Veena P. Salvi scite author profile

The effect of ferulic acid was studied on gamma-radiation-induced relaxation of plasmid pBR322 DNA and induction of DNA strand breaks in peripheral blood leukocytes and bone marrow cells of mice exposed to whole body gamma-radiation. Presence of 0.5 mM ferulic acid significantly inhibited the disappearance of supercoiled (ccc) plasmid pBR322 with a dose modifying factor (DMF) of 2.0. Intraperitoneal administration of different amounts (50, 75 and 100 mg/kg body weight) of ferulic acid 1 h prior to 4 Gy gamma-radiation exposure showed dose-dependent decrease in the yield of DNA strands breaks in murine peripheral blood leukocytes and bone marrow cells as evidenced from comet assay. The dose-dependent protection was more pronounced in bone marrow cells than in the blood leukocytes. It was observed that there was a time-dependent disappearance of radiation induced strand breaks in blood leukocytes (as evidenced from comet parameters) following whole body radiation exposure commensuration with DNA repair. Administration of 50 mg/kg body weight of ferulic acid after whole body irradiation of mice resulted disappearance of DNA strand breaks at a faster rate compared to irradiated controls, suggesting enhanced DNA repair in ferulic acid treated animals.

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Protection of cellular DNA from γ-radiation-induced damages and enhancement in DNA repair by troxerutin

Maurya

Balakrishnan

Salvi

et al. 2005

Mol Cell Biochem

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The effect of troxerutin on gamma-radiation-induced DNA strand breaks in different tissues of mice in vivo and formations of the micronuclei were studied in human peripheral blood lymphocytes ex vivo and mice blood reticulocytes in vivo. Treatments with 1 mM troxerutin significantly inhibited the micronuclei induction in the human lymphocytes. Troxerutin protected the human peripheral blood leucocytes from radiation-induced DNA strand breaks in a concentration dependent manner under ex vivo condition of irradiation (2 Gy). Intraperitoneal administration of troxerutin (175 mg/kg body weight) to mice before and after whole body radiation exposure inhibited micronuclei formation in blood reticulocytes significantly. The administration of different doses (75, 125 and 175 mg/kg body weight) of troxerutin 1 h prior to 4 Gy gamma-radiation exposure showed dose-dependent decrease in the yield of DNA strand breaks in murine blood leucocytes and bone marrow cells. The dose-dependent protection was more pronounced in bone marrow cells than in blood leucocytes. Administration of 175 mg/kg body weight of the drug (i.p.) 1 h prior or immediately after whole body irradiation of mice showed that the decrease in strand breaks depended on the post-irradiation interval at which the analysis was done. The observed time-dependent decrease in the DNA strand breaks could be attributed to enhanced DNA repair in troxerutin administered animals. Thus in addition to anti-erythrocytic, anti-thrombic, fibrinolytic and oedema-protective rheological activity, troxerutin offers protection against gamma-radiation-induced micronuclei formation and DNA strand breaks and enhances repair of radiation-induced DNA strand breaks.

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Radioprotection of Normal Tissues in Tumor-bearing Mice by Troxerutin

Maurya

Salvi

Nair

2004

JRR

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The flavanoid derivative troxerutin, used clinically for treating venous disorders, protected biomembranes and cellular DNA against the deleterious effects of gamma-radiation. The peroxidation of lipids (measured as thiobarbituric acid-reacting substances, or TBARS) in rat liver microsomal and mitochondrial membranes resulting from gamma-irradiation up to doses of 500 Gy in vitro was prevented by 0.2 mM troxerutin. The administration of troxerutin (175 mg/kg body weight) to tumor-bearing mice by ip one hour prior to 4 Gy whole-body gamma-irradiation significantly decreased the radiation-induced peroxidation of lipids in tissues such as liver and spleen, but there was no reduction of lipid peroxidation in tumor. The effect of troxerutin in gamma-radiation-induced DNA strand breaks in different tissues of tumor-bearing mice was studied by comet assay. The administration of troxerutin to tumor-bearing animals protected cellular DNA against radiation-induced strand breaks. This was evidenced from decreases in comet tail length, tail moment, and percent of DNA in the tails in cells of normal tissues such as blood leukocytes and bone marrow, and these parameters were not altered in cells of fibrosarcoma tumor. The results revealed that troxerutin could preferentially protect normal tissues against radiation-induced damages in tumor-bearing animals.

