Postirradiation glucan administration enhances the radioprotective effects of WR-2721

Based on murine survival studies, endogenous hemopoietic spleen colony formation (E-CFU), and recovery of bone marrow and splenic granulocyte-macrophage colony-forming cells (GM-CFC), it was demonstrated that the postirradiation administration of glucan, an immunomodulator and hemopoietic stimulant, enhances the radioprotective effects of WR-2721. LD50/30 dose reduction factors for mice treated with WR-2721 (200 mg/kg approximately 30 min before irradiation), glucan (250 mg/kg approximately 1 h after irradiation), or both agents were 1.37, 1.08, and 1.52, respectively. Enhanced survival in mice treated with both agents appeared to be due in part to glucan's ability to accelerate hemopoietic regeneration from stem cells initially protected from radiation-induced lethality by WR-2721. Following a 10-Gy radiation exposure, E-CFU numbers in mice treated with saline, WR-2721, glucan, or both WR-2721 and glucan were 0.05 +/- 0.03, 6.70 +/- 1.05, 0.95 +/- 0.24, and 33.90 +/- 2.96, respectively. Similarly, bone marrow and splenic GM-CFC numbers were greater in mice treated with both WR-2721 and glucan than in mice treated with either agent alone. These results demonstrated at least additive radioprotective effects when mice were given WR-2721 prior to irradiation and glucan following irradiation. These effects appeared to depend on the sequential cell protection mediated by WR-2721 and hemopoietic repopulation mediated by glucan.     

Protection of mice against fission neutron irradiation by WR-2721 or WR-151327

Two phosphorothioate compounds, WR-2721 and WR-151327, were examined for their radioprotective efficacies against the effects of fission neutron irradiation in male and female mice. Within sex groups no significant difference in lethality at 30 or 100 days postirradiation was found between WR-2721 or WR-151327 pretreatment. The dose modification factors (DMFs) for male mice treated with either compound were 1.29 (LD50/30) and 1.24 (LD50/100), and those for drug-treated female mice were 1.21 (LD50/30) and 1.19 (LD50/100). Both WR-2721 and WR-151327 were found to be equally radioprotective when compared using DMFs as the end point. WR-151327 (500 mg/kg, ip) was found to be significantly more toxic to both male and female B6D2F1 mice than equimolar amounts of WR-2721. Small but significant sex differences in radioprotection were found: the DMFs for female mice pretreated with either compound were lower than those for similarly treated male mice; the incidence of mortality 31-100 days postexposure in male mice pretreated with WR-151327 was greater than for female mice. In addition, sex differences were noted in drug toxicity. Toxic death in female mice given WR-151327 (500 mg/kg, ip) is 2.6 times more probable than in males.     

Radioprotective effect of combinations of WR-2721 and mercaptopropionylglycine on mouse bone marrow chromosomes

The radioprotective and toxic effects of low to moderate doses of S-2-(3-aminopropylamino)ethyl phosphorothioic acid (WR-2721) and its combination with mercaptopropionylglycine (MPG, 20 mg/kg body wt) on the chromosomes of the bone marrow cells of Swiss albino mice were studied at 24 h and 14 days postirradiation. Significant protection against radiation-induced chromosome aberrations was observed with 50 mg/kg WR-2721. The protection increased with the dose of the drug administered, and the degree of protection per unit dose increment was more pronounced at lower than at higher doses. A combination of WR-2721 and MPG given before exposure resulted in a significantly greater number of normal metaphases at 24 h postirradiation compared to the respective single-drug treatment groups. On Day 14 postirradiation, when the presence of WR-2721 resulted in an increase in the frequency of aberrant cells, combination with MPG helped to reduce this value markedly, especially at WR-2721 doses below 200 mg/kg. On the basis of these results it is suggested that 150 mg/kg WR-2721 may be considered an optimum dose for combination with MPG for protection of chromosomes of bone marrow cells when repeated drug administrations are not needed. Changes in the level of glutathione (GSH) in the blood were studied at different times following the administration of 150 mg/kg WR-2721 and its combination with MPG (20 mg/kg) before sham irradiation or exposure to 4.5 Gy 60Co gamma rays. The results showed that WR-2721 elevated blood GSH levels significantly above normal values by the time radiation was delivered, while MPG did not. Glutathione appears to have an important role in the action of WR-2721, while protection by MPG may not be mediated through GSH. Injection of MPG after WR-2721 helps to maintain the higher GSH level for a longer duration compared to treatment with WR-2721 alone. It is possible that MPG delays the metabolism of GSH.     

Radioprotective effects of the thiols GSH and WR-2721 against X-ray-induction of micronuclei in erythroblasts

The frequency of micronucleated polychromatic erythrocytes (MNPCEs) was assessed in the bone marrow and peripheral blood of adult male Swiss mice treated with reduced glutathione (GSH) and S-2-/3-aminopropylamino/ethyl phosphorothioic acid (WR-2721), at a dose of 400 mg/kg body weight, and exposed to 6 Gy X-rays. GSH or WR-2721 was applied alone, or 60 and 30 min, respectively, prior to X-ray-exposure. The number of MNPCEs was determined at 24 h after the thiol treatment and X-irradiation. The radioprotection and toxicity caused in the mouse erythroblasts by GSH and WR-2721, as indicated by the number of MNPCEs were dependent on the thiol applied. The stronger radioprotective effect is obtained following WR-2721 administration than after GSH application. WR-2721 showed greater toxicity than GSH. The combination of GSH and WR-2721 given before X-ray-exposure resulted in the most radioprotective effect as compared to the respective single-drug treatment of mice. Application of the both thiols, without subsequent X-irradiation appeared to be the most toxic, compared with administration of WR-2721 or GSH alone. The effective radioprotection by the combined action of GSH and WR-2721 against genomic instability induced in the mouse erythroblasts by X-rays was shown.     

Selenium Pretreatment Enhances the Radioprotective Effect and Reduces the Lethal Toxicity of Wr-2721

Although WR-2721, S-2-(3-aminopropylamino)ethylphosphorothioic acid, is an effective radioprotector, its use is limited by its toxicity. Combining WR-2721 with other agents might decrease its toxicity and/or increase its effectiveness. The effect of selenium (Se) pretreatment on the acute toxicity and radioprotective effect of WR-2721 was studied in male CD2F1 mice. Injection of 1.6mg/kg Se 24 hr before WR-2721 (800-1200 mg/kg, IP) decreased the lethality of WR-2721 significantly. Lower doses of Se were also effective, but simultaneous administration was not effective. Se injection alone (1.6 mg/kg) 24 hr before cobalt-60 irradiation increased the survival (dose reduction factor, DRF = 1.1) significantly. A synergistic effect on post-irradiation survival was observed when Se was injected 24 hr before WR-2721 (200-600 mg/ kg IP before irradiation). For example, after exposure to 22 Gy (1 Gy/min), 30-day survival was 100% when mice were treated with both Se and 600mg/kg WR-2721, and was 13% with WR-2721 alone. The DRF after 400 mg/kg WR-2721 was 2.6 with Se compared to 2.2 without Se pretreatment. Alkaline phosphatase activity in bone marrow cells and serum was significantly depressed after treatment with 1.6 mg/kg Se, suggesting that a retardation of conversion of WR-2721 to its active free sulfhydryl form through the action of alkaline phosphatase might be partly responsible for the effects of Se. Other possible mechanisms related to the antioxidant properties of Se are under investigation.     

Selenium Pretreatment Enhances the Radioprotective Effect and Reduces the Lethal Toxicity of Wr-2721

Although WR-2721, S-2-(3-aminopropylamino)ethylphosphorothioic acid, is an effective radioprotector, its use is limited by its toxicity. Combining WR-2721 with other agents might decrease its toxicity and/or increase its effectiveness. The effect of selenium (Se) pretreatment on the acute toxicity and radioprotective effect of WR-2721 was studied in male CD2F1 mice. Injection of 1.6mg/kg Se 24 hr before WR-2721 (800-1200 mg/kg, IP) decreased the lethality of WR-2721 significantly. Lower doses of Se were also effective, but simultaneous administration was not effective. Se injection alone (1.6 mg/kg) 24 hr before cobalt-60 irradiation increased the survival (dose reduction factor, DRF = 1.1) significantly. A synergistic effect on post-irradiation survival was observed when Se was injected 24 hr before WR-2721 (200-600 mg/ kg IP before irradiation). For example, after exposure to 22 Gy (1 Gy/min), 30-day survival was 100% when mice were treated with both Se and 600mg/kg WR-2721, and was 13% with WR-2721 alone. The DRF after 400 mg/kg WR-2721 was 2.6 with Se compared to 2.2 without Se pretreatment. Alkaline phosphatase activity in bone marrow cells and serum was significantly depressed after treatment with 1.6 mg/kg Se, suggesting that a retardation of conversion of WR-2721 to its active free sulfhydryl form through the action of alkaline phosphatase might be partly responsible for the effects of Se. Other possible mechanisms related to the antioxidant properties of Se are under investigation.     

Induction of micronucleated erythrocytes by MEA,AET, WR-2721 and X-rays

The induction of micronucleated polychromatic erythrocytes (MNPCEs) was assessed in the bone marrow of adult male Swiss mice treated with MEA (cysteamine HCl), AET (2-aminoethylisothiouronium Br.HBr), or WR-2721 (S-2-(3-aminopropylamino)ethyl phosphorothioic acid), at a dose of 200 mg/kg body weight, and/or exposed to 6 Gy X-rays. MEA, AET, or WR-2721 was given alone or 15 min prior to X-ray exposure, and the frequency of MNPCEs was determined 24 h after the aminothiol treatment and X-irradiation of mice. A genotoxic effect was shown for MEA, AET, WR-2721, and X-rays, as well as a protective effect of the aminothiols against X-ray-induced genotoxicity in the mouse erythropoietic system. The aminothiol drugs given alone, without subsequent X-irradiation, elevated the frequency of MNPCEs, and WR-2721 appeared to be less toxic than AET and MEA. After exposure of mice to X-rays, the number of MNPCEs was distinctly increased. MEA, AET, or WR-2721 administration prior to X-irradiation resulted in a reduction of the X-ray-induced elevation of the frequency of micronuclei, but a stronger radioprotective effect was obtained following WR-2721 and AET treatment than after MEA application. So, the genotoxic and radioprotective effect of the aminothiols was dependent on the compound applied.     

Radiation-induced changes in collagen isotypes I, III, and IV in the lung of LAF1 mouse: effects of time, dose, and WR-2721

Alterations in the amount and distribution of pulmonary connective tissue are commonly observed subsequent to thoracic radiotherapy. The extent to which these changes are important in the expression of radiation damage and its repair remains unclear. We have quantitated changes in the parenchymal levels of collagen types I, III, and IV in the lungs of LAF1 mice at intervals to 1 year, following doses of 0-14 Gy, 300 kV X rays, or 0-18 Gy in the presence of the radioprotective compound, WR-2721. The method of quantitation, which involves video image analysis of fluorescent antibody stained, cryostat tissue sections, provides both quantitative and morphological information for the three collagen isotypes. Type I collagen peaked in tissue content at 15 and 30 weeks postirradiation (p.i.), with transient return to control values 20-25 weeks p.i. Type III collagen peaked at 15 and 25 weeks p.i. and declined in tissue content at 20 and 30 weeks. Type IV peaked 15-20 weeks following irradiation, returned to control levels at 25 weeks, and reached a plateau above control values after 30 weeks. Fluctuations in collagen levels in the parenchyma were dose dependent but were not simultaneous, indicating a radiation response characterized by alpha-chain-specific regulation of collagen biosynthesis and breakdown. In general, WR-2721, which enhanced postirradiation survival (DMF, 1.3), reduced the magnitude and altered the timing of collagen fluctuations; again, the effects were type specific. The results clearly demonstrate that the postirradiation response of the connective tissue is dose dependent, is specific to each macromolecule, and involves both deposition and removal of extracellular matrix. These processes are independently influenced by the presence during irradiation of WR-2721.     

Radiation protection of murine intestine by WR-2721, 16,16-dimethyl prostaglandin E2, and the combination of both agents

The survival of murine intestinal clonogenic cells (ICC) and the survival of mice after whole-body exposure to 137Cs irradiation were used to measure radiation protection by ethiophos (WR-2721), 16,16-dimethyl prostaglandin E2, and the combination of the two. Doses from 2 to 12.5 mg/mouse of WR-2721 increased cell survival linearly from 3.2 +/- 0.3 in controls given 15.0 Gy to 93.1 +/- 5.2 per jejunal circumference. In contrast, 16,16-dm PGE2 increased ICC survival at 15.0 Gy rapidly from 1 to 10 micrograms/mouse, followed by a plateau up to 100 micrograms/mouse. Animal survival at 6 days (LD50/6) increased from 16.3 +/- 0.4 Gy (95% confidence limits) in controls to 20.3 +/- 0.6 Gy in the PG-treated animals. WR-2721 increased the LD50/6 to 26.1 +/- 1.4 Gy. The dose modification factors were 1.25 and 1.60, respectively. The combination of agents increased ICC survival above that seen with each agent alone up to 8 mg WR-2721, above which no additional protection was seen. Animals given 10 micrograms PG plus 10 mg WR-2721 survived longer than with either agent given alone. The LD50/6 was 36.3 +/- 1.8 Gy for a dose modification factor (DMF) of 2.23. In addition, the slope of the probit curve was reduced from those of each agent alone. PG-induced changes in villus epithelial cell morphology and survival may account, in part, for these observations. The results suggest that either the mechanisms for these two types of radiation protectors are different or they act on separate subcellular targets which are critical to survival from radiation injury.     

Protection of bone marrow of Swiss albino mouse against whole body gamma irradiation by WR-2721.

Preinjected with a radioprotective drug, WR-2721, the Swiss albino mice were whole body irradiated with 5 Gy of 60Co gamma rays. The animals were sacrificed at different intervals and bone marrow films were prepared for differential counting of lymphocytes, pronormoblasts and normoblasts and granulocytes. The results indicated significant protection of the bone marrow cells by the drug against radiation induced damage. It is therefore concluded that WR-2721 protects all types of cells including as sensitive ones as lymphocytes, pronormoblasts and normoblasts.     

Protection of mice against mixed fission neutron-gamma (n: gamma = 1:1) irradiation by WR-2721, 16,16-dimethyl PGE2, and the combination of both agents

The survival of mice after whole-body exposure to a modified fission neutron-gamma field (n: gamma = 1:1) was used to examine radiation protection by WR-2721, 16,16-dimethyl PGE2(DiPGE2), and the combination of both agents. Administration of WR-2721 (453 mg/kg) increased the LD50/30 from 5.24 to 7.17 Gy (DMF = 1.37), whereas pretreatment with DiPGE2 (1.6 mg/kg) increased the LD50/30 to 5.77 Gy (dose modification factor (DMF) = 1.10). The combination of 453 mg/kg WR-2721 and 0.4 mg/kg DiPGE2 resulted in an LD50/30 of 7.33 Gy, yielding a DMF of 1.39. However, no significant difference in protection was obtained with the combination of the two agents compared to that seen with WR-2721 alone.     

Histopathologic effects of soluble glucan and WR-2721, independently and combined in C3H/HeN mice.

