Progesterone withdrawal and RU-486 treatment stimulate apoptosis in specific uterine decidual cells

Progesterone secretion is required for the growth and differentiation of endometrial stromal cells to form decidual cells. For many cells where a growth factor supports cell growth and proliferation, withdrawal of the growth factor initiates apoptosis. This study determined the time course and tissue location of apoptosis in deciduomal tissue after withdrawal of progesterone or injection of the antiprogestin, RU-486. Total DNA was isolated from decidual tissues at intervals after experimental treatments and separated electrophoretically. Internucleosomal DNA fragmentation characteristic of apoptosis was measured by quantitating levels of the 200 bp fragment. Apoptotic cells in tissue sections were detected by direct immunoperoxidase detection of digoxigenin-labeled DNA. Decidual apoptosis reached maximal levels at 12 h after withdrawal of progesterone or injection of RU-486. Increased concentrations of apoptotic cells were observed at the periphery of the growing deciduoma and in the antimesometrial deciduoma near the luminal epithelium after both treatments. These results suggest the withdrawal of progestin initiates apoptosis in cells at the early stages of decidualization.     

Progesterone regulation of progesterone receptor in mesometrial and antimesometrial deciduoma in pseudopregnant hamster.

Experiments were performed to examine the trophic effects of progesterone (P) on the progesterone receptor (PR) and the maintenance of the deciduoma. Deciduomal reactions in response to artificial stimuli were induced in hamsters' uteri on the 4th (D4) day of pseudopregnancy (PSP). On and after the 8th day, PSP hamsters received P supplement (2mg; s.c.) daily. Histological observation revealed that the life span of the deciduoma was partially prolonged. The maintenance and regression of the deciduoma was heterogeneous. P was able to maintain the morphology of the cells at the mesometrial site (MS) on D12, whereas cells at the antimesometrial site (AMS) regressed. The cytosol progesterone receptor (cPR) concentration in cells of the MS was higher than that of the AMS on D10. The cPR in MS and AMS decreased drastically on D12. The nuclear PR (nPR) remained at a higher concentration in both tissues on D10 followed by a precipitous decrease. The deciduomal nPR in the AMS decreased at a faster rate. By day 12, the nPR in the MS was much higher than that in the AMS. These data show that P acts as a trophic hormone of the deciduoma. The maintenance of deciduoma is closely related to the presence of PR. Other mechanisms may exist for the heterogeneous responses observed at the MS and AMS.     

Apoptosis of rat decidual cells: site specific initiation and related biochemical changes

The artificially induced rat deciduoma serves as a model to study cellular changes associated with implantation in the endometrium. The stromal cells differentiate to form two types of decidual cells and are restricted to specific anatomical sites of the uterus. Programmed cell death starts in the antimesometrial area and expression of glutathione-S-transferase, an antioxidant enzyme, enhances in these cells as the deciduoma enters the regressive phase. The enzyme activity is significantly high compared with that of mesometrial decidual cells. Similarly, lipid peroxide content of antimesometrial decidual cells is high during this phase. DNA fragmentation, a feature of cells undergoing programmed cell death, is initiated in the antimesometrial area during regression of deciduoma.     

Progesterone modulation of specific protein synthesis in the decidualized hamster uterus

