Amifostine protects from the peripheral sensory neuropathy induced by oxaliplatin in mice.

Sensory neuropathy is a dose-limiting side effect of oxaliplatin-based cancer treatment. This study investigated the antinociceptive effect of amifostine and its potential neuroprotective mechanisms on the oxaliplatin-related peripheral sensory neuropathy in mice. Oxaliplatin (1 mg/kg) was injected intravenously in Swiss albino male mice twice a week (total of nine injections), while amifostine (1, 5, 25, 50, and 100 mg/kg) was administered subcutaneously 30 min before oxaliplatin. Mechanical and thermal nociceptive tests were performed once a week for 49 days. Additionally, c-Fos, nitrotyrosine, and activating transcription factor 3 (ATF3) immunoexpressions were assessed in the dorsal root ganglia. In all doses, amifostine prevented the development of mechanical hyperalgesia and thermal allodynia induced by oxaliplatin (P<0.05). Amifostine at the dose of 25 mg/kg provided the best protection (P<0.05). Moreover, amifostine protected against neuronal hyperactivation, nitrosative stress, and neuronal damage in the dorsal root ganglia, detected by the reduced expression of c-Fos, nitrotyrosine, and ATF3 (P<0.05 vs the oxaliplatin-treated group). In conclusion, amifostine reduced the nociception induced by oxaliplatin in mice, suggesting the possible use of amifostine for the management of oxaliplatin-induced peripheral sensory neuropathy.

Radioprotective effect of chloropyllin, protoporphyrin-IX and bilirubin compared with amifostine® in Drosophila melanogaster.

The identification of substances that prevent or minimize the detrimental effects of ionizing radiation is an essential undertaking. The aim of this paper was to evaluate and compare the radioprotective potential of chlorophyllin, protoporphyrin and bilirubin, with amifostine®, an US Food & Drug Administration approved radioprotector Using the somatic mutation and recombination assay in the Drosophila melanogaster wing, it was found that pretreatment (1-9 h) with any of the porphyrins or amifostine® alone, did not affect the larva-adult viability or the basal frequency of mutation. However, they were associated with significant reductions in frequency of somatic mutation and recombination compared with the gamma-irradiated (20 Gy) control as follows: bilirubin (69.3 %)> chlorophyllin (40.0 %)> protoporphyrin (39.0 %)> amifostine® (19.7 %). Bilirubin also caused a 16 % increase in larva-adult viability with 3 h of pretreatment respect to percentage induced in 20 Gy control group. Whilst amifostine® was associated with lower genetic damage after pre-treatment of 1 and 3 h, this did not attain significance. These findings suggest that the tested porphyrins may have some potential as radioprotectant agents.

Amifostine protects from the peripheral sensory neuropathy induced by oxaliplatin in mice

Sensory neuropathy is a dose-limiting side effect of oxaliplatin-based cancer treatment. This study investigated the antinociceptive effect of amifostine and its potential neuroprotective mechanisms on the oxaliplatin-related peripheral sensory neuropathy in mice. Oxaliplatin (1 mg/kg) was injected intravenously in Swiss albino male mice twice a week (total of nine injections), while amifostine (1, 5, 25, 50, and 100 mg/kg) was administered subcutaneously 30 min before oxaliplatin. Mechanical and thermal nociceptive tests were performed once a week for 49 days. Additionally, c-Fos, nitrotyrosine, and activating transcription factor 3 (ATF3) immunoexpressions were assessed in the dorsal root ganglia. In all doses, amifostine prevented the development of mechanical hyperalgesia and thermal allodynia induced by oxaliplatin (P<0.05). Amifostine at the dose of 25 mg/kg provided the best protection (P<0.05). Moreover, amifostine protected against neuronal hyperactivation, nitrosative stress, and neuronal damage in the dorsal root ganglia, detected by the reduced expression of c-Fos, nitrotyrosine, and ATF3 (P<0.05 vs the oxaliplatin-treated group). In conclusion, amifostine reduced the nociception induced by oxaliplatin in mice, suggesting the possible use of amifostine for the management of oxaliplatin-induced peripheral sensory neuropathy.

