Melatonin and melanocyte functions.

The effect of melatonin on melanocyte functions was studied by incubating whole-skin organ cultures with melatonin, as well as by assessing melatonin positivity in melanocytes versus dendricity and pigmentation, when arrested in the G(2) phase. From this study, it was observed that melatonin positivity is inversely related to the length of UV exposure. Increasing melatonin levels are related to decreasing dendricity and pigment donation during photoresponse in the G(2) phase. Melanocyte melatonin positivity increases with dark incubation and is higher with a pulse of UV exposure after dark incubation with melatonin. This increase is associated with a doubling of melanocyte number after dark incubation and a further doubling upon exposure to a pulse of UV. The melanocytes directly take up melatonin, which results in a marked increase in their numbers. Thus, extreme caution should be exercised when using melatonin as an anticancer drug. This finding also simulates the melanocyte repopulation of the skin with repigmentation during summer in polar animals.

More cerebellar granule cells following prenatal low-dose X-irradiation.

It was the aim of this study to estimating and comparing the total number of granule and Purkinje cells in the cerebellum of 180-day-old mice following a prenatal low-dose X-irradiation (50 cGy) at day 13 of gestation. Using the optical fractionator we found an expected, significant decrease of the total number of Purkinje cells (-21.1%; P=0.041) and a surprising, significant increase of the total number of granule cells (+23.1%; P=0.026) if comparing prenatally irradiated with sham-irradiated mice. The possible molecular basis of these seemingly paradoxical results is discussed.

Schwann cells transplanted into normal and X-irradiated adult white matter do not migrate extensively and show poor long-term survival.

Although Schwann cells are able to enter the central nervous system (CNS) when the integrity of the glia limitans is disrupted, their ability to migrate through intact CNS remains unclear. We have addressed this issue by transplanting lacZ-labeled Schwann cells into normal adult spinal cord white matter, and into X-irradiated spinal cord (an environment that, unlike normal spinal cord, permits the migration of transplanted oligodendrocyte progenitors). Schwann cell cultures, obtained from neonatal rat sciatic nerve and expanded using bovine pituitary extract and forskolin, were transfected by repeated exposure to retroviral vectors encoding the Escherichia coli lacZ gene. The normal behavior of the transduced cells was confirmed by transplantation into a nonrepairing area of demyelination in the spinal cord, where they formed myelin sheaths around demyelinated axons. A single microliter containing 4 x 10(4) cells was then transplanted into unlesioned normal and X-irradiated white matter of the spinal cord of adult syngeneic rats. One hour after injection, blue cells were observed as a discrete mass within the dorsal funiculus with a longitudinal distribution of 2-3 mm, indicating the extent of passive spread of the injected cells. At subsequent survival times (1, 2, and 4 weeks posttransplantation) blue cells had a distribution that was no more extensive than that seen 1 h after transplantation. However, the number of Schwann cells declined with time following transplantation such that at 4 weeks there were few surviving Schwann cells in both X-irradiated and nonirradiated spinal cord. These results indicate that transplanted Schwann cells do not migrate extensively and show poor long-term survival when introduced into a normal CNS environment.

[The thymus structure during radiation exposure in antenatal ontogeny]. / Stroenie timusa pri radiatsionnom vozdeistvii v antenatal'nom periode ontogeneza.

Peculiarities of thymus morphogenesis were studied in mice subjected to irradiation in antenatal ontogenesis by means of anatomic, histological and morphometric methods. Dosed action of X-ray irradiation up to 25 cGy in sum and stress factors were established not to impair sharply embryonal thymus morphogenesis but is accompanied with reactive reorganization in the organ. Dosed irradiation over 25 cGy in sum caused prognostically unfavourable disturbances of embryonal thymus morphogenesis manifested as hyperplastic and degenerative dystrophy changes.

Establishment of a biological indicator for the radiation and safety of diagnostic ultrasound using apoptosis.

We have studied, by a nonisotopic in situ end-labeling (ISEL) technique, the frequency of apoptosis in the intestinal crypt cell of adult mice and in the external granular layer(EGL) of the cerebellum of fetuses by gamma-ray irradiation from 60Co or diagnostic ultrasound exposure. The extent of changes following 200 cGy(1090 cGy/min) was studied at 2, 4, 6, 8, 12, or 24 hours after exposure. The maximal frequency was found 4-8 hours after exposure. The mice that received 18, 36, 54, 108, 198, 396 cGy of gamma-rays or diagnostic ultrasound (7.5 MHz, 4.2 mW, ISPTA = 7.9 mW/cm2, IsppA = 114.3 W/cm2) for 10 or 30 minutes were examined 6 hours after irradiation. Measurements performed after gamma-ray irradiation showed a dose-related increase in apoptotic cells in each of the mice studied. The dose-response curves were analyzed with alpha linear-quadratic model: the frequency (number per crypt) of apoptotic cells in the intestinal crypt of adult mice was y = (0.0386 +/- 0.004204)D + (-0.0000535 +/- 0.00001120)D2 + 0.15475(r2 = 0.952, y = apoptotic cell per crypt cell, D = dose in cGy), and the frequency (percentage of apoptotic cell in the EGL) of apoptotic cell in the EGL of fetus was y = (0.1349 +/- 1.175)D + (-0.001522 +/- 0.334)D2 + 0.0477(r2 = 0.981, y = % of apoptotic cell in the EGL, D = dose in cGy). In the experiment of ultrasound exposure, the frequencies of apoptosis were 0.181 +/- 0.055(10 minutes exposure) and 0.325 +/- 0.294 (30 minutes exposure) in the crypt cells and 0.106 +/- 0.130% (10 minutes exposure) and 0.167 +/- 0.220%(30 minutes exposure) in the EGL. We estimated the relative dose of the yield from the experiment with ultrasound by substituting the yield from ultrasound exposure into the curue from the gamma-irradiation. The relative doses of ultrasound exposure compared with gamma-irradiation were 0.692 cGy(10 minutes exposure) and 1.334 cGy(30 minutes exposure) in the experiment for crypt cells and 0.432 cGy(10 minutes exposure) and 0.885 cGy(30 minutes exposure) in the experiment for EGL. Although there is presently no evidence to indicate that diagnostic ultrasound involves a significant risk, it is not wise to use diagnostic ultrasound indiscriminately.

Morphological alteration of X-ray induced partially transformed human cells by transfection with a small c-myc DNA sequence.

During attempts to transform a normal human fibroblast strain (GM730) by X-irradiation, we obtained a partially transformed cell strain (GM730pt) which demonstrates several aspects of the transformed phenotype including morphological changes, increased saturation density, growth in soft agar, and focus formation in long-term cultures. When GM730pt cells were transfected with the feline c-myc gene, morphology of the cells changed dramatically following seven days of expression. Transfection of other plasmid DNAs or oncogenes such as pUC8, pSV2neo, src, sis, and H-ras had little or no effects on the phenotype of GM730pt cells. On the other hand, a gel purified, small fragment of c-myc DNA had a complete cell alteration activity. Furthermore, Bal 31 deletion and M13 sequencing experiments showed that the alteration seen in GM730pt cells is delimited to a 24 nucleotide stretch (active myc element) from the second intron of the feline c-myc gene that contains a T-rich sequence.

Cellular communication in clone 9 cells exposed to magnetic fields.

