Induction of micronuclei in human fibroblasts and keratinocytes by 25 kV x-rays

A relative biological effectiveness (RBE) not much larger than unity is usually assumed for soft x-rays (up to approximately 50 keV) that are applied in diagnostic radiology such as mammography, in conventional radiotherapy and in novel radiotherapy approaches such as x-ray phototherapy. On the other hand, there have been recent claims of an RBE of more than 3 for mammography and respective conventional x-rays. Detailed data on the RBE of soft x-rays, however, are scarce. The aim of the present study was to determine the effect of low-energy x-rays on chromosomal damage in vitro, in terms of micronucleus induction. Experiments were performed with 25 kV x-rays and a 200 kV x-ray reference source. The studies were carried out on primary human epidermal keratinocytes (HEKn), human fibroblasts (HFIB) and NIH/3T3 mouse fibroblasts. Micronucleus (MN) induction was assayed after in vitro irradiation with doses ranging from 1 to 5.2 Gy. Compared to the effect of 200 kV x-rays, 25 kV x-rays resulted in moderately increased chromosomal damage in all cell lines studied. This increase was observed for the percentage of binucleated (BN) cells with micronuclei as well as for the number of micronuclei per BN cell. Moreover, the increased number of micronuclei per micronucleated BN cell in human keratinocytes and 3T3 mouse fibroblasts suggests that soft x-rays induce a different quality of damage. For all cell lines studied the analysis of micronucleus induction by 25 kV soft x-rays compared to 200 kV x-rays resulted in an RBE value of about 1.3. This indicates a somewhat enhanced potential of soft x-rays for induction of genetic effects.     

Induction of proteins and mRNAs after uv irradiation of human epidermal keratinocytes

uv sensitivity of cultured human epidermal keratinocytes was analyzed at different growth conditions and compared with the sensitivity of dermal fibroblasts derived from the same skin specimen. No significant differences in survival curves were found between these two cell types, although keratinocytes grown under standard conditions were slightly more resistant to uv irradiation than fibroblasts. The extracellular concentration of calcium appeared to be critical not only in the regulation of keratinocyte proliferation and differentiation, but also in the uv sensitivity of these cells: keratinocytes grown under conditions which favor cell proliferation (low calcium concentration) are more resistant to uv irradiation than those grown under conditions favoring differentiation (high calcium concentration). Two-dimensional protein gel electrophoresis was used to detect a possible effect of uv irradiation on the accumulation of specific mRNAs in the cytoplasm and/or on the synthesis of specific proteins. Proteins were pulse labeled in vivo with [35S]methionine or synthesized in vitro in rabbit reticulocyte lysates on mRNA isolated from keratinocytes that were irradiated with different uv doses at different periods of time prior to isolation. Alterations in expression were demonstrated for several proteins in both in vivo and in vitro experiments.     

Increased PKC activity in cultured human keratinocytes and fibroblasts after treatment with 1α,25-dihydroxyvitamin D3

1α,25-Dihydroxyvitamin D₃ (10^?12 M to 10^?8 M) caused a dose dependent increase in PKC activity in the solubilized membrane fractions of cultured human keratinocytes and in the cytosolic fractions of cultured human fibroblasts. Maximum activity was induced by 1α,25-dihydroxyvitamin D₃ at 24 h. Sphingosine, which is believed to inhibit PKC mediated biological responses, blunted 1α,25(OH)₂D₃′s inducement of PKC activity in both keratinocytes and fibroblasts. Identical hormone treatment of vitamin D receptor deficient fibroblasts did not increase PKC activity. Treatment of keratinocytes and fibroblasts with 1β,25-dihydroxyvitamin D₃, which is believed to be ineffective in inducing genomic responses, did not induce PKC activity.     

Contraction of collagen by human fibroblasts and keratinocytes

Summary In the process of wound healing keratinocytes and fibroblasts play an important role, keratinocytes in the re-epithelization process and fibroblasts in the process of wound contraction. We have studied the role of human keratinocytes and fibroblasts in the rearrangement of collagen in a collagen lattice model system. Our results revealed that keratinocytes as well as fibroblasts rearrange the collagen lattice; this occurs in a cell number and collagen concentration dependent manner. The optimal gel contraction is obtained in the presence of keratinocytes on the top of and of fibroblasts in the collagen lattice, the situation most closely approaching the in vivo situation. Between the two types of cells, differences in morphologic behavior were observed: when incorporated into the gel the keratinocytes retained their spherical shape throughout the whole culture period, but fibroblasts became elongated and formed extensions. Our data suggest that not only fibroblasts but also keratinocytes may be involved in the process of wound contraction. This work was supported by the Koningin Wilhelmina Fonds (Netherlands Cancer Foundation, grant 84-10).     