Butirato de sodio como agente coadyuvante de la acción radioprotectora de la amifostina / Sodium butyrate as a coadyuvant agent of the radioprotecting action of amifostine / Butirato de sódio como agente coadjuvante da ação radioprotetora da amifostina

Entre los escasos radioprotectores en uso, la amifostina resulta eficaz para reducir la toxicidad aguda inducida por la radiación ionizante. Sin embargo, presenta efectos tóxicos importantes que impiden su uso repetido o en dosis altas. Es necesario entonces desarrollar radioprotectores menos tóxicos, por sí mismos o como coadyuvantes de la amifostina en dosis bajas. Se expusieron ratas Sprague-Dawley a una dosis de rayos X de 6 Gy (cuerpo entero). Se ensayó el butirato de sodio como mitigante luego de una dosis baja de amifostina previa a la irradiación. A distintos tiempos después de la irradiación se realizó el recuento de eritrocitos, leucocitos y la fórmula leucocitaria. Los efectos genotóxicos se evaluaron en leucocitos de sangre mediante el ensayo Cometa. Se realizaron también estudios de supervivencia a 60 días y la evaluación histológica del duodeno e intestino grueso. El efecto del tratamiento resultó moderadamente protector respecto de la recuperación de los valores normales de eritrocitos, leucocitos y la fórmula leucocitaria en los animales sobrevivientes en ambos sexos, así como de los epitelios intestinales y el ADN de los leucocitos. También aumentó significativamente la sobrevida a 60 días. La radioprotección con amifostina en una dosis baja seguida de una mitigación con butirato fue claramente significativa.

Among the few radioprotectors in use, amifostine is effective in reducing the acute toxicity induced by ionizing radiation. However, it has important toxic effects that prevent its repeated use or in high doses. It is necessary then to develop less toxic radioprotectors, by themselves or as adjuvants of amifostine in low doses. Sprague-Dawley rats were exposed to an X-ray dose of 6 Gy (whole body). Sodium butyrate was tested as a mitigant after a low dose of amifostine prior to irradiation. At different times after the irradiation, the erythrocytes, leukocytes and the leukocyte formula were counted. Genotoxic effects were evaluated in blood leukocytes by the Comet assay. Sixty-day survival studies and histological evaluation of the duodenum and large intestine were also performed. The effect of the treatment was moderately protective with respect to the recovery of the normal values of erythrocytes, leukocytes and the leukocyte formula in the surviving animals in both sexes as well as for the intestinal epithelia and leukocytes DNA. It also significantly increased the 60-day survival. The radioprotection with amifostine in a low dose followed by mitigation with butyrate was clearly significant.

Entre os poucos radioprotetores em uso, a amifostina é eficaz na redução da toxicidade aguda induzida pela radiação ionizante. No entanto, tem importantes efeitos tóxicos que impedem seu uso repetido ou em altas doses. É necessário, então, desenvolver radioprotetores menos tóxicos, isoladamente ou como coadjuvantes da amifostina em baixas doses. Ratos Sprague-Dawley foram expostos a uma dose de raios X de 6 Gy (corpo inteiro). O butirato de sódio foi testado como mitigante após uma dose baixa de amifostina antes da irradiação. Em diferentes momentos após a irradiação, os eritrócitos, leucócitos e a fórmula de leucócitos foram contados. Os efeitos genotóxicos foram avaliados em leucócitos de sangue pelo ensaio Cometa. Estudos de sobrevida de 60 dias e avaliação histológica do duodeno e do intestino grosso também foram realizados. O efeito do tratamento resultou moderadamente protetor em relação à recuperação de valores normais de eritrócitos, leucócitos e fórmula leucocitária nos animais sobreviventes em ambos os sexos, bem como protegeu epitélios intestinais e o DNA dos leucócitos. Também aumentou significativamente a sobrevida para 60 dias. A radioproteção com amifostina em baixa dose seguida de uma mitigação com butirato foi claramente significativa.

Amifostine reduces inflammation and protects against 5-fluorouracil-induced oral mucositis and hyposalivation.

Oral mucositis (OM) is a common and dose-limiting side effect of cancer treatment, including 5-fluorouracil (5-FU) and radiotherapy. The efficacy of the therapeutic measures to prevent OM is limited and disease prevention is not fully observable. Amifostine is a cytoprotective agent with a described anti-inflammatory potential. It is clinically used to reduce radiotherapy and chemotherapy-associated xerostomia. This study investigated the protective effect of amifostine on an experimental model of OM. Hamsters were divided into six groups: saline control group (5 mL/kg), mechanical trauma (scratches) of the right cheek pouch; 5-FU (60 and 40 mg/kg, ip, respectively, administered on days 1 and 2); amifostine (12.5, 25, or 50 mg/kg) + 5-FU + scratches. Salivation rate was assessed and the animals were euthanized on day 10 for the analysis of macroscopic and microscopic injury by scores. Tissue samples were harvested for the measurement of neutrophil infiltration and detection of inflammatory markers by ELISA and immunohistochemistry. 5-FU induced pronounced hyposalivation, which was prevented by amifostine (P<0.05). In addition, 5-FU injection caused pronounced tissue injury accompanied by increased neutrophil accumulation, tumor necrosis factor-alpha (TNF-α), and interleukin-1 beta (IL-1ß) tissue levels, and positive immunostaining for TNF-α, IL-1ß, and inducible nitric oxide synthase (iNOS). Interestingly, amifostine prevented the inflammatory reaction and consequently improved macroscopic and microscopic damage (P<0.05 vs 5-FU group). Amifostine reduced inflammation and protected against 5-FU-associated oral mucositis and hyposalivation.

Amifostine reduces inflammation and protects against 5-fluorouracil-induced oral mucositis and hyposalivation

Oral mucositis (OM) is a common and dose-limiting side effect of cancer treatment, including 5-fluorouracil (5-FU) and radiotherapy. The efficacy of the therapeutic measures to prevent OM is limited and disease prevention is not fully observable. Amifostine is a cytoprotective agent with a described anti-inflammatory potential. It is clinically used to reduce radiotherapy and chemotherapy-associated xerostomia. This study investigated the protective effect of amifostine on an experimental model of OM. Hamsters were divided into six groups: saline control group (5 mL/kg), mechanical trauma (scratches) of the right cheek pouch; 5-FU (60 and 40 mg/kg, ip, respectively, administered on days 1 and 2); amifostine (12.5, 25, or 50 mg/kg) + 5-FU + scratches. Salivation rate was assessed and the animals were euthanized on day 10 for the analysis of macroscopic and microscopic injury by scores. Tissue samples were harvested for the measurement of neutrophil infiltration and detection of inflammatory markers by ELISA and immunohistochemistry. 5-FU induced pronounced hyposalivation, which was prevented by amifostine (P<0.05). In addition, 5-FU injection caused pronounced tissue injury accompanied by increased neutrophil accumulation, tumor necrosis factor-alpha (TNF-α), and interleukin-1 beta (IL-1β) tissue levels, and positive immunostaining for TNF-α, IL-1β, and inducible nitric oxide synthase (iNOS). Interestingly, amifostine prevented the inflammatory reaction and consequently improved macroscopic and microscopic damage (P<0.05 vs 5-FU group). Amifostine reduced inflammation and protected against 5-FU-associated oral mucositis and hyposalivation.

Efecto radioprotector del piruvato de etilo, solo o como coadyuvante de la amifostina / Radioprotective effect of ethyl pyruvate alone or as a coadyuvant of amifostine / Efeito radioprotetor do piruvato de etila, sozinho ou como um coadjuvante de amifostina

Entre los radioprotectores con uso clínico se destaca la amifostina (WR- 2721), eficaz pero con efectos secundarios que impiden su uso repetitivo. Es interés de los autores desarrollar radioprotectores menos tóxicos, por sí mismos o como coadyuvantes de amifostina. Ratas machos o hembras se expusieron a una dosis de rayos X de 2 Gy. Se ensayó el piruvato de etilo, solo o conjuntamente con amifostina. Cuarenta y ocho horas después de la exposición a la radiación, se realizó el recuento de eritrocitos, de leucocitos y la fórmula leucocitaria. Los efectos genotóxicos se evaluaron en leucocitos de sangre mediante el ensayo Cometa. Se realizaron también estudios de supervivencia a 60 días post-irradiación. En los animales irradiados disminuyeron los eritrocitos, y el recuento de leucocitos se redujo drásticamente respecto al control, presentando además una fórmula alterada. El tratamiento con piruvato de etilo resultó en una protección de los eritrocitos en ambos sexos. El daño genético disminuyó significativamente por el tratamiento con piruvato de etilo solo o combinado con amifostina, y en hembras se observó una mayor supervivencia solo con el tratamiento combinado. El piruvato de etilo mostró una acción radioprotectora significativa, que podría mejorarse aumentando la dosis o el tiempo de tratamiento, ya que tiene muy baja toxicidad.

Among the currently available radioprotectors, only amifostine (WR-2721) has shown in clinical trials to reduce radiation-induced toxicity. This compound is an efficient radioprotector but it exhibits some undesirable side effects which prevent its repetitive use. Efforts are directed to develop radioprotective agents with lower toxicity, with their own protective potential or suitable as coadyuvants of amifostine. The present study describes the results obtained by repetitive oral administration of ethyl pyruvate. Male or female rats were exposed to an X-ray dose of 2 Gy. Forty-eight hours after exposure to radiation, erythrocyte count, leukocyte and differential count were performed. Genotoxic effects were assessed in blood leukocytes by the Comet assay. Survival studies were also performed at 60 days post-irradiation. Eritrocyte and leukocyte were reduced in animals exposed to radiation compared to the control, also presenting an altered formula. Treatment with ethyl pyruvate resulted in a protection on erythrocytes of both sexes. Genetic damage was significantly decreased by ethyl pyruvate alone or combined with amifostine, and in females, higher survival was observed only with combined administration. Ethyl pyruvate showed a significant radioprotective action, which could be improved by increasing the dose or time of treatment because it has low toxicity.

Entre os radioprotetores com uso clínico destaca-se a amifostina (WR-2721) eficaz mas com efeitos secundários que impedem seu uso repetitivo. O interesse dos autores é desenvolver radioprotetores menos tóxicos, por si mesmos ou como coadjuvantes de amistofina. Ratos machos ou fêmeas foram expostos a doses de raios X de 2Gy. Ensaiou-se o piruvato de etila, só ou junto com amifostina. Quarenta e oito horas após a exposição à radiação foi realizada a contagem de eritrócitos, de leucócitos e da fórmula leucocitária. Efeitos genotóxicos foram avaliados em leucócitos do sangue pelo Ensaio Cometa. Estudos de sobrevivência foram também realizados a 60 dias pós-irradiação. Nos animais irradiados diminuíram os eritrócitos, e a contagem de leucócitos se reduziu drasticamente em comparação com o controle, apresentando também uma fórmula alterada. O tratamento com piruvato de etila resultou numa proteção dos eritrócitos em ambos os sexos. O dano genético diminuiu significativamente pelo tratamento com piruvato de etila sozinho ou combinado com amifostina, e nas fêmeas se observou maior sobrevivência só com o tratamento combinado. O piruvato de etila mostrou uma ação radioprotetora significativa, que poderia ser melhorada pelo aumento da dose ou do tempo de tratamento, visto que tem baixa toxicidade.

The effect of amifostine on bacterial translocation after radiation induced acute enteritis.

PURPOSE: To investigate the effects of amifostine on bacterial translocation and overgrowth in colonic flora after acute radiation enteritis in a rat model. METHODS: Thirty-two female Wistar albino rats were divided into four groups: Group-1 (n=8): only normal saline was administered intraperitoneally. Group-2 (n=8): first serum saline was administered intraperitoneally and 30 minutes later 20 Gy radiation was applied to abdominopelvic region. Group-3 (n=8): only amifostine 200 ml/kg was administered intraperitoneally and radiation was not applied. Group-4 (n=8): first amifostine 200 ml/kg was administered intraperitoneally and 30 minutes later 20 Gy radiation was applied to abdominopelvic region. On the 5th day after radiation, samples of mesenteric lymph tissues and cecal contents were taken by laparotomy for microbiological culture. RESULTS: Intraperitoneal amifostine administration significantly decreased the bacterial overgrowth related to radiation in colon but did not significantly decrease the bacterial translocation. CONCLUSION: Although not providing a full protection on the damaged mucosal barrier, amifostine significantly decreased the bacterial overgrowth in the cecal content after high dose radiation. There is a need to find out appropriate amifostine dose under different radiation applications avoiding bacterial translocation in gastrointestinal system.

The effect of amifostine on bacterial translocation after radiation induced acute enteritis

ABSTRACT PURPOSE: To investigate the effects of amifostine on bacterial translocation and overgrowth in colonic flora after acute radiation enteritis in a rat model. METHODS: Thirty-two female Wistar albino rats were divided into four groups: Group-1 (n=8): only normal saline was administered intraperitoneally. Group-2 (n=8): first serum saline was administered intraperitoneally and 30 minutes later 20 Gy radiation was applied to abdominopelvic region. Group-3 (n=8): only amifostine 200 ml/kg was administered intraperitoneally and radiation was not applied. Group-4 (n=8): first amifostine 200 ml/kg was administered intraperitoneally and 30 minutes later 20 Gy radiation was applied to abdominopelvic region. On the 5th day after radiation, samples of mesenteric lymph tissues and cecal contents were taken by laparotomy for microbiological culture. RESULTS: Intraperitoneal amifostine administration significantly decreased the bacterial overgrowth related to radiation in colon but did not significantly decrease the bacterial translocation. CONCLUSİON: Although not providing a full protection on the damaged mucosal barrier, amifostine significantly decreased the bacterial overgrowth in the cecal content after high dose radiation. There is a need to find out appropriate amifostine dose under different radiation applications avoiding bacterial translocation in gastrointestinal system.

The effect of amifostine on bacterial translocation after radiation induced acute enteritis

PURPOSE:To investigate the effects of amifostine on bacterial translocation and overgrowth in colonic flora after acute radiation enteritis in a rat model.METHODS:Thirty-two female Wistar albino rats were divided into four groups: Group-1 (n=8): only normal saline was administered intraperitoneally. Group-2 (n=8): first serum saline was administered intraperitoneally and 30 minutes later 20 Gy radiation was applied to abdominopelvic region. Group-3 (n=8): only amifostine 200 ml/kg was administered intraperitoneally and radiation was not applied. Group-4 (n=8): first amifostine 200 ml/kg was administered intraperitoneally and 30 minutes later 20 Gy radiation was applied to abdominopelvic region. On the 5th day after radiation, samples of mesenteric lymph tissues and cecal contents were taken by laparotomy for microbiological culture.RESULTS:Intraperitoneal amifostine administration significantly decreased the bacterial overgrowth related to radiation in colon but did not significantly decrease the bacterial translocation.CONCLUSİON:Although not providing a full protection on the damaged mucosal barrier, amifostine significantly decreased the bacterial overgrowth in the cecal content after high dose radiation. There is a need to find out appropriate amifostine dose under different radiation applications avoiding bacterial translocation in gastrointestinal system.(AU)

Amifostine Increases FAS and Caspase-3 Expression in Colonic Tissue of Irradiated Mice.

BACKGROUND/AIM: The aim of this study was to evaluate the expression of FASL, FAS and FADD and caspase-3 in oesophagus, stomach and colonic tissues of mice irradiated in vivo by immunohistochemistry. MATERIALS AND METHODS: A total of 48 adult male C57BL mice were distributed into four groups: Ami(-)/Rad(-): Mice received 0.5 ml of 0.9% physiological saline solution (PPS) intraperitioneally (i.p.); Ami(+)/Rad(-): mice received amifostine (400mg/kg i.p.) freshly dissolved in double-distilled water; Ami(-)/Rad(+): mice received 0.5 ml of PSS i.p. 30 min before a single whole-body radiation dose of 7 Gy; Ami(+)/Rad(+): mice received 0.5 ml of an aqueous solution of 400 mg/kg amifostine i.p.30 min prior to irradiation. All groups were assigned into subgroups sacrificed at 0.5 h, 1 h, 2 h and 4 h after irradiation. RESULTS: In oesophagus and stomach tissues, we did not observe any difference between Ami(-)/ad(-), Ami(+)/Rad(-), Ami(-)/Rad(+) and Ami(+)/Rad(+) groups in the expression of FASL, FAS and FADD. The colonic tissue was the only to exhibit any difference in the expression of FAS and caspase-3 protein in the Ami(-)/Rad(+)group at 1 and 2 h. Amifostine increased FAS and caspase-3 immunoexpression when compared to the control. Immunoexpression for FASL and FADD was not remarkably different in colonic tissue. CONCLUSION: Taken together, our results demonstrate that amifostine increases FAS and caspase-3 expression in colonic tissue of irradiated mice.

Protective effect of Ginkgo flavonoids, amifostine, and leuprorelin against platinum-induced ovarian impairment in rats.

Platinum-induced ovarian impairment is a consequence of treatment for malignant ovarian tumors. We compared the protective effects of Ginkgo flavonoids, amifostine, and leuprorelin on ovarian impairment in rats. Fifty rats were randomly divided into the A, B, C, D, and E groups, which were given saline, cisplatin, cisplatin plus Ginkgo flavonoids, cisplatin plus amifostine, and cisplatin plus leuprorelin, respectively. Ovarian weight was significantly greater in groups C and D compared with group B (83.5 ± 6.7 and 86.8 ± 10 vs 56.8 ± 5.4 mg). The total follicle numbers were higher in groups C, D, and E than in group B (60.5 ± 3.9, 63.8 ± 5.1, and 67.7 ± 3.5 vs 49.6 ± 4.5), and the apoptotic index was reduced in groups C, D, and E compared with group B (35.7 ± 2.0, 37.4 ± 1.6, and 30.5 ± 2.9 vs 65.3 ± 2.9%). The ovaries in groups B, C, and D had higher protein and mRNA expression levels of cytoplasmic Cytochrome c (Cyt-c) and apoptotic protease activating factor-1 (Apf-1) compared to group A; the Cyt-c mRNA expression was five-fold higher. The mRNA expression of Cyt-c and Apf-1 were significantly lower in groups C, D, and E compared with group B. Administration of leuprorelin, flavonoids, or amifostine protected rats against the ovarian impairment induced by prior intraperitoneal injection of cisplatin. The efficacy of leuprorelin was superior to that of Ginkgo flavonoids and amifostine, but there was no difference between the effects of Ginkgo flavonoids and amifostine.

Amifostine-doxorubicin association causes long-term prepubertal spermatogonia DNA damage and early developmental arrest.

BACKGROUND: In a previous study, we found that amifostine provides some protection to the seminiferous epithelium of prepubertal doxorubicin-treated male rats but does not improve their fertility status as adults. Based on these results, a long-term study was undertaken to evaluate the DNA damage caused to spermatogonia and the consequences for embryo development. METHODS: Twenty-four male prepubertal rats (30-day-old) were divided into four equal groups and treated with: doxorubicin (D--5 mg/kg), amifostine (A--400 mg/kg), amifostine/doxorubicin (AD--amifostine 15 min before doxorubicin) and control (C--0.9% saline solution). Sixty-four days after the treatment, animals were euthanized and the testes and epididymides were excised. The testes were fixed in Bouin's solution and historesin-embedded for histopathological analysis. Spermatozoa from the cauda epididymides were collected for chromatin structure analyses (Comet Assay and SCSA™). Adult rats (100-day-old) were mated with fertile females for embryo analyses on 2.5, 4.5 and 20 days post-coitum (d.p.c.). RESULTS: The seminiferous epithelium histopathology of AD group was better preserved compared with the D group. On the other hand, rats from the D and AD groups presented an increased percentage of sperm DNA strand breaks, as assessed by the comet assay, as well as an increased level of sperm chromatin denaturation, as assessed by the SCSA™ assay. In amifostine-treated groups (A and AD) there was a significant increase in the number of arrested embryos, as observed by the number of oocytes/zygotes on 2.5 d.p.c., when compared with control and doxorubicin groups; however, this number was increased when the AD group was compared with the A group. CONCLUSIONS: These results raise a concern about the effects of the association of these two drugs on the germ cell genome. Amifostine-doxorubicin-exposed rat spermatogonia produced long-term damage on sperm DNA, compromised conceptus development and reduced pregnancy outcome.

Phosphorylation and cytoplasmic localization of MAPK p38 during apoptosis signaling in bone marrow granulocytes of mice irradiated in vivo and the role of amifostine in reducing these effects.

We studied p38 phosphorylation and its intracellular localization during p53 and Puma (a p53 upregulated modulator of apoptosis) apoptotic signaling pathway in bone marrow granulocytes in mice irradiated in vivo and the role of the radioprotector amifostine in ameliorating these responses. Sixty-four C57BL mice were randomly assigned in two non-irradiated (Ami-/rad- and Ami+/rad-) and two irradiated (Ami-/rad+ and Ami+/rad+) groups. Animals received 400mg/kg of amifostine i.p. 30 min prior to a single whole body radiation dose of 7Gy. The experiments were performed using immunohistochemistry for caspase-3, cleaved caspase-3, p53, p-p53 (Ser 15), Puma, p38 and p-p38 (Thr 180/Tyr 182) protein expression. In addition transmission electron microscopy was used for ultrastructural characterization of apoptosis. Data showed that: (i) amifostine significantly reduced the number of apoptotic cells, (ii) p-p53 and Puma proteins were strongly immunostained in granulocytes after irradiation (Ami-/rad+), (iii) amifostine decreased the immunostaining of the proteins (Ami+/rad+), (iv) p38 was immunolocalized in physiological conditions in the nucleus and cytoplasm of granulocytes and neither radiation nor amifostine changed the protein immunostaining or its subcellular distribution, but influenced its activation, (v) radiation-induced p38 phosphorylation and its cytoplasmic accumulation during apoptosis signaling in granulocytes after whole body high radiation dose and amifostine markedly reduced these effects.

Role of capsaicin-sensitive primary afferent neurons and non-protein sulphydryl groups on gastroprotective effect of amifostine against ethanol-induced gastric damage in rats.

