites.