Mark E. Wilder

Radiobiology of ultrasoft X rays. I. Cultured hamster cells (V79)

Ultrasoft X rays (approximately less than keV) provide a useful probe for the study of the physical parameters associated with the induction of biological lesions because the spatial scale of their energy depositions is of nanometer dimensions, comparable to that of critical structures within the cell. We report on cell-killing experiments using cultured hamster cells (V79) exposed to carbon K (0.28 keV), aluminum K (1.5 keV), copper K (8.0 keV), and 250 kVp X rays, under oxic and hypoxic conditions, and as a function of cell-cycle phase. Our principal results are: RBE increases with decreasing X-ray energy; OER decreases with decreasing X-ray energy; and cell-cycle response is similar for all X-ray energies. Our RBE results confirm earlier observations using ultrasoft X rays on mammalian cells. The shapes of fitted curves through the data for each energy are statistically indistinguishable from one another, implying that the enhanced effectiveness is purely dose modifying. The results reported herein generally support the view that single-track effects of radiation are predominantly due to very local energy depositions on the nanometer scale, which are principally responsible for observed radiobiological effects.

Radiobiology of ultrasoft X-rays II. Cultured C3H mouse cells (10T1/2)

In the first paper of this series (Radiat. Res. 110, 396-412 (1987], using V79 cells, we reported that the relative biological effectiveness (RBE) of ultrasoft X rays was found to increase with decreasing energy, and the oxygen enhancement ratio (OER) was found to decrease with decreasing energy. In this report, we present RBE and OER results for 10T1/2 cells that are known to grow uniformly flat and are considerably thinner than V79 cells. Thus the variation in dose across the cell nucleus is considerably reduced. The OER results agree well with our earlier V79 results. However, the RBE values for 10T1/2 cells compared to V79 cells are systematically less for all soft X rays and especially for 0.28 keV carbon-K (1.3 compared to 3.4 for V79 cells). Some plausible explanations are presented to reconcile the apparent discrepancy between V79 and 10T1/2 results.

Radiobiology of ultrasoft X-rays III. Normal human fibroblasts and the significance of terminal track structure in cell inactivation

Ultrasoft characteristic X rays from carbon (0.28 keV) are severely attenuated as they pass through biological material, causing a nonuniform distribution of dose to cell nuclei. Complications of studying ultrasoft X rays can be minimized in this context by using cells with very thin cytoplasm and nuclei (e.g., less than the attenuation length of the X rays), and which exhibit a more nearly exponential dose response to cell killing, such as normal human fibroblasts compared with V79 cells. Using this cell system, we report the relative biological effectiveness (RBE) of A1-K and C-K X rays to be near unity. Previous studies of cell inactivation by characteristic carbon X rays gave RBEs of 3 to 4, supporting the idea that localized energy depositions from secondary electrons and primary track ends represent the principal mode of biological action for other low-LET radiations. In part, the reported high RBEs result from the use of mean dose to describe energy deposited within the cell nuclei by these poorly penetrating radiations. Implicit in the use of mean dose is that cellular damage varies linearly with dose within a critical target(s), an assumption that is of questionable validity for cells that exhibit pronounced curvilinear dose responses. The simplest interpretation of the present findings is that most energy depositions caused by track-end effects are not necessarily more damaging than the sparsely ionizing component.

Radiobiology of ultrasoft X rays. IV. Flat and round-shaped hamster cells (CHO-10B, HS-23)

The results reported earlier in this series indicated that the relative biological effectiveness (RBE) of ultrasoft X rays decreases with decreasing cell thickness, approaching unity for the thinnest cells used, plateau-phase human skin fibroblasts (HSF). The possible dependence of RBE on the configuration of the cell nucleus is investigated further in this paper using two CHO cell lines that attach well and have similar intrinsic radiosensitivities to 60Co gamma rays. One of the lines forms monolayers similar to V79 cells, while the other remains more spherical during growth. We find an increasing RBE with decreasing X-ray energy for both of these cell lines, consistent with our results using V79 cells. Also consistent with our results obtained with 10T1/2 and HSF cells, we find an increasing RBE with increasing cell thickness. The possible dependence of RBE on radiosensitivity and the use of the concept of mean dose for ultrasoft X rays is discussed.

Coulter volume cell sorting to improve the precision of radiation survival assays

A new method for measuring cell survival at low doses of ionizing radiation has been developed through the use of flow cytometric cell sorting on the basis of Coulter volume signals. The cell sorter is capable of deflecting a precisely known number of cells directly into culture dishes, thus eliminating any errors associated with cell dilution and volume sampling. The use of Coulter volume signals as the sorting parameter is shown to be noncytotoxic for a variety of cell lines. Comparison of radiation survival curves measured above the 10% survival level by either the cell sorter or standard dilution assay demonstrates the increased precision of the cell sorter technique . Because of these advantages of cell sorting over conventional methods of plating cells, this technique has many applications in the field of radiation biology and other studies of cell survival.