BACKGROUND: Amifostine has been widely tested as a cytoprotective agent against a number of aggressors in different organs. Recently, a gastroprotective effect was observed for this drug in a model of indomethacin-induced gastric injury. Our objective was to investigate the effect of amifostine on ethanol-induced gastric injury and the role played in this mechanism by afferent sensory neurons, non-protein sulfhydryl groups, nitric oxide, ATP-sensitive potassium channels, and cyclooxygenase-2. METHODS: Rats were treated with amifostine (22.5, 45, 90, or 180 mg/kg, PO or SC). After 30 min, the rats received absolute ethanol (5 ml kg(-1), PO). One hour later, gastric damage was quantified with a planimeter. Samples from the stomach were also taken for histopathological assessment and for assays of non-protein sulfhydryl groups. The other groups were pretreated with L-NAME (10 mg kg(-1), IP), glibenclamide (10 mg kg(-1), PO), or celecoxib (10 mg kg(-1), PO). After 30 min, the animals were given amifostine (90 mg kg(-1), PO or SC), followed 30 min later by gavage with absolute ethanol (5 ml kg(-1)). Other rats were desensitized with capsaicin (125 mg kg(-1), SC) 8 days prior to amifostine treatment. RESULTS: Amifostine administration PO and SC significantly and dose-dependently reduced ethanol-induced macroscopic and microscopic gastric damage by restoring glutathione levels in the stomach mucosa. Amifostine-promoted gastroprotection against ethanol-induced stomach injury was reversed by pretreatment with neurotoxic doses of capsaicin, but not by L-NAME, glibenclamide, or celecoxib. CONCLUSIONS: Amifostine protects against ethanol-induced gastric injury by increasing glutathione levels and stimulating the afferent sensory neurons in the stomach.

Systemic chemotherapy-induced microsatellite instability in the mononuclear cell fraction of women with breast cancer can be reproduced in vitro and abrogated by amifostine.

OBJECTIVES: Microsatellite instability (MSI) induction by alkylating agent-based chemotherapy (ACHT) may underlie both tumor resistance to chemotherapy and secondary leukaemias in cancer patients. We investigated if ACHT could induce MSI in tumor-derived plasma-circulating DNA (pfDNA) and in normal peripheral blood mononuclear (PBMN) cells. We also evaluated if amifostine could interfere with this process in an in-vitro model. METHODS: MSI was determined in pfDNA, PBMN cells and urine cell-free DNA (ufDNA) of 33 breast cancer patients before and after ACHT. MCF-7 cells and PBMN from normal donors were exposed in vitro to melphalan, with or without amifostine. RESULTS: We observed at least one MSI event in PBMN cells, pfDNA or ufDNA of 87, 80 and 80% of patients, respectively. In vitro, melphalan induced MSI in both MCF-7 and normal PBMN cells. In PBMN cells, ACHT-induced MSI occurred together with a significant decrease in the expression of the DNA mismatch repair gene hMSH2. Amifostine decreased hMSH2 expression and also prevented MSI induction only in normal PBMN cells. CONCLUSIONS: ACHT induced MSI in PBMN cells and in tumour-derived pfDNA. Because of its protective effect against ACHT induction of MSI in normal PBMN cells in vitro, amifostine may be a potential agent for preventing secondary leukaemias in patients exposed to ACHT.

Amifostine reduces the seminiferous epithelium damage in doxorubicin-treated prepubertal rats without improving the fertility status.

BACKGROUND: Amifostine is an efficient cytoprotector against toxicity caused by some chemotherapeutic drugs. Doxorubicin, a potent anticancer anthracycline, is known to produce spermatogenic damage even in low doses. Although some studies have suggested that amifostine does not confer protection to doxorubicin-induced testicular damage, schedules and age of treatment have different approach depending on the protocol. Thus, we proposed to investigate the potential cytoprotective action of amifostine against the damage provoked by doxorubicin to prepubertal rat testes (30-day-old) by assessing some macro and microscopic morphometric parameters 15, 30 and 60 days after the treatment; for fertility evaluation, quantitative analyses of sperm parameters and reproductive competence in the adult phase were also carried out. METHODS: Thirty-day-old male rats were distributed into four groups: Doxorubicin (5 mg/kg), Amifostine (400 mg/kg), Amifostine/Doxorubicin (amifostine 15 minutes before doxorubicin) and Sham Control (0.9% saline solution). "Standard One Way Anova" parametric and "Anova on Ranks" non-parametric tests were applied according to the behavior of the obtained data; significant differences were considered when p < 0.05. RESULTS: The rats killed 30 and 60 days after doxorubicin treatment showed diminution of seminiferous epithelium height and reduction on the frequency of tubular sections containing at least one type of differentiated spermatogonia; reduction of sperm concentration and motility and an increase of sperm anomalous forms where observed in doxorubicin-treated animals. All these parameters were improved in the Amifostine/Doxorubicin group only when compared to Doxorubicin group. Such reduction, however, still remained below the values obtained from the Sham Control group. Nevertheless, the reproductive competence of doxorubicin-treated rats was not improved by amifostine pre-administration. CONCLUSIONS: These results suggest that amifostine promotes a significant reduction of the doxorubicin long-term side effects on the seminiferous epithelium of prepubertal rats, which is reflected in the epidydimal fluid parameters in the adult phase. However, fertility status results suggest that such protection may not be effective against sperm DNA content damage. Further investigation of sperm DNA integrity must be carried out using amifostine and doxorubicin-treated experimental models.

Amifostine protection against induced DNA damage in gamma-irradiated Escherichia coli cells depend on recN DNA repair gene product activity.

Amifostine is the most effective radioprotector known and the only one accepted for clinical use in cancer radiotherapy. In this work, the antigenotoxic effect of amifostine against gamma-rays was studied in Escherichia coli cells deficient in DNA damage repair activities. Assays of irradiated cells treated with amifostine showed that the drug reduced the genotoxicity induced by radiation in E. coli wild-type genotypes and in uvr, recF, recB, recB-recC-recF mutant strains, but not in recN defective cells. Thus, the mechanism of DNA protection by amifostine against gamma-radiation-induced genotoxicity appears to involve participation of the RecN protein that facilitates repair of DNA double-strand breaks. The results are discussed in relation to amifostine's chemopreventive potential.

Amifostina: un tratamiento alternativo contra el cáncer / Amifostine: an alternative treatment against cancer

La Amifostina [ácido S-2-(3-aminopropilamino) etiolfósforotioico)], prodroga que al desfosforilarse por la fosfatasa alcalina produce el WR1065 [2-(3_aminopropilamino) etanotiol], actúa como atrapador de radicales libres (RL). Su empleo frente al cisplatino, agente que genera RL durante su acción, podría disminuir el daño a las células normales que captan selectivamente la prodroga. Se evaluó la capacidad de la amifostina a diferentes dosis sobre la peroxidación lipídica (TBARS) y la actividad de las enzimas antioxidantes superóxido dismutasa (SOD) y catalasa (CAT) en el tejido renal. Las dosis más efectivas fueron las más bajas, con las que se obtienen la menor concentración de TBARS y la menor actividad SOD y CAT. El modelo es una propuesta para evaluar el efecto citoprotector de la amifostina desde el nivel molecular al tisular.

Amifostine [acid S2-(3-aminpropylamino) ethylphosphorothioate)] a prodrug that on desfosforilization by the action of alkaline phosphatase, it produces cisteamine, which works as a free radical scavenger. Amifostine is used in presence of cisplatine, an agent that produces free radicals during its action. Amifostine could diminish the harm to normal cells that assimilate the prodrug selectively. Based on different doses took place an evaluation of the ability of amifostine to reduce the effect on lipid peroxidation and the antioxidative system in the renal tissue. The smallest dose was the more effective one resulting with the lower levels of products of lipid peroxidation, and antioxidant system. The suggested model allows evaluating the citoprotective effect of the amifostine ranging from the molecular to the tissue level.

Analysis of the cytoprotective effect of amifostine on the irradiated inner ear of guinea pigs: an experimental study.

UNLABELLED: Radiation can cause damage to the inner ear, from a simple hearing loss all the way to profound deafness. Amifostine is a cytoprotective substance extensively used during radio-chemotherapy for malignant tumors. AIM: the objective of the present investigation was to establish the antioxidant and radioprotective effects of amifostine on the organ of Corti of albino guinea pigs irradiated in the head and neck region. MATERIALS AND METHODS: An experimental study conducted on four groups of guinea pigs were used; One group received only amifostine, one group was submitted to a single dose of 350 cGy and the other two were similarly irradiated but received amifostine doses of 100 or 200 mg/kg. All animals were slaughtered 30 days after the experiment, their bullae were removed and the damaged outer hair cells were counted. RESULT: The extent of injury was lower in the outer hair cells of the two groups treated with amifostine compared to the group that was only irradiated. There was no difference between the group treated with 100 and 200 mg/kg of amifostine. The group that received only amifostine had no cochlear damage. CONCLUSION: Amifostine is an effective cytoprotective substance in the Organ of Corti of irradiated guinea pigs.