Soluble glucan, an immunomodulator, and Walter Reed (WR)-2721, a radioprotectant, increase postirradiation survival when administered before and after exposure, respectively. Combined, these agents act synergistically through WR-2721's ability to spare hematopoietic stem/progenitor cells from radiation injury and glucan's ability to subsequently stimulate spared cells to proliferate. In this study, the histopathologic effects of WR-2721 (200 mg/kg, ip) and glucan (250 mg/kg, iv), at doses capable of increasing survival in lethally irradiated mice, were evaluated in unirradiated and irradiated female C3H/HeN mice. After treatment, whole body weights and wet organ weights of liver, spleen, and kidney, as well as gross and histologic changes in these and other tissues, were monitored on Days 1, 4, 7, 11, 15, 21, and 28. Morphometric studies of splenic white and red pulps were also performed. Soluble glucan, with or without WR-2721, in unirradiated groups, was associated with splenomegaly, transient morphometrically determined perturbations of white and red pulp areas, and histologic alterations of white pulp. In irradiated mice, splenic weight loss was initially dampened in glucan groups and accompanied by morphologic and histologic changes similar to those seen in unirradiated counterparts. The subsequent rebound of splenic parameters in irradiated mice was limited to WR-2721-treated mice and was associated with hematopoietic reconstitution. Glucan, with or without WR-2721, in unirradiated groups was associated with transient hepatomegaly and associated histologic changes. Similar changes in irradiated animals were seen only in the combined treatment group.     

Phosphatidylserine externalization during bone marrow cell death after treatment of mice with WR-2721 and gamma-rays

The cell surface exposure of phosphatidylserine (PS) and the plasma membrane impairment were assessed in the bone marrow of adult male Swiss mice exposed to a single 6 Gy dose of 60 Co gamma-rays, and treated intraperitoneally with the aminothiol WR-2721 (Amifostine, S-2-/3-aminopropylamino/ethyl phosphorothioic acid), at a dose of 400 mg/kg body weight, 30 min prior to gamma-irradiation. The bone marrow cells were stained with a combination of fluoresceinated annexin V (annexin V--FITC) and propidium iodide (PI) at 3 h, 7 h, and 24 h after treatment of mice with WR-2721 and 60Co gamma-irradiation. The number of early apoptotic cells (annexin V--FITC positive/PI negative), and late apoptotic and necrotic cells (annexin V--FITC positive/PI positive), was increased at 3 h after exposure of mice to 60Co gamma-rays and thereafter declined with the frequency of apoptotic and necrotic cells remaining lower in WR-2721 pre-treated mice. Using the annexin V--FITC flow cytometric assay, the radioprotective effect of WR-2721 against induction of apoptosis and necrosis in normal cells of the haematopoietic system was shown.     

Suppression of delayed-type hypersensitivity to oxazolone in whole-body-irradiated mice and protection by WR-2721

The effect of whole-body irradiation on cellular immunity, as measured in vivo by delayed-type hypersensitivity (DTH) to oxazolone (4- ethoxymethylene -2-phenyl- oxazol -5-one), was determined in CD2F1 mice. DTH, determined by changes in ear swelling after challenge with oxazolone, was significantly depressed in irradiated mice (500-900 rad of 60Co) in a dose-dependent fashion when animals were irradiated after sensitization and before challenge with oxazolone. Administration of WR-2721 [S-2-(3-aminopropylamino)ethylphosphorothioic acid] 30 min before irradiation (2 days after sensitization) resulted in protection against suppression of DTH, which was dependent on drug and radiation dose. An effective dose of WR-2721 (200 mg/kg body wt) provided an approximate dose-modifying factor of 1.3. The data suggest that WR-2721 interacts with cells involved in that DTH response (lymphocytes and/or macrophages) and that WR-2721 may be useful in protecting against radiation-induced decrements in cell-mediated immunity.     