Progesterone-dependent synthesis of specific proteins was studied on Days 6, 7 and 8 of pseudopregnancy in the decidualized hamster uterus. Progesterone withdrawal was induced by removal of subcutaneous steroid implants from ovariectomized animals; hamsters retaining the implants served as controls. Eight hours after hormone withdrawal, myometrial and deciduomal tissues were labeled with [35S]methionine during incubation for 1 h in vitro, and proteins were separated by two-dimensional gel electrophoresis followed by autoradiography of the dried gels. Analysis of the two-dimensional gel patterns (maps) revealed both increases and decreases in autoradiographic spot intensity comparing progesterone-withdrawn samples to controls, indicating that progesterone both suppressed and stimulated gene expression in the decidualized uterus. Protein synthesis in the deciduoma was more responsive to hormone withdrawal than that in the myometrium; e.g., 45 changes on Day 7 vs. 26 changes, respectively. The sets of proteins in each tissue responding to progesterone withdrawal through changes in synthesis have been termed "domains." The progesterone domains shifted from day to day during decidualization in size and degree of overlap (changes in protein synthesis common to the domain on different days). Although the degree of overlap was similar in cytosol from both tissues, marked differences were apparent in the overlap of responses in the nucleus. Overlap was extensive in the deciduomal nucleus where six protein spots increased intensity following progesterone removal on each day. In contrast, little overlap was seen between the progesterone domains in the myometrial nucleus. These findings emphasize the differences between these two tissues in their responses to progesterone withdrawal, yet five proteins (one cytosolic, four nuclear) responded similarly to hormone removal in both tissues. These studies show that: 1) progesterone domination of the uterus during pseudopregnancy alters synthesis of many proteins in both the deciduoma and myometrium; 2) progesterone effects on specific protein synthesis during decidualization occur in both positive and negative directions; 3) the proteins modulated by progesterone and, by extension, the genes affected by this hormone are predominantly different in the deciduoma and myometrium, and 4) progesterone modulation of specific protein synthesis in the decidualized uterus is time-dependent, such that the domains of response vary daily in composition, size and overlap.     

Light and electron microscopic examination of the mature decidual cells of the rat with emphasis on the antimesometrial decidua and its degeneration

Rat gestation sites were obtained on days 10 through 16 of normal pregnancy. Light and electron microscopic examination of day-10 sites revealed a consistent complex pattern of stromal cell morphologies. Six distinct regions were identified: an antimesometrial region of epithelioid decidual cells that form the gestation chamber containing the embryo and extraembryonic membranes; an abembryonic antimesometrial decidual region, the decidual crypt, where the cells are separated by large extracellular spaces; a mesometrial region with granule-containing cells and mesometrial decidual cells; a region of spiny cells that are lateral to the antimesometrial decidual cells and continuous with the mesometrial decidual cells; and a region of undifferentiated stromal cells adjacent to the myometrium. Between days 12 and 16, the antimesometrial decidua becomes thinner and is eventually sloughed into the newly formed uterine lumen. The role of the antimesometrial decidual cells is discussed with reference to trophoblast invasiveness, protein synthesis, and especially remodeling of the gestation chamber. Differences between decidua and deciduoma are considered.     

Characterization of deciduoma marker proteins in hamster uterus: detection in decidual cell cultures

The objective of this study was first, to identify the proteins associated with decidualization of the hamster uterus by comparing the protein maps of decidualized and nondecidualized endometrium in vivo, and second, to determine whether decidual cell cultures produced these characteristic proteins. Decidualization was induced in one uterine horn, and the contralateral horn was not stimulated (control tissue). Animals were ovariectomized and a subcutaneous progesterone implant was used to maintain decidualization. Uterine proteins from nuclear and cytosol fractions were analyzed by two-dimensional electrophoresis using a highly sensitive protein staining technique. Analysis of nuclear extract and cytosol from decidualized and nondecidualized endometrium from Days 6, 7, and 8 of pseudopregnancy demonstrated the presence of 11 nuclear and five cytosolic deciduoma-associated proteins. Serum and erythrocyte proteins were identified by two-dimensional electrophoresis, and none of the 16 deciduoma-associated proteins was a serum or erythrocyte contaminant. Forty-eight-hour cultures of decidual cells harvested from Day 5 of pseudopregnancy produced all 16 of the deciduoma-associated proteins found in whole tissue in situ. Culture conditions minimized serum and erthrocyte contamination, enhancing the detection of deciduomal cell proteins. Four nuclear and two cytosolic proteins were considered deciduoma specific, i.e., they were not associated with cellular proliferation, as evidenced by their absence from cultures of rapidly dividing fetal hamster fibroblasts. Thus, these studies show that the detection of deciduomal proteins may be a useful criterion for the assessment of decidualization in vitro and in vivo.     