Magnetic-field exposure (45 Hz B(a.c.) over a flux density range of 7.7 to 49.9 microT r.m.s. with parallel B(d.c.) of 36.6 microT) has been reported by Blackman and coworkers to inhibit gap junction intercellular communication in Clone 9 cells treated with chloral hydrate for 24 h prior to field exposure in accord with predictions of the ion parametric resonance model. The study reported here is an attempt to reproduce this effect. Baseline experiments showed that growth in culture and state of confluence at time of addition of chloral hydrate were comparable in both laboratories. PMA inhibited cell-cell communication in a dose-dependent manner, similar to the results of Blackman and coworkers, whereas cells in the present study were somewhat more sensitive to chloral hydrate than reported by Blackman and coworkers. A total of 38 exposure experiments were undertaken using a 45 Hz magnetic field with a flux density of 23.8 microT r.m.s., in parallel with a 36.6-microT static magnetic field for 40 to 45 min, after pretreatment with 2.5 mM chloral hydrate for 24 h. In 14 unblinded experiments, a small but statistically significant effect of magnetic-field exposure was observed, but due to the subjective nature of the assay, it was deemed essential to carry out blinded experiments. The remaining 24 experiments were blinded. In 15 blinded experiments, cells purchased from the American Type Culture Collection and grown only in this laboratory were used, while in 9 experiments, the cells had originally been grown in Blackman's laboratory and were subsequently sent to this laboratory. There was no statistically significant effect of magnetic-field exposure on gap junction intercellular communication in these blinded experiments using either cell line.

Radiation induced cell loss in rat submandibular gland and its relation to gland function.

PURPOSE: To understand early and late radiation-induced loss of function of the submandibular gland, changes in cell number were documented and correlated with data on gland function. Modulation of the radiation effect by sialogogues was used to investigate possible mechanisms of action. MATERIALS AND METHODS: Rats were irradiated with a single dose of 15 Gy of X-rays after pre-treatment with either saline, the muscarinic receptor agonists methacholine or pilocarpine, the adrenergic receptor agonist phenylephrine or methacholine plus phenylephrine. Before and 1-240 days after irradiation, submandibular saliva flow rate was measured. At the same time points and from comparable animals submandibular glands were carefully extirpated, weighed and prepared for light microscopic examination. RESULTS: Soon after irradiation (<30 days) no significant loss of cells was observed, whereas the gland function was severely compromised. Sialogogue pre-treatment attenuated the radiation-induced loss of gland function. At later intervals a considerable loss of acinar cells and to a lesser extent loss of granular convoluted tubule cells were observed. Gland function subsequently declined slowly. Pre-treatment with sialogogues gave transient protection against cell loss and loss of gland function. CONCLUSIONS: The lack of cell loss observed soon after irradiation indicates that the observed reduction in gland function was caused by a compromised functioning of the acini. The later loss of cells is probably due to death of cells that normally proliferate, leading to a further reduced secretory capacity. Protection of gland morphology and function by sialogogues at later times must therefore involve resistance of progenitor cells to radiation-induced cell death.

Colon mucosal cells after high-dose fractional irradiation.

The aim of this study was to investigate histological and stereological changes in cryptal enterocytes, mucosal lymphocytes and mast cells 10 days after irradiation. For experimental model, 24 Beagle dogs 1-2 years old were used. Twelve dogs were irradiated 20 days with 32 Gy over the whole pelvis and tail. Another 12 dogs represented a control group. For the detection of apoptosis, the TUNEL technique was used. Histological and stereological analyses were performed using a Wild sampling microscope M 1000. In the irradiated group, volume density (P < 0.01), numerical density (P < 0.05) and average volume of lymphocytes (P < 0.001) were significantly lower than in the nonirradiated group. Numerical areal density of mast cells in the irradiated group was also significantly lower (P < 0.05). Volume density (P < 0.001) and average volume of mast cells (P < 0.001) were significantly higher in the irradiated group. The results of our experiments show that irradiation causes injury and loss of lymphocytes and mast cells in the colon mucosa. Apoptosis was detected in enterocytes and lymphocytes in the irradiated group and in nonirradiated group in equal numbers (2.5+/-0.3 vs. 2.3+/-0.3; ns.), suggesting that 10 days after high-dose irradiation, the cell loss is not due to apoptosis.

DNA damage-related gene expression as biomarkers to assess cellular response after gamma irradiation of a human lymphoblastoid cell line.

Since defects in molecular mechanisms controlling DNA repair, cell cycle checkpoint and apoptosis could modify cellular sensitivity to DNA damaging agents, we have conducted a multiparametric molecular analysis for better understanding the regulation pathways leading to cell survival or cell death after irradiation. Using a human lymphoblastoid cell line, we have analysed, following gamma irradiation (0.5, 1, 2, 4, 8, 16 and 32 Gy, at 0.5, 24, 48 and 72 h after treatment), the correlation between proliferation, cell cycle analysis, apoptosis and micronuclei frequency with the expression of TP53, WAF1, DNA LIGASE 1, PCNA, BAX, BLC-2, BAK, DAD1, ICH1-Long and -Short forms mRNAs. We have found that whereas TP53, BAK, ICH1-Short form, and DAD1 were expressed at constant levels, WAF1, PCNA, BAX were up-regulated, ICH1-Long form, DNA LIGASE 1, and BCL-2 were down-regulated. These modifications of expression were significantly correlated with doses, survival, proliferation, cell cycle delays, and apoptosis. A positive correlation of WAF1 and BAX, and a borderline negative correlation with BCL-2 expressions were observed with micronuclei frequency for doses ranging from 0.5 to 4 Gy. In conclusion, our data clearly demonstrate that gene expression profiling, which is easier and more rapid to conduct than the assessments of classical phenotypic responses, could be useful to improve knowledge concerning pathways involved in cellular response to irradiation, knowing that such biomarkers could constitute tools to assess radio-sensitivity/radio-resistance. Oncogene (2000) 19, 916 - 923.

Effect of telomere and telomerase interactive agents on human tumor and normal cell lines.

Shortening of telomeres along with an up-regulation of telomerase is implicated in the immortality of tumor cells. Targeting either telomeres or telomerase with specific compounds has been proposed as an anticancer strategy. Because telomerase activity and telomeres are found in normal cells, telomere or telomerase targeting agents could induce side effects in normal tissues. We evaluated the effects of telomere and telomerase interactive agents in human tumor and normal cell lines to try to determine the potential side effects those agents might induce in patients. Toxicity of the G-quadruplex interactive porphyrins (TMPyP4, TMPyP2) and azidothymidine (AZT) were tested using a cell-counting technique against normal human cell lines (CRL-2115 and CRL-2120, fibroblasts; NHEK-Ad, adult keratinocytes; CCL-241, small intestinal cells; NCM 460, colonic mucosal epithelial cells) and human tumor cell lines (MDA-MB 231 and Hs 578T, breast cancer; SK-N-FI, neuroblastoma; HeLa, cervix cancer; MIA PaCa-2, pancreatic cancer; HT-29 and HCT-116, colon cancer; DU 145, prostatic cancer cell line). Telomerase activity of these cell lines was measured by a non-PCR-based conventional assay. The effects of TMPgammaP2, TMPyP4, and AZT were also evaluated against normal human bone marrow specimens, using a granulocyte-macrophage colony-forming assay (CFU-GM). AZT showed very low cytotoxic effects against normal and tumor cell lines, with the IC50 values above 200 microM. The IC50 values for TMPyP2 and TMPyP4 in normal human cell lines were in the range of 2.9-48.3 microM and 1.7-15.5 microM, respectively, whereas in tumor cell lines the IC50 values were 11.4-53 microM and 9.0-28.2 microM, respectively. Within the tissue types, keratinocytes were more sensitive to TMPyP4 than fibroblasts, and small intestinal cells were more sensitive than colonic mucosal epithelial cells. The IC50 for TMPyP2 and TMPyP4 in the normal marrow colony-forming assays were 19.3 +/- 5.1 microM and 47.9 +/-1.0 microM, respectively. In conclusion, the in vitro cytotoxicity of the telomere interactive agent TMPyP4 is comparable in human tumor and normal cell lines, which indicates that TMPyP4 could have effects on normal tissues.

Disease control of uterine cervical cancer: relationships to tumor oxygen tension, vascular density, cell density, and frequency of mitosis and apoptosis measured before treatment and during radiotherapy.