Equilibrium dialysis studies of the binding of radioprotector compounds to DNA

Radioprotection by WR-2721, S-2-(3-aminopropylamino)ethyl phosphorothioate, is thought to involve its corresponding thiol (WR-1065) or symmetrical disulfide (WR-33278). It has been suggested that these metabolites concentrate close to the DNA target molecule; to test this hypothesis we have measured their in vitro binding to DNA. The binding of WR-33278 (0.05-0.4 mM) to calf thymus DNA (6 mM, with respect to DNA phosphate) was determined at 50, 100, and 150 mM KCl in 1 mM Tris, pH 7, by equilibrium dialysis. The binding of WR-1065 (0.5-8mM) was determined at 25, 50, and 100 mM KCl, under similar conditions, but with 2 mM EDTA and 3 mM dithiothreitol (DTT) added to the dialysis buffer to prevent thiol oxidation. Drug levels were quantitated by HPLC after fluorescent labeling with monobromobimane; disulfide samples were reduced with DTT prior to analysis. Dissociation constants (Kd = [Free Drug] [DNA site]/ [bound drug] ) under these conditions were found to vary with ionic strength, being in the range of 0.02 +/- 0.01 to 0.18 +/- 0.06 mM for WR-33278 and 0.43 +/- 0.24 to 3.5 +2/- 1.5 mM for WR-1065. WR-2721, glutathione, cysteine, and DTT showed no detectable binding to DNA in 25 mM KCl. However, cysteamine and cystamine did bind to DNA, with unbound drug to bound drug ratios of 8 +/- 2 and 0.6 +/- 0.1, respectively, at total drug concentrations of 1 mM. Cystamine and WR-1065 bound to DNA with comparable affinity under similar conditions. These results indicate that binding of WR-33278 and WR-1065 by DNA phosphate are probably significant in the mechanism of radioprotection by WR-2721.     

Late functional and biochemical changes in mouse lung after irradiation: differential effects of WR-2721

The radioprotective effect of WR-2721 on late damage after whole thorax irradiation has been studied after split doses of radiation using the standard death and breathing rate assays at monthly intervals between 3 and 15 months after irradiation, as well as two biochemical measurements of injury at 15 months, hydroxyproline (HP), an indicator of tissue fibrosis, and DNA content, an indicator of tissue cellularity. A comparison of HP/lung and breaths per minute (BPM) in each dose group in the WR-2721 and non-WR-2721-treated mice 15 months after irradiation showed that the relationship between these two assays of late lung injury was not the same. There were large dose-related increases in breathing rate corresponding to relatively small changes in HP in the lungs of mice given radiation alone. In contrast, the mice given WR-2721 before irradiation showed large dose-related increases in HP/lung, but BPM remained relatively constant independent of dose. These data suggest then that changes in breathing rate and deaths later than 9 months after whole lung irradiation may not be due to collagen accumulation in the lung. WR-2721 did protect better against late lung functional changes (protection factors (PF) = 1.6) and late deaths (PF = 1.51) than against earlier changes in these same assays (PF = 1.4 and 1.28, respectively). Although the earlier-appearing injury after whole thoracic irradiation is most likely related to lung damage with deaths and increases in breathing rate resulting from pneumonitis, the cause of the late-appearing functional injury in the lung after radiation is not clear. Thus protection of late lung damage measured from either lethality or breathing rate is not related to the prevention of lung fibrosis.     

Determination of the radioprotective effects of topical applications of MEA, WR-2721, and N-acetylcysteine on murine skin

Topical applications of MEA (beta-mercaptoethylamine or cysteamine), WR-2721 [S-2-(3-aminopropylamino)-ethylphosphorothioic acid], and N-acetylcysteine (NAC) were tested for their ability to protect the normal skin of the hind legs of mice against acute and late damage from single doses of 137Cs radiation. No significant protection was observed with either WR-2721 or NAC. MEA was shown to offer significant protection against acute skin damage in both buffered and unbuffered forms, but no significant protection against late contraction. The use of topical MEA on unanesthetized animals breathing carbogen (95% O2, 5% CO2) appears to give an enhanced level of radioprotection over that shown for anesthetized, air-breathing animals.     