Interaction of antiprogestins with progesterone receptors in rat uterus

Cytosolic and nuclear progesterone receptors (PRc and PRn) under antiprogestin treatment were measured in rat deciduoma and compared with values for contralateral (nondeciduomatous) rat uterine tissue. Uterine PRc and PRn of the progesterone treated group were 101 +/- 8.7 and 4770 +/- 590 fmol/mg DNA respectively. After treatment with antiprogestins STS-557, 5 alpha-DNE, (5 alpha-dihydronorethisterone), 5 alpha-DNG (5 alpha-dihydronorgestrel), RU-22092 and RU-16556, PRc in the nondeciduomatous control horn ranged from 127 to 377 fmol/mg DNA and PRn from 2785 to 17925 fmol/mg DNA. In the decidual tissue, PRc decreased significantly (4.6 +/- 0.8 fmol/mg DNA) on 5 alpha-DNG treatment as compared with the progesterone alone treatment group (147 +/- 3.8). PRn in decidual tissue also decreased maximally on 5 alpha-DNG treatment. These results suggest that the interaction of antiprogestins may not be identical in control uterine tissue and in deciduoma.     

Internucleosomal DNA fragmentation is not obligatory for castration induced rat ventral prostate cell apoptosis in vivo

Castrated male rats were treated with the reversible S1-phase cell cycle blocking drug, mimosine, and the effects of this drug on prostate cell apoptosis was characterized. At a single dose of mimosine (25 mg/kg/day), we found that the internucleosomal DNA fragmentation associated with apoptosis was partially suppressed in the rat ventral prostate at all early time points (24, 48 and 72 h) analyzed post-castration. This suppression was dose-dependent, and treatment with mimosine up to 150 mg/kg/day was sufficient to reduce the internucleosomal DNA fragmentation in the prostate by 90% at 72 h post-castration. Intriguingly, this drug did not suppress the induction of mRNAs for several apoptosis-associated gene products in the ventral prostate gland (bcl-2, p53, TGF-beta and SGP-2/clusterin). Moreover, this treatment did not suppress the histological appearance of apoptotic bodies in the ventral prostate detectable by fast green staining of thin sections of tissue. The apoptotic bodies present in mimosine-treated regressing ventral prostate tissues, however, were refractory to labeling by the in situ gap labeling method, further demonstrating lack of nuclear DNA fragmentation in the condensed nuclei of apoptotic cells. In summary, the cell cycle-blocking drug mimosine does not appear to affect the rate of apoptosis in the regressing rat ventral prostate gland. However, this drug was capable of suppressing the nuclear DNA fragmentation associated with androgen-regulated prostate cell apoptosis. These results support the concept that nuclear DNA fragmentation is not obligatory for apoptosis. Additionally, they imply that cell cycle movement from the G1/S-phase boundary might be important for the terminal DNA degradation associated with androgen-regulated prostate cell apoptosis.     

Progesterone-modulated induction of apoptosis by interferon-tau in cultured epithelial cells of bovine endometrium

Interferon-tau (IFN-tau) is produced by the trophoblast prior to implantation in ruminants. It is involved in maternal recognition of pregnancy, and is a pleiotropic molecule that can alter the synthesis of endometrial proteins and inhibit proliferation of some cells. We have observed that IFN-tau reduces the DNA content in cultures of bovine endometrial epithelial cells; therefore, the objective of this study was to determine whether IFN-tau would induce apoptosis in bovine endometrial cells. Epithelial cells were prepared, cultured to confluence, and then incubated for 24 or 48 h in the presence or absence of 10 ng/ml progesterone, 100 ng/ml IFN-tau, or 10 microg/ml cycloheximide (CHX; an apoptosis inducer used as a positive control). Cells undergoing apoptosis exhibit such characteristics as the appearance of apoptotic bodies and DNA fragmentation. The incidence of apoptosis was assessed by using TUNEL, DNA fragmentation analysis, and Western blot analysis of Bax-alpha protein expression. The results showed that IFN-tau and CHX significantly increased the percentage of cells with apoptotic nuclei (33.6% and 44.8%, respectively) compared with controls (11.7%; P < 0.05). Progesterone treatment of the cells significantly inhibited the ability of IFN-tau to induce apoptosis (14.6%) compared with IFN-tau alone (33.6%; P < 0.05). DNA fragmentation analysis showed that INF-tau and CHX treatment resulted in an increase in the appearance of DNA laddering compared with that in untreated control cultures. Western blot analysis showed that IFN-tau and CHX treatment resulted in a greater expression of the proapoptotic protein Bax-alpha compared with that in control cultures. These data demonstrate that IFN-tau can induce apoptosis in bovine uterine epithelial cells and that this effect is modulated by progesterone. We speculate that IFN-tau might play a critical role in the remodeling of the endometrium around the time of implantation.     