Activation of an energy providing response in human keratinocytes after gamma irradiation

We performed a microarray study on human differentiated HaCaT keratinocytes exposed to ionizing radiation (2 or 10 Gy). At 3 h after exposure, more than 150 known and unknown genes were found regulated in irradiated HaCaT keratinocytes. Among the genes regulated at 3 h, those involved in cell energy metabolism appeared to be the most abundant and the most responsive. Two mitochondrial ATP-synthases and several other genes involved in energy producing pathways, such as glucose metabolism, were induced, whereas many genes from energy requiring pathways were shut down. These changes in energy metabolism were confirmed both in normal primary keratinocytes and in HaCaT keratinocytes by RT-PCR and proteins studies. Moreover, measures of intracellular ATP revealed a 50% increase in keratinocytes immediately after irradiation, supporting an energy procurement response. The overall results indicate that irradiation induces an immediate burst of ATP that seems to be a general response of human differentiated keratinocytes to the radiation stress. This article contains Supplementary Material available at http://www.mrw.interscience.wiley.com/suppmat/0730-2312/suppmat/v95.html     

Growth of human keratinocytes and fibroblasts on bacterial cellulose film

Thin films of bacterial cellulose (BC) from a nata de coco culture system were developed, characterized, and investigated for the growth of human keratinocytes and fibroblasts. The average pore diameter and total surface area of the dried BC films estimated by BET were 224 A and 12.62 m(2)/g, respectively. With an film thickness of 0.12 mm, the average tensile strength and break strain of the dried films were 5.21 MPa and 3.75%, whereas those of the wet films were 1.56 MPa and 8.00%, respectively. The water absorption capacity of air-dried film was 5.09 g water/g dried films. For uses in the therapy of skin wounds, the potential biological mechanism of action of BC film was evaluated by using human keratinocytes and fibroblasts. Our results were the first direct demonstration that BC film supported the growth, spreading, and migration of human keratinocytes but not those of human fibroblasts. Expressions of E-cadherin and the alpha-3 chain of laminin confirmed the phenotype of human keratinocytes on BC film.     

人皮肤成纤维细胞在紫外线B照射后的TGF—β和HSP70表达

目的和方法：采用人体皮肤成纤维细胞,观察了紫外线照射后细胞TGF－β表达与HSP70表达水平的相关性。结果：①经不同剂量的紫外线B照射后,TGF－βmRNA表达与HSP70表达水平呈正相关（r=0.906);②应用抗TGF－βⅡ型受体抗体后,在紫外线B照射后细胞培养上清液中的TGF－β含量与细胞HSP70表达水平呈负相关（r=-0.995)。结论：在紫外线B照射诱导人皮肤成纤维细胞表达HSP70的反应过程另TGF－β参与其信号转导。     

Re-evaluation of the RBE of 29 kV x-rays (mammography x-rays) relative to 220 kV x-rays using neoplastic transformation of human CGL1-hybrid cells

Neoplastic transformation of human CGL1-hybrid cells was examined after exposure to 29 kV x-rays (mammography x-rays) and conventional 220 kV x-rays. The study was designed to repeat, under well-defined irradiation and culture conditions, an earlier investigation by Frankenberg et al. (Radiat Res, 2002), and to assess the validity of the high RBE values of 29 kV x-rays that had been reported. The experiments with the two types of x-rays were performed simultaneously and shared the same controls. The transformation yields with both radiation qualities were fitted to the linear-quadratic dependence on absorbed dose, and a corresponding analysis was performed for the data earlier obtained by Frankenberg et al. The transformation yields in the present study exceed those in the earlier investigation substantially, and it appears that the difference reflects inadequate feeding conditions of the cell cultures in the early experiments. The standard error bands of the dose response curves are derived and are seen to be considerably more narrow in the present results. The lowest dose of the 29 kV x-rays was 1 Gy in both studies, and at this dose the RBE vs. the conventional x-rays has now been found to be 2 with a 95% confidence interval of 1.4-2.6. The previous result was about 3.2, but the 95% confidence is very broad for these data. The estimated limit at low doses is 3.4 in the present experiments with a confidence interval that extends from less than 2 to large values.     