Identification of biological parameters of major importance for the control of malignant diseases can be useful for the design of optimal treatment regimes for individual patients. Tumor oxygen tension (pO2), vascular density, cell density, and frequency of mitosis and apoptosis were measured before treatment (40 patients) and after 2 weeks of radiotherapy (22 patients) in patients with uterine cervical cancer. The aim was to investigate whether one of the parameters was more important for disease control than the others. Three sets of data were considered; the pretreatment parameters, the parameters measured after 2 weeks of radiation, and the changes in the parameters during this time. The pO2 was measured polarographically; the other parameters were determined by histological analyses of tumor biopsies. Hypoxic subvolume (HSV5), ie., the fraction of pO2 readings <5 mm Hg multiplied with tumor volume, showed the strongest correlation to control. Patients with a small HSVs before treatment had a higher control probability after a median follow-up time of 50 months than patients with a large HSV5 (P < 0.001). All other parameters or changes in parameters showed impaired correlation to control compared with pretreatment HSV5. The present results suggest that pretreatment oxygenation is more important for disease control of cervical cancer than the oxygenation after 2 weeks of radiotherapy or the changes in oxygenation during this time. Moreover, vascular density, cell density, and frequency of mitosis and apoptosis before treatment or after 2 weeks of therapy are probably not as important as pretreatment oxygenation as well. Although significant correlations between disease control and some of the parameters other than pretreatment oxygenation can occur in studies based on a large number of patients, the specificity of these parameters in the prediction of control is probably not as high as for oxygenation.

Decreased density of epidermal dendritic cells in melanocytic naevi: the possible role of in vivo sun exposure.

Melanocytic naevi are benign skin tumours that originate in the epidermis. The pathogenesis of naevi and cutaneous malignant melanoma has been linked to sun exposure. This study evaluates alterations in the density of immunologically active epidermal dendritic cells (EDCs) in naevi in response to sun exposure. Immunohistologically stained sections of 266 naevi from patients from Israel (n=135) and Germany (n=131) were evaluated. The proportion of naevi with decreased density of HLA-DR+ (dDR+) and CD1a+ (dCD1a+) EDCs was analysed according to country, last exposure to sunlight, anatomical location and histological subtype. The risk of dDR+ was found to be linked to residence in Israel compared with Germany (odds ratio [OR] = 4.2; 95% confidence interval [CI] = 2.0-8.9), suggesting a latitude-dependent effect. Naevi removed in summer had a higher risk of dCD1a+ (OR = 4.7; 95% CI = 2.3-9.8) compared with those removed in winter. The most conspicuous dDR+ among the German cases, and dCD1a+ among the Israelis, occurred in naevi located on commonly exposed skin. The similar densities of EDCs in the lesional and perilesional skin of the majority of the naevi indicates that the underlying naevus cells have no effect on EDC density. It is not unlikely that an altered immune response due to dDR+ and dCD1a+ in sun-exposed skin in the vicinity of naevi contributes to the subsequent melanoma risk in highly susceptible individuals.

Differential modulation of human epidermal Langerhans cell maturation by ultraviolet B radiation.

UVB irradiation of the skin causes immunosuppression and Ag-specific tolerance in which Langerhans cells (LC) are involved. We tested the effect of UVB on LC that had migrated out of cultured epidermal sheets derived from the skin that was irradiated ex vivo (200, 400, 800, or 1600 J/m2). Two separate subpopulations of LC were distinguished: large-sized LC with high HLA-DR expression, and HLA-DR-low, small LC. UVB stimulated the maturation of the former LC subset as demonstrated by enhanced up-regulation of CD80, CD86, CD54, CD40, and CD83 and reduced CD1a expression in comparison with unirradiated controls. In contrast, the latter LC exhibited little or no up-regulation of these molecules except for high CD1a expression and high binding of annexin V, indicating that they were apoptotic, although their CD95 expression was relatively low. Stimulation of enriched LC with CD40 ligand-transfected cells and IFN-gamma revealed that the release of IL-1beta, IL-6, IL-8, and TNF-alpha was enhanced by UVB. In comparison with HLA-DR-low LC, HLA-DR-high LC were the principal IL-8 producers as demonstrated by intracellular cytokine staining, and they retained more accessory function. There was no detectable secretion of IL-12 p70, and IL-18 production was neither affected by any stimulus nor by UVB. These results suggest a dual action of UVB on LC when irradiated in situ: 1) immunosuppression by preventing maturation and inducing apoptotic cell death in part of LC, and 2) immunopotentiation by enhancing the up-regulation of costimulatory molecules and the production of proinflammatory cytokines in another part.