Progesterone and DNA damage encourage uterine cell proliferation and decidualization through up-regulating ribonucleotide reductase 2 expression during early pregnancy in mice

Embryo implantation into the maternal uterus is a crucial step for the successful establishment of mammalian pregnancy. Following the attachment of embryo to the uterine luminal epithelium, uterine stromal cells undergo steroid hormone-dependent decidualization, which is characterized by stromal cell proliferation and differentiation. The mechanisms underlying steroid hormone-induced stromal cell proliferation and differentiation during decidualization are still poorly understood. Ribonucleotide reductase, consisting of two subunits (RRM1 and RRM2), is a rate-limiting enzyme in deoxynucleotide production for DNA synthesis and plays an important role in cell proliferation and tumorgenicity. Based on our microarray analysis, Rrm2 expression was significantly higher at implantation sites compared with interimplantation sites in mouse uterus. However, the expression, regulation, and function of RRM2 in mouse uterus during embryo implantation and decidualization are still unknown. Here we show that although both RRM1 and RRM2 expression are markedly induced in mouse uterine stromal cells undergoing decidualization, only RRM2 is regulated by progesterone, a key regulator of decidualization. Further studies showed that the induction of progesterone on RRM2 expression in stromal cells is mediated by the AKT/c-MYC pathway. RRM2 can also be induced by replication stress and DNA damage during decidualization through the ATR/ATM-CHK1-E2F1 pathway. The weight of implantation sites and deciduoma was effectively reduced by specific inhibitors for RRM2. The expression of decidual/trophoblast prolactin-related protein (Dtprp), a reliable marker for decidualization in mice, was significantly reduced in deciduoma and steroid-induced decidual cells after HU treatment. Therefore, RRM2 may be an important effector of progesterone signaling to induce cell proliferation and decidualization in mouse uterus.     

Diclofenac induced in vivo nephrotoxicity may involve oxidative stress-mediated massive genomic DNA fragmentation and apoptotic cell death.

Diclofenac (DCLF) is a nonsteroidal anti-inflammatory drug that is widely used for the treatment of osteoarthritis, rheumatoid arthritis, ankylosing spondylitis, and acute muscle pain conditions. Toxic doses of DCLF can cause nephrotoxicity in humans and experimental animals. However, whether this DCLF-induced nephrotoxicity involves apoptotic cell death in addition to necrosis is unknown. The goals of this investigation were to determine whether DCLF-induced nephrotoxicity involves oxidative stress and apoptotic type genomic DNA fragmentation, and if so, whether DCLF-induced oxidative stress and DNA fragmentation cause apoptotic cell death in mouse kidneys. Male ICR mice (CD-1; 25-45 g), fed ad libitum, were administered nephrotoxic doses of DCLF (100, 200, 300 mg/Kg, po) and sacrificed 24 h later. Blood was collected to evaluate renal injury (BUN), lipid peroxidation (MDA: malondialdehyde levels), and superoxide dismutase (SOD) activity (a marker of oxidative stress). Kidney tissues were analyzed both quantitatively and qualitatively to determine the degree and type of DNA damage, and evaluated histopathologically for the presence of apoptotic characteristics in the nucleus of diverse types of kidney cells. Results show that diclofenac is a powerful nephrotoxicant (at 100, 200, and 300 mg/kg: 4.7-, 4.9-, and 5.0-fold increases in BUN compared to the control, respectively) and a strong inducer of oxidative stress (significant increase in MDA levels). Oxidative stress induced by DCLF was also coupled with massive kidney DNA fragmentation (100, 200, and 300 mg/kg: 3-, 8-, and 10-fold increases compared to control, respectively). A dose-dependent increase in MDA levels and SOD activity was also observed, which indicated a link between oxidative stress and nephrotoxicity. Qualitative analysis of DNA fragmentation by gel electrophoresis showed a DNA ladder indicative of Ca2+-Mg2+-endonuclease activation. Histopathological examination of kidney sections revealed numerous apoptotic nuclei across proximal and distal tubular cell linings. Collectively, these data for the first time suggest that DCLF-induced nephrotoxicity may involve production of reactive oxygen species leading to oxidative stress and massive genomic DNA fragmentation, and these two free radical mediated events may ultimately translate into apoptotic cell death of kidney cells in vivo, and reveal a DNA-active role for DCLF.     