Vitamin D3 production by cultured human keratinocytes and fibroblasts

We have demonstrated that monolayers of human cultured newborn foreskin keratinocytes and fibroblasts elaborate vitamin D3 following exposure to UV-B. This in vitro system provides a new means to study those factors (hormones, ions, vitamin D3 metabolites, etc.) that regulate the production of vitamin D3 by human skin cells. Vitamin D3 production was enhanced greatly by using cells that were pre-treated with AY-9944, a non-toxic drug that inhibits cholesterologenesis while elevating cellular levels of 7-dehydrocholesterol, the sterol precursor of vitamin D3. The pre-D3 formed within viable, irradiated cells is transformed to D3 within a matter of hours at 37 degrees C, and keratinocytes proved to be more proficient sources of the vitamin and its metabolites than corresponding skin fibroblasts.     

Clonogenic fibroblasts from the hematopoietic organs of the human embryo and fetus at different gestational ages

Fibroblast precursors of hemopoietic organs of 72 embryos and fetuses 5-27 weeks of age have been studied. The study has shown that the increase in the number of clonogenic fibroblasts took place in the bone marrow and spleen 2-3 weeks before the beginning of hemopoiesis, that is during the period of the highest hemopoietic stem cell concentration. These data suggest possible participation of stromal fibroblasts of hemopoietic organs in the formation of microenvironment for hemopoietic stem cell functioning.     

The RBE-LET relationship for rodent intestinal crypt cell survival, testes weight loss, and multicellular spheroid cell survival after heavy-ion irradiation.

This report presents data for survival of mouse intestinal crypt cells, mouse testes weight loss as an indicator of survival of spermatogonial stem cells, and survival of rat 9L spheroid cells after irradiation in the plateau region of unmodified particle beams ranging in mass from 4He to 139La. The LET values range from 1.6 to 953 keV/microns. These studies examine the RBE-LET relationship for two normal tissues and for an in vitro tissue model, multicellular spheroids. When the RBE values are plotted as a function of LET, the resulting curve is characterized by a region in which RBE increases with LET, a peak RBE at an LET value of 100 keV/microns, and a region of decreasing RBE at LETs greater than 100 keV/microns. Inactivation cross sections (sigma) for these three biological systems have been calculated from the exponential terminal slope of the dose-response relationship for each ion. For this determination the dose is expressed as particle fluence and the parameter sigma indicates effect per particle. A plot of sigma versus LET shows that the curve for testes weight loss is shifted to the left, indicating greater radiosensitivity at lower LETs than for crypt cell and spheroid cell survival. The curves for cross section versus LET for all three model systems show similar characteristics with a relatively linear portion below 100 keV/microns and a region of lessened slope in the LET range above 100 keV/microns for testes and spheroids. The data indicate that the effectiveness per particle increases as a function of LET and, to a limited extent, Z, at LET values greater than 100 keV/microns. Previously published results for spread Bragg peaks are also summarized, and they suggest that RBE is dependent on both the LET and the Z of the particle.     

Reduced PLD repair ability in glutathione synthetase deficient human fibroblasts after UV irradiation

Using a human cell strain deficient in glutathione synthetase and a related control, the role of glutathione in repair mechanisms has been investigated. UV light has been used in order to avoid the interaction between thiols and free radicals. When potentially lethal damage repair is completed, deficient cells in plateau phase exhibit smaller surviving fractions than do control cells. The ratio of surviving fractions in control/deficient cells is about 2 for the same radiation dose. These results indicate that thiols and especially GSH are involved in repair mechanisms.     

A cell survival model with saturable repair after irradiation

Summary A cell survival model with saturable repair has been developed. The model is based on the assumption that after irradiation the cell can be in one of the following three states: In state A the viable cells have no lesions, in state C cells carry lethal lesions and in state B cells exhibit potentially lethal lesions which can be repaired by a saturable enzymatic repair system or which are converted to lethal lesions. The model incorporates five parameters. The applicability of the model has been demonstrated by fitting 11 experimental data sets obtained with different cell lines, different kinds of radiation and variable repair times simulated by liquid holding recovery or inhibition of repair processes by different agents. The model and the results obtained are discussed in relation to published results.Dedicated to Prof. K.G. Zimmer on his 75th birthday