Upregulation of vascular endothelial growth factor is associated with radiation-induced blood-spinal cord barrier breakdown.

The pathogenesis of radiation-induced injury to the central nervous system (CNS) remains unclear. Dysfunction of the blood-brain barrier (BBB) is associated with radiation-induced white matter lesions. The aim of this study was to determine if vascular endothelial growth factor (VEGF) is implicated in radiation-induced BBB disruption. Adult rats were irradiated with a single dose of 8 or 22 Gy to the spinal cord from C2 to T2. At various times up to 20 weeks following irradiation, blood-spinal cord barrier (BSCB) permeability was assessed using immunohistochemistry with anti-albumin antibody. Cell proliferation was assessed using bromodeoxyuridine (BrdU), and endothelial cell identity was assessed morphologically and using immunostaining for factor VIII-related antigen. Expression of VEGF protein and message was assessed using immunohistochemistry and in situ hybridization respectively. In the unirradiated rat spinal cord, there was no evidence of albumin immunoreactivity and little evidence of VEGF expression. After a dose of 22 Gy, focal albumin staining in white matter was observed at 16 weeks. Diffuse staining was seen at 20 weeks and was associated with necrosis and demyelination in white matter. This was associated with a significant increase in white matter glial cells that showed immunoreactivity and in situ hybridization signal for VEGE VEGF expressing cells showed dual immunoreactivity for glial fibrillary acidic protein. No increase in VEGF positive cells was observed in gray matter after 22 Gy. After a dose of 8 Gy, there was no increase in VEGF expression or albumin immunostaining in either white or gray matter. Microvessel endothelial cell density showed a trend towards a decrease with time after 22 Gy as compared with 8 Gy or unirradiated controls. BrdU immunostaining provided no evidence for endothelial cell proliferation in control or in the irradiated spinal cord. It is concluded that radiation-induced BSCB dysfunction is associated with upregulation of VEGF in astrocytes without associated endothelial proliferation. The temporal and spatial association of VEGF upregulation with the white matter lesions suggests a role of VEGF in radiation-induced late CNS injury.

Phenotype modulation of cellular UV-sensitivity.

Mammalian cell shape is critically important to cell differentiation, apoptosis, cell division, and growth arrest. In the present study we examined the relationship among cell density, cell phenotype (which include shape and coupling) and cell survival using the human A549, H596 and H520 non-small cell lung carcinoma lines. Thus, cells from monolayers, aggregated and suspended cultures at different densities were exposed to UV-radiation and both the density and the phenotype of the cells induce shifts in cellular growth rate. Except in suspended cultures, we observed a UV-sensitivity closely related to the proliferative status of the cells. The variability of the cellular response to UV were investigated taking into account the shape and the coupling potential of the cell lines, suggesting that an intercellular-contact mechanism provides further protection against UV-radiation damage.

The effect of UV-B irradiation on primary and secondary HSV-1 infections in interleukin-4 knockout mice.

Ultraviolet B (UV-B) irradiation suppresses cell-mediated immunity and may lead to increased susceptibility to infectious diseases. Limited evidence suggests that exposure promotes a T helper (Th) 2 type of cytokine response with abrogation of a Th1 response. Several putative mediators of UV-induced immunosuppression have been identified, of which interleukin-4 (IL-4), an example of a Th2 cytokine, is one. Primary and secondary epidermal infections with herpes simplex virus (HSV) type 1 in IL-4 knockout (IL-4-/-) mice and the parent strain Bb 129 strain (IL-4+/+) were investigated using clinical features, phenotyping of cells from lymph nodes draining the sites of infection and lymphoproliferation assays. The IL-4-/- mice were more susceptible to both primary and secondary HSV infections than the parent mice. The percentage of lymph node dendritic cells (DC) expressing Ia was 45 in the IL-4+/+ mice but only 18 in the IL-4-/- strain, and the lymph node cells from infected IL-4-/- mice were less able to respond in vitro to HSV than those from the parent strain. Following suberythemal UV-B irradiation, more severe primary and secondary lesions resulted in both strains. There were fewer lymph node DC expressing Ia in both strains and this change was accompanied by suppression of the lymphoproliferation induced by HSV which was due to an effect on DC function rather than on the proliferative ability of the responding lymphocytes. UV-B exposure had no effect on ICAM-1 or B7.2 expression on the DC. Thus IL-4 seems to protect mice against HSV infection, and no evidence was obtained for the involvement of IL-4 in the UV-induced immunomodulation which results in more severe cutaneous HSV infections.