Expression of adenosine deaminase and 5'-nucleotidase in artificially induced deciduoma in rat and hamster

Enzymes adenosine deaminase (ADA) and 5-nucleotidase (5-'NT) are known to play active role in tissue/cell proliferation and differentiation. To validate this the two enzymes were studied in artificially induced deciduoma of rat and hamster. The deciduoma was induced by traumatizing one of the uterine horns of progesterone primed animals. Non traumatized horn served as control. The animals were later maintained on progesterone, given alone (Gr.I) or conjointly with estrogen (Gr.II). The weight of each uterine horn was recorded to determine the formation of deciduoma. There was no marked difference between the weights of traumatized and control horn on day 2 post-traumatization (PT), but a progressive rise was noticed after this day in both species. The ADA activity however differed, day and species wise. While in the rats of Gr.I it was low in the traumatized horn on all the days, in the hamsters it was remarkably high from day 2 to 6 PT. In the rats of Gr.II also the activity though was low in the traumatized horn, but on day 2 and 4 only; on day 6 and 7 PT it increased markedly. In hamster, on the contrary, again the enzyme activity was remarkably high on all the three days. The 5'-NT activity, however, did not show any marked difference between the two horns under Gr.I and II in both species. It was rather high in the control horn of each group. The results suggest: (I) the progesterone alone though produces a significant rise in the uterine weight of traumatized horn in both species, the ADA activity increases only in hamster, (2) under the conjoint treatment also the enzyme activity remains high in hamster; and (3) the activity of enzyme 5'-NT does not alter during the deciduoma formation in both the species.     

Fragmented DNA and apoptotic bodies document the programmed way of cell death in hybridoma cultures

Markers of apoptosis were followed in batch hybridoma cultures carried out in protein-free medium. Samples were collected on day 0, representing early exponential phase (viability 91%), and on day 8, corresponding to late stationary phase (viability 8%). The apoptotic index reflecting the relative number of bodies insoluble in 6 M guanidinium hydrochloride in the culture of day 8 (30%) exceeded markedly the index in the culture of day 0 (2.5%). A gel chromatography on Sepharose 2B was developed for quantitative evaluation of fragmented cellular DNA. This analysis, including a correction for nonspecific fragmentation, showed that on day 8 more than 30% of cellular DNA was fragmented, whereas on day 0 it was less than 5%. Control necrotic cells prepared by rapid killing in 1% sodium azide displayed a low apoptotic index (2.4%) and low DNA fragmentation. Electrophoretic patterns in agarose gel showed a typical “ladder” of fragments in the DNA sample of day 8. The demonstration of fragmented cellular DNA and of the high incidence of apoptotic bodies at late stationary phase adds substantial weight to the view that in hybridoma cultures apoptosis represents the prevalent mode of cell death.     

Smokeless tobacco, oxidative stress, apoptosis, and antioxidants in human oral keratinocytes

We have investigated the effects of a smokeless tobacco extract (STE) on lipid peroxidation, cytochrome c reduction, DNA fragmentation and apoptotic cell death in normal human oral keratinocyte cells, and assessed the protective abilities of selected antioxidants. The cells, isolated and cultured from human oral tissues, were treated with STE (0-300 microl;g/ml) for 24 h. Superoxide anion production was determined by cytochrome c reductase. Oxidative tissue damage was determined by lipid peroxidation and DNA fragmentation, whereas apoptotic cell death was assessed by flow cytometry. STE-induced fragmentation of genomic DNA was also determined by gel electrophoresis. The comparative protective abilities of vitamin C (75 microM), vitamin E (75 microM), a combination of vitamins C & E (75 microM each), and a novel grape seed proanthocyanidin (IH636) extract (GSPE) (100 microg/ml) against STE induced oxidative stress and tissue damage were also determined. Following treatment of the cells with 300 microg STE/ml 1.5-7.6-fold increases in lipid peroxidation, cytochrome c reduction and DNA fragmentation were observed. The addition of the antioxidants to cells treated with STE provided 10-54% decreases in these parameters. Approximately 9, 29, and 35% increases in apoptotic cell death were observed following treatment with 100, 200, and 300 microg STE/ml, respectively, and 51-85% decreases in apoptotic cell death were observed with the antioxidants. The results demonstrate that STE produces oxidative tissue damage and apoptosis, which can be attenuated by antioxidants including vitamin C, vitamin E, a combination of vitamins C plus E and GSPE. GSPE exhibited better protection against STE than vitamins C and E, singly and in combination.     