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Radioprotection of DNA by Glycyrrhizic Acid Through Scavenging free Radicals

Gandhi¹,

Maurya²,

Salvi³

et al. 2004

JRR

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Gamma-radiation induced strand breaks in plasmid pBR322 DNA. Glycyrrhizic acid (GZA) protected plasmid DNA from radiation-induced strand breaks, as the disappearance of super-coiled (ccc) form was prevented by the compound with a dose-reduction factor of 2.04 at 2.5 mM concentration. Studies of comet assay on human peripheral blood leukocytes exposed to gamma radiation in the presence and absence of glycyrrhizic acid ex vivo revealed that this compound protected the cellular DNA from radiation-induced strand breaks in a concentration-dependent manner. An intraperitoneal administration of the GZA to mice one hour before exposure to gamma radiation protected cellular DNA from radiation-induced strand breaks in peripheral blood leucocytes and bone marrow cells, as revealed by comet assay. Pulse radiolysis studies indicated that glycyrrhizic acid offered radioprotection by scavenging free radicals. The rate constants for the reaction of glycyrrhizic acid with OH* and e(aq)- are 1.2 x 10(10 ) M(-1) s(-1) and 3.9 x 10(9 ) M(-1) s(-1), respectively.

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Protein repertoire of human uterine fluid duringthe mid-secretory phase of the menstrual cycle

et al. 2007

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New insights on the structural/functional properties of recombinant human mannan-binding lectin and its variants

et al. 2009

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Relevance of Radioprotectors in Radiotherapy: Studies with Tocopherol Monoglucoside

Nair¹,

Salvi

Kagiya³

et al. 2004

J Environ Pathol Toxicol Oncol

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Radioprotective compounds are of importance in clinical radiation therapy, because normal tissues should be protected against radiation injury while using higher doses of radiation to obtain better cancer control. We investigated the radioprotection of cellular DNA in cancer and in various cells and tissues, in a murine system following exposure to gamma-radiation and tocopherol monoglucoside (TMG) administration. We used single-cell gel electrophoresis (comet assay) and studied the progression of murine fibrosarcoma following radiation exposure and administration of TMG. The administration of TMG to tumor-bearing mice protected the cellular DNA against radiation-induced strand breaks as shown by the decrease in comet tail length, tail moment, and percentage of DNA in the tails of the cells of normal tissues. The same parameters were not altered in the cells of fibrosarcoma. Our results showed that the administration of TMG immediately after exposure to gamma-radiation can protect normal tissues against radiation damages in tumor-bearing mice. Local gamma-radiation exposure (5 Gy) of the tumor retarded the tumor growth. Administration of TMG did not protect cancer cells from radiation damage because the growth curves of cancer cells treated with radiation alone and those treated with TMG after irradiation were not significantly different.

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Veena P. Salvi

Human astrovirus coat protein binds C1q and MBL and inhibits the classical and lectin pathways of complement activation

Radiation protection of DNA by ferulic acid under in vitro and in vivo conditions

Protection of cellular DNA from γ-radiation-induced damages and enhancement in DNA repair by troxerutin

Radioprotection of Normal Tissues in Tumor-bearing Mice by Troxerutin

Radioprotection of DNA by Glycyrrhizic Acid Through Scavenging free Radicals

Protein repertoire of human uterine fluid duringthe mid-secretory phase of the menstrual cycle

New insights on the structural/functional properties of recombinant human mannan-binding lectin and its variants

Relevance of Radioprotectors in Radiotherapy: Studies with Tocopherol Monoglucoside

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