Exogenous expression of beta-catenin regulates contact inhibition, anchorage-independent growth, anoikis, and radiation-induced cell cycle arrest.

beta-Catenin is an important regulator of cell-cell adhesion and embryonic development that associates with and regulates the function of the LEF/TCF family of transcription factors. Mutations of beta-catenin and the tumor suppressor gene, adenomatous polyposis coli, occur in human cancers, but it is not known if, and by what mechanism, increased beta-catenin causes cellular transformation. This study demonstrates that modest overexpression of beta-catenin in a normal epithelial cell results in cellular transformation. These cells form colonies in soft agar, survive in suspension, and continue to proliferate at high cell density and following gamma-irradiation. Endogenous cytoplasmic beta-catenin levels and signaling activity were also found to oscillate during the cell cycle. Taken together, these data demonstrate that beta-catenin functions as an oncogene by promoting the G(1) to S phase transition and protecting cells from suspension-induced apoptosis (anoikis).

[Quantifying the damage to conjunctival and corneal cell cultures caused by uv light using CASY (Cell Analysis System). A method for reducing animal experiments]. / Quantifizierung der Schädigung von Bindehaut- und Hornhautzellkulturen durch UV-Licht mit Hilfe des CASY (Zellanalyse)-Systems. Eine Methode zur Reduktion von Tierversuchen.

BACKGROUND: By depletion of stratospheric ozone, enhanced levels of UV radiation reach the surface of the earth. Exposure of the anterior parts of the eye to UV radiation leads to irritation of the conjunctival and corneal cells. METHOD: By the CASY (cell analysis) system the influence of UV radiation on cultures of conjunctival and corneal cells was observed by determination of the cell counts, cell diameter, and the cell volume. RESULTS: By comparing these parameters with the control, damage of the conjunctival and corneal cells by UV radiation can be determined within 2 s of exposure of the cells in quartz glass vials to the UV light. CONCLUSION: By the CASY system the dramatic influence of UV radiation on cells of the anterior parts of the eye can be determined. This system enables objective statements on the cytotoxicity of radiation, chemical substances and drugs on cell cultures without the use of radioactive methods, complicated determination of cell metabolism or staining methods which are difficult to standardize. Also, studies on animals can be reduced by the CASY system.

Neuron loss in the mouse hippocampus following prenatal injection of tritiated thymidine or saline.

To investigate possible effects of injections of tritiated thymidine ([3H]dThd) into pregnant mice or the injection procedure itself on the proliferation of neuronal precursor cells in the fetuses, pregnant mice received intraperitoneal injections of either [3H]dThd or saline on embryonic days 12, 14, and 19, while their offspring remained untreated. A second group of dams was not injected but their male offspring received a subcutaneous injection of again either [3H]dThd or saline on postnatal day 10. Then total numbers of hippocampal pyramidal cells (areas CA1 to CA3) and granular cells (dentate gyrus) were determined stereologically for 20-day-old as well as for 80-day-old male pups. No significant differences were found for the mean total number of pyramidal cells between the investigated groups of pups. However, the mean total number of granular cells was significantly reduced in those groups in which the dams had received an intraperitoneal injection, irrespective of whether [3H]dThd or saline was injected. This revives the repeated warning in the literature to consider the effect of the injection procedure on the developing brain when interpreting possible effects of agents administered during pregnancy.