Evaluation of delayed apoptotic response in lethally irradiated human melanoma cell lines

To assess the lethal doses of gamma radiation and corresponding apoptotic response in new established human melanoma cell lines we exposed exponentially growing cultures to 8-100 Gy gamma radiation. The apoptosis and cell survival were determined by trypan blue exclusion, terminal deoxynucleotidyl transferase-mediated dUTP nick end labeling (TUNEL) reaction, agarose gel electrophoresis, colony forming assay, and long-term survival assay. The maximal DNA fragmentation 3 days after irradiation was observed in cultures irradiated with 20 Gy (36.9% TUNEL positive cells). The cultures irradiated with 50 and 100 Gy contained 18.7% and 16.4% TUNEL positive cells, respectively. Cultures exposed to 8 and 20 Gy gamma radiation recovered by week 3-4. Lethally irradiated (50 and 100 Gy) cultures which contained less apoptotic cells by day 3 died by week 5. A detectable increase in melanoma cell pigmentation after irradiation was also observed. The survival of human melanoma cell cultures after exposure to gamma radiation does not correlate with the level of apoptotic cells by day 3. At high radiation doses (> 50 Gy) when the radiation induced cell pigmentation is not inhibited the processes of apoptotic DNA fragmentation might be preferentially inactivated.     

Hormonal regulation of estrogen and progestin receptors in decidual cells

Total estrogen receptor (Re) and total progestin receptor (Rp) were measured in the cytosol and nuclear fractions from hamster deciduomal tissue and decidual cell cultures. Correlation of serum steroid (estradiol and progesterone) and deciduomal receptor profiles revealed a significant loss of Re during the first four days of decidualization that was not attributable to changes in serum steroid levels. A decidual cell-tissue culture system was used to study the receptor's recovery response to progesterone withdrawal. Decidual cells were plated and grown in Ham's F12/Dulbecco's modified Eagle's medium with 5% horse serum supplemented with insulin, transferrin, selenium and progesterone (10 ng/ml). Within 48 h of culture large, multinucleate decidual cells were observed by phase microscopy. At 72 h of culture in medium containing progesterone, only Rp was detectable in decidual cells. Re was not detectable (less than 200 fmol/mg DNA) in either cytosol or nuclei from cells maintained in the presence of progesterone. However, when progesterone was deleted from the medium, cytosol Re recovered progressively from 8 h to 16 h of culture. Progesterone withdrawal also caused parallel increases in cytosol and nuclear Rp, and estradiol treatment (2 ng/ml) in combination with progesterone withdrawal further enhanced Rp levels in decidual cell cultures. These results with cultured decidual cells demonstrate that progesterone down-regulates Re and Rp, Re recovers rapidly upon progesterone withdrawal, and the Re system is competent to respond to estrogen action in terms of Rp induction. We used the density-shift method to determine that progestin increases the turnover of nuclear Re in hamster decidual cells within 3 h. Hamster decidual cells were isolated from the endometrium and cultured in progesterone-free medium containing normal amino acids (1H, 12C, 14N) for 2 days. Confluent monolayers of cells were exposed to 1 nM estradiol (E2) for 1 h to maximize the amount of occupied Re in the nuclear fraction. Then, at time 0, cells were transferred to medium supplemented with dense (2H, 13C, 15N) amino acids and either 1 nM E2 or E2 plus 100 nM progesterone. After Re was labeled with dense amino acids for 1, 3, 6 and 9 h, nuclear Re was extracted with 10 mM pyridoxal -5' phosphate and labeled with 125I-iodoestradiol (5 nM). Two radioactive peaks representing preexisting and newly synthesized Re were separated by sucrose density-gradient centrifugation. The halflife of nuclear Re in decidual cells was 3.7 h when cells were treated with E2 alone.(ABSTRACT TRUNCATED AT 400 WORDS)     

Developmental expression of adenosine deaminase during decidualization in the rat uterus

Adenosine deaminase (ADA) is expressed in high concentrations at the fetal-maternal interface during postimplantation stages of gestation in the mouse. The experiments reported here were designed to identify the specific uterine cells that express ADA subsequent to implantation in the rat and to determine if embryonic cells contribute to ADA expression. The results of biochemical analysis demonstrate that ADA-specific activity increases to very high levels in implantation sites, beginning approximately 72 h after blastocyst attachment. Immunocytochemical analysis localized this ADA expression to the decidualized stromal cells in the antimesometrial region of the pregnant uterus. In experimentally induced deciduoma, these cells were capable of synthesizing high levels of both ADA and mRNA for ADA in the absence of embryos. The enzyme first appeared in decidual cell cytoplasm, approximately 72 h after induction of decidualization, and later was localized in the decidual cell nuclei. Since the expression of ADA and its mRNA in decidual cells follows the appearance of desmin, a protein marker for decidualization, by at least 48 h, ADA appears to be involved in the functioning of mature decidual cells rather than in stromal cell differentiation. The expression of ADA, but not desmin, was restricted to the antimesometrial decidual cells and decreased when these cells regressed. At mid-gestation ADA activity increased and was localized principally in the fetal placenta. The results presented here demonstrate that ADA is localized to the antimesometrial decidual cell and that its expression is consequent to differentiation of the uterine stromal cell and independent of any embryonic stimulus.     

Activation of DNA-dependent protein kinase may play a role in apoptosis of human neuroblastoma cells

Treating SH-SY5Y human neuroblastoma cells with 1 microM staurosporine resulted in a three- to fourfold higher DNA-dependent protein kinase (DNA-PK) activity compared with untreated cells. Time course studies revealed a biphasic effect of staurosporine on DNA-PK activity: an initial increase that peaked by 4 h and a rapid decline that reached approximately 5-10% that of untreated cells by 24 h of treatment. Staurosporine induced apoptosis in these cells as determined by the appearance of internucleosomal DNA fragmentation and punctate nuclear morphology. The maximal stimulation of DNA-PK activity preceded significant morphological changes that occurred between 4 and 8 h (40% of total number of cells) and increased with time, reaching 70% by 48 h. Staurosporine had no effect on caspase-1 activity but stimulated caspase-3 activity by 10-15-fold in a time-dependent manner, similar to morphological changes. Similar time-dependent changes in DNA-PK activity, morphology, and DNA fragmentation occurred when the cells were exposed to either 100 microM ceramide or UV radiation. In all these cases the increase in DNA-PK activity preceded the appearance of apoptotic markers, whereas the loss in activity was coincident with cell death. A cell-permeable inhibitor of DNA-PK, OK-1035, significantly reduced staurosporine-induced punctate nuclear morphology and DNA fragmentation. Collectively, these results suggest an intriguing possibility that activation of DNA-PK may be involved with the induction of apoptotic cell death.     

Antibody against single-stranded DNA detects both programmed cell death and drug-induced apoptosis

Cyclophosphamide induced fragmented nuclei in mouse thymic epithelial cells. Agarose gel electrophoresis showed the fragmentation of the DNA extracted from mouse thymus exposed to cyclophosphamide. The cell death induced by cyclophosphamide was considered to be apoptotic. Polyclonal antibody against single-stranded DNA was used immunohistochemically to detect apoptotic cell death in thymic epithelial cells. This antibody also detected programmed cell death in the interdigital necrotic zone of the mouse limb plate on day 14 of gestation, and in the ganglion of the trigeminal nerve on day 13 of gestation. These results show that the antibody specific for single-stranded DNA detected both drug-induced apoptosis and programmed cell death during embryogenesis.