20 results on '"Kalia, V. K."'
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2. Insect-Pests and Their Management: Current Status and Future Need of Research in Quality Maize
- Author
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Dhillon, M. K., primary, Kalia, V. K., additional, and Gujar, G. T., additional
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- 2013
- Full Text
- View/download PDF
3. ALLEVIATION OF FREEZING INJURY IN BRASSICA JUNCEA BY CHEMICALS
- Author
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Dhawan, A K, primary, Kumar, A., additional, Gupta, R., additional, and Kalia, V K, additional
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- 1996
- Full Text
- View/download PDF
4. Clinical studies for improving radiotherapy with 2-deoxy-D-glucose: Present status and future prospects.
- Author
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Dwarakanath, B. S., Singh, Dinesh, Banerji, Ajit K., Sarin, Rajiv, Venkataramana, N. K., Jalali, R., Vishwanath, P. N., Mohanti, B. K., Tripathi, R. P., Kalia, V. K., and Jain, Viney
- Subjects
GLUCOSE ,BRAIN tumors ,CANCER patients ,PROGNOSIS ,CLINICAL trials ,RADIOTHERAPY ,CANCER cells - Abstract
Higher rates of glucose usage generally correlate with poor prognosis in several types of malignant tumours. Experimental studies (both in vitro and in vivo) have shown that 2-deoxy-D-glucose (2-DG), a glucose analog and glycolytic inhibitor, enhances radiation-induced damage selectively in tumor cells while protecting normal cells, thereby suggesting that 2-DG can be used as a differential radiomodifier to improve the efficacy of radiotherapy. Clinical trials undertaken to study the feasibility, safety, and validity of this suggested approach will be described. Based on 2-DG-induced radiosensitization observed in primary organ cultures of cerebral glioma tissues, clinical trials were designed taking into consideration the radiobiology of gliomas and pharmacokinetics of 2-DG. Phase I/II clinical trials have unequivocally demonstrated that a combination of 2-DG (200-300 mg 2-DG per kg body weight orally administered after overnight fasting, 20 min before irradiation) with large weekly fractions (5 Gy/fraction) of