Stephen L. Snyder

16,16-Dimethyl prostaglandin E2 increases survival in mice following irradiation

16,16-Dimethyl prostaglandin E2 (DiPGE2), a stable analog of PGE2, increases the LD50/30 survival in CD2F1 male mice when given prior to ionizing radiation. Subcutaneous administration of 40 micrograms of DiPGE2 30 min prior to 60Co gamma irradiation extends the LD50/30 from 9.39 Gy in the control animals to 16.14 Gy in DiPGE2 treated, with a dose reduction factor of 1.72 [95% confidence limits: 1.62, 1.82]. The degree of protection is dependent on both the time of administration and the dose of the prostaglandin. Ten micrograms administered 5 min prior to receiving a lethal dose of 10 Gy provides 90% survival but only 10% survival if administered 30 min prior to irradiation. Experiments to determine the in vivo concentration of DiPGE2 in organs postinjection show increased levels over time, but these are not correlated with protection. At 30 min after injection, as much as 80% of the DiPGE2 present in the spleen and plasma is unmetabolized. These results suggest that the protection results from the physiologic action of DiPGE2 rather than direct in vivo detoxification of radicals.

The Effect of γ Radiation on DNA Methylation@@@The Effect of g Radiation on DNA Methylation

The effect of 60Co gamma radiation on DNA methylation was studied in four cultured cell lines. In all cases a dose-dependent decrease in 5-methylcytosine was observed at 24, 48, and 72 h postexposure to 0.5-10 Gy. Nuclear DNA methyltransferase activity decreased while cytoplasmic activity increased in irradiated (10 Gy) V79A03 cells as compared to controls. No DNA demethylase activity was detected in the nuclei of control or irradiated V79A03 cells. Additionally, gamma radiation resulted in the differentiation of C-1300 N1E-115 cells, a mouse neuroblastoma line, in a dose- and time-dependent manner. These results are consistent with the hypothesis that (1) genes may be turned on following radiation via a mechanism involving hypomethylation of cytosine and (2) radiation-induced hypomethylation results from decreased intranuclear levels of DNA methyltransferase.

Radioprotective properties of detoxified lipid A from Salmonella minnesota R595

In the past, the toxicity of bacterial lipopolysaccharide (LPS) or its principal bioactive component, lipid A, has detracted from their potential use as radioprotectants. Recently, a relatively nontoxic monophosphoryl Lipid A (LAM) that retains many of the immunobiologic properties of LPS has been isolated from a polysaccharide deficient Re mutant strain of Salmonella minnesota (R595). The ability of the native endotoxic glycolipid (GL) from S. minnesota (R595) as well as diphosphoryl lipid A (LAD) and nontoxic monophosphoryl lipid A (LAM) derived from GL to protect LPS responsive (CD2F1 or C3H/HeN) and nonresponsive (C3H/HeJ) mice from 60Co gamma irradiation has been studied. Administration of GL, LAD, or LAM to CD2F1 or C3H/HeN mice (400 micrograms/kg) 24 h prior to exposure provided significant radioprotection. No protection was afforded to C3H/HeJ mice. Experiments were also conducted to determine the relative abilities of GL, LAD, and LAM to stimulate hematopoiesis as reflected by the endogenous spleen colony (E-CFU) assay. Protection was not correlated with the ability of these substances to increase E-CFUs or to induce colony-stimulating activity (CSA).

Radiation-induced alterations in serum and splenic lysosomal hydrolases of rat.

Abstract : Exposure to ionizing radiation may result in periods of severe stress, nausea and debilitation. The onset of these symptoms as well as other manifestations of radiation sickness could be related to the release of certain proteolytic enzymes, called cathepsins, from lysosomes. In order to examine the possibility that lysosomal proteases might be an etiological factor in the acute radiation syndrome, the levels of cathepsins B1 and D were measured in the serum and spleen homogenates of rats for a period of 22 days following exposure to 1000 rads gamma radiation from Cobalt 60. In addition, beta-glucuronidase, an enzyme frequently employed to measure lysosomal enzyme release, was determined. The median level of serum beta-glucuronidase was elevated only on day 4; significant decreases occurred on days 1, 2 and 9 through 22. Dramatic elevations in serum cathepsin B1 were observed through most of the investigation. The median cathepsin B1 value in serum was significantly elevated on days 3-6 and 9-15. Splenic beta-glucuronidase is increased on day 1, and greatly elevated on days 3-7, after which it declines toward normal values. Splenic cathepsin D rapidly decreased and remained depressed. A biphasic increase in splenic cathepsin B1 on days 1-4 and 10-22 was also observed. The results of this investigation are consistent with the hypothesis that activation and release of lysosomal hydrolases may be an important pathologic event in the later as well as early stages of the acute radiation syndrome. Three possible mechanisms of injury evoked by radiation-induced changes in lysosomal hydrolases are discussed.

Radiation effects on diamine oxidase activities in intestine and plasma of the rat

Diamine oxidase (DAO; EC 1.4.3.6) activity was measured in plasma and in ileal tissue homogenates prepared from male Sprague-Dawley rats euthanized at 1-15 days after acute whole-body irradiation with 14.5-MeV electrons. Animals irradiated with 1 Gy showed no diminution in plasma and ileal DAO activities through Day 13 relative to nonirradiated controls. Animals irradiated with 5, 10, and 12 Gy displayed marked declines in ileal DAO activity, with levels reaching a nadir on Day 3. This was paralleled by a decrease in plasma DAO activity in all three dose groups. Recovery of ileal and plasma DAO levels was later seen as early as Day 4 in animals irradiated with 5- and 10-Gy doses, but animals receiving 12 Gy did not survive beyond Day 3. The relationship between radiation dose and levels of plasma and ileal DAO on Day 3, the time of maximum decrease at all doses, was also investigated. Ileal DAO activity decreased almost linearly between 2 and 8 Gy. Plasma DAO activity closely paralleled the dose dependency of the ileal levels. These data suggest that plasma DAO activity might be useful as a biologic marker of intestinal epithelial injury and recovery after acute radiation exposure.

Quantification of Gut Injury with Diamine Oxidase Activity: Development of a Fission Neutron RBE and Measurements with Combined Injury in Mouse Models

Plasma and small intestine diamine oxidase (DAO) activities were measured on Days 2, 4, and 6 following irradiation of mice with a range of doses of fission neutrons and 60Co. With increasing doses of radiation, plasma DAO activity increased on Day 2 and intestinal DAO activity decreased on Day 4; moreover, the approximate relative biological effectiveness values for these changes in activity were 5.81 for plasma DAO activity on Day 2 and 3.88 for intestinal DAO activity on Day 4. On Day 6 relatively high levels of radiation caused DAO activity in the small intestine to remain depressed whereas low levels resulted in recovery with activities at or near controls. In animals with combined injury (radiation plus 30% surface burn or wound), changes in DAO activity in the intestine were similar to those with radiation alone; plasma DAO activity, in contrast to radiation alone, did not show an increase at the 2-day mark. These dose-dependent relationships should provide a basis for using DAO as a potential indicator of biological damage from radiation exposure within the lethal range.

18 S ribosomal RNA is degraded during ribosome maturation in irradiated HeLa cells

The effects of ionizing radiation (137Cs) on processing of ribosomal RNA (rRNA) were studied by pulse-labeling HeLa S3 cells with [3H]uridine immediately prior to irradiation. The 45 S rRNA precursor, and its two major daughter species, 28 and 18 S rRNA, were separated by gel electrophoresis and the extent of radiolabel incorporation into each was determined at various times after irradiation. This approach permitted kinetic analysis of processing of the 45 S rRNA which had been predominantly synthesized (radiolabeled) prior to irradiation. Since they both derive from the same 45 S pre-rRNA transcript, 28 and 18 S rRNA are produced with a stoichiometry of 1:1, as observed in control cells in the present studies. However, within 1 h following 10 Gy an altered stoichiometry of 28 S:18 S rRNA was apparent, reaching 1.6:1 by 5-7 h following irradiation. This alteration was also observed following the higher dose of 20 Gy, but not following exposures of 5 Gy or less. The 18 S portion of the 45 S pre-rRNA is transcribed prior to the 28 S portion. Consequently, an increase in the 28 S/18 S ratio can only be due to degradation of the 18 S species during or after processing. This alteration may represent a response to radiation-induced growth arrest, by reducing the number of newly synthesized ribosomes that would otherwise be required for cell propagation.

Radiation-induced association of beta-glucuronidase with purified nuclei from irradiated MOLT-4 and HeLa cells

Beta-glucuronidase, a lysosomal marker enzyme, associates with purified nuclei from HeLa and MOLT-4 cell lines in a radiation dose-dependent manner, up to 300 cGy in MOLT-4 cells, and 1000 cGy in HeLa cells. In MOLT-4 cells (200-cGy exposure), there is a significant increase in beta-glucuronidase activity detected in the nuclear fraction 24 h postirradiation with a maximum association occurring at 72 h. In HeLa cells (1000-cGy exposure), a significant association is first detected 24 h postirradiation with a maximum association at 48 h. The association is not the result of nonspecific contamination occurring during nuclei purification since nuclei from irradiated cells show no greater levels of plasma membrane marker and mitochondrial marker than controls. The nature of the association remains unclear, but activity is not removed by detergents used in the nuclei isolation procedure, and incubation of the nuclei with EDTA reverses the association only modestly. Exposure of nuclei from irradiated cells to anisotonic buffers also results in only a small decrease in beta-glucuronidase activity associated with the nuclei. These observations suggest that lysosomal hydrolases become intimately associated with the nuclei of irradiated cells.