Characterization of the phosphatidylinositol-specific phospholipase C-released form of rat osseous plate alkaline phosphatase and its possible significance on endochondral ossification

S-2-(3 aminopropylamino) ethylphosphorothioic acid (WR-2721) shown to surpass radical scavenging thiols in their radioprotective efficacy in cancer-type diseases has been tested for its protective potential in the reperfused heart. We investigated the radical scavenger properties of the compound in a radical generating systemin vitro as well as in isolated rat hearts subjected to 30 min ischaemia and 30 min reperfusion with the electron-paramagnetic resonance spin trap technique. The action on high-energy phosphates is observed by means of phosphorus-31 nuclear magnetic resonance (NMR) spectroscopy while its influence on left ventricular systolic segmental length change (SSLC) during 60 min reperfusion following 60 min regional ischaemia was assessed with a fibreoptic system in anaesthetized open-chest rats. WR-2721 (0.1 mM) reduced the vascular concentration of radical adduct in isolated hearts by up to 78% (275±84% of pre-ischaemic baseline values vs 1260±413%, p<0.05) between 5 and 12.5 min reperfusion. This was accompanied by a reduction of the left ventricular end diastolic pressure to pre-ischaemic values at 30 min of reperfusion (9±6 mmHg vs 42±8 mmHg in the absence of WR-2721, p<0.02). An accelerated recovery of creatine phosphate levels (78±5% of pre-ischaemia values vs 41±5% within 60 min reperfusion; p<0.05) was observed under similar conditions with NMR-spectroscopy, although the post-ischaemic tissue content of adenosine triphosphate was not affected. The administration of WR-2721 (0.5 mmol/kg body weight) ledin situ to an accelerated restoration of contractile activity in the post-ligated left ventricular area reflected by the post-ischaemic recovery of SSLC (64±10% of pre-ischaemic values compared with 27±6% in control animals 60 min following reperfusion; p<0.02). The present data confirm an effective reduction in the exposure of the reperfused heart to endogenously released free radicals by WR-2721, a partial preservation of high-energy phosphates and an improvement in post-ischaemic contractility and encourage further investigation of such favourable action in injured myocardium.     

Protection from radiation nephropathy by WR-2721

The efficacy of WR-2721 pretreatment against radiation injury to the growing kidney was evaluated in the weanling mouse. Immediately following unilateral nephrectomy, animals received intraperitoneal injections of saline or WR-2721 (220 mg/kg). Thirty minutes later both nonprotected (saline-treated) control animals and protected (WR-2721-treated) animals received 1000-rad single-fraction radiation to the remaining kidney. Other animals received WR-2721 immediately following unilateral nephrectomy but no radiation. Animals were sacrificed at 3 and 24 weeks. Nonirradiated animals treated with WR-2721 only showed normal compensatory renal growth, body growth, and renal function at 24 weeks. The nonprotected, irradiated animals exhibited renal growth inhibition without body growth inhibition, and renal functional abnormalities including elevation of serum BUN and reduction of glomerular filtration rate. Pretreatment with WR-2721 prior to 1000 rad prevented the renal growth inhibition and functional abnormalities seen in the nonprotected irradiated animals. Within the observation period there were no differences in renal morphology by light and electron microscopy between protected and nonprotected groups; only mild glomerular and tubular abnormalities compatible with radiation injury were seen. WR-2721 can modulate renal radiation injury; however, the growth and functional protection is not well correlated with specific histologic change. The dose reduction factor for WR-2721 renal growth protection is between 1.16 and 1.2. WR-2721 may have future clinical utility by increasing radiation tolerance of the kidney.     

Comparison of cAMP with other radioprotectors against chronic damage to the rat parotid gland

Radiation damage to the parotid gland is protectable by cAMP during the first week after irradiation (acute phase), though appreciable recovery occurred later with or without such protection. Further damage developed later (chronic phase, 60-90 days), and cAMP was still protective against this damage with a dose modification factor of 1.86 for gland weight. A summary of the protective factors, acute and chronic, for WR-2721, isoproterenol, and cAMP is included. Chronic damage is about 1.5 times as great as acute, and protection against acute and chronic damage is about equal for all three compounds.