Open, Reconfigurable Cytometric Acquisition System: ORCAS

A digital signal processing (DSP)‐based digital data acquisition system has been developed to support novel flow cytometry efforts. The system flexibility includes how it detects, captures, and processes event data. Custom data capture boards utilizing analog to digital converters (ADCs) and field programmable gate arrays (FPGA) detect events and capture correlated event data. A commercial DSP board processes the captured data and sends the results over the IEEE 1394 bus to the host computer that provides a user interface for acquisition, display, analysis, and storage. The system collects list mode data, correlated pulse shapes, or streaming data from a variety of detector types using Linux, Mac OS X, and Windows host computers. It extracts pulse features not found on commercial systems with excellent sensitivity and linearity over a wide dynamic range. List mode data are saved in FCS 3.0 formatted files while streaming or correlated waveform data are saved in custom format files for postprocessing. Open, reconfigurable cytometric acquisition system is compact, scaleable, flexible, and modular. Programmable feature extraction algorithms have exciting possibilities for both new and existing applications. The recent availability of a commercial data capture board will enable general availability of similar systems.

Use of DiO-C5-3 to improve Hoechst 33342 uptake, resolution of DNA content, and survival of CHO cells☆

Chinese hamster cells (line CHO) stained with either 9 microM Hoechst 33342 (HO) alone or in combination with the membrane potential fluorochrome DiO-C5-3 (DiO) were analyzed using uv laser powers between 25 and 500 mW and sorted for determination of survival by a colony formation assay. The combination of HO-DiO increased fluorescence twofold and provided coefficients of variation (CVs) as low as 3.0% under conditions where viability of cells, even at 500 mW excitation, was unaffected. HO-stained cells yielded CVs of about 8.5% and survivals of approximately 90% under similar analytical conditions. At laser powers of 25 mW, CV values for HO-DiO-stained populations were 4.0% compared to 9.4% for HO-stained cells. Results with another membrane potential dye, rhodamine 123 (R 123), in combination with HO showed no improvement compared to HO-stained cells. No preferential, cell cycle phase-specific killing was observed in either the HO- or HO-DiO-stained populations. CVs of human skin diploid fibroblasts stained with HO or with HO-DiO were comparable over the entire laser power range; however, percentage survival was slightly higher for the HO-DiO-stained populations when analyzed and sorted at the higher power (400-500 mW) range. Long-term cultures of sorted CHO-K1 subpopulations, differing in DNA ploidy, were established from HO-DiO-stained cells. Advantages of this new staining procedure include improved DNA content resolution (low CV values) and the potential use of less expensive FCM uv laser systems coupled with less perturbing excitation powers.

Development of small and inexpensive digital data acquisition systems using a microcontroller‐based approach

Fully digital data acquisition systems for use in flow cytometry provide excellent flexibility and precision. Here, we demonstrate the development of a low cost, small, and low power digital flow cytometry data acquisition system using a single microcontroller chip with an integrated analog to digital converter (ADC). Our demonstration system uses a commercially available evaluation board making the system simple to integrate into a flow cytometer. We have evaluated this system using calibration microspheres analyzed on commercial, slow‐flow, and CCD‐based flow cytometers. In our evaluations, our demonstration data system clearly resolves all eight peaks of a Rainbow microsphere set on both a slow‐flow flow cytometer and a retrofitted BD FACScalibur, which indicates it has the sensitivity and resolution required for most flow cytometry applications. It is also capable of millisecond time resolution, full waveform collection, and selective triggering of data collection from a CCD camera. The capability of our demonstration system suggests that the use of microcontrollers for flow cytometry digital data‐acquisition will be increasingly valuable for extending the life of older cytometers and provides a compelling data‐system design approach for low‐cost, portable flow cytometers.

Chapter 9 Supravital Cell Staining with Hoechst 33342 and DiOC5(3)

Publisher Summary The Hoechst (HO342) dyes are benzimidazole derivatives that have a high specificity for double-helical DNA and bind preferentially to A-T base regions, but do not intercalate. Hoechst 33258 has been used in mouse chromosome-banding studies. This dye was quenched when bound to bromodeoxyuridine (BrdUrd)-substituted DNA and developed a method for detecting regions of sister chromatid exchange in metaphase chromosomes labeled with BrdUrd. Although the technique has been useful for a number of cell types, unfortunately HO342 can be limited in usefulness in many cell systems by poor cell cycle resolution due to limited uptake of the dye through the viable plasma membrane, dye toxicity, and loss of long-term viability following ultra-violet (UV) excitation and cell sorting. Dye uptake and/or retention are cell type-dependent and many cell types, including line Chinese hamster ovary (CHO) cells are particularly refractory in this regard. The quality of the DNA histogram for CHO cells stained with HO342 alone is extremely poor. Such results are not acceptable when attempting to obtain a high degree of accuracy in sorting cells from specific phases of the cell cycle.

Oncogenes and linkage groups: Conservation during mammalian chromosome evolution

Proto-oncogenes, which represent the cellular progenitors of the transforming genes harbored by acute transforming oncogenic retroviruses, have been highly conserved during vertebrate evolution. In this report, we have assigned experimentally a subset of proto-oncogenes (SRC, ABL, FES, and FMS — all related to the SRC family) to Chinese hamster chromosomes by Southern filter hybridization analyses of DNAs isolated from both somatic cell hybrids and flow-sorted hamster chromosomes. These results demonstrate that several autosomal linkage groups containing proto-oncogenes originated prior to the radiation and speciation of mammals and have remained remarkably stable for nearly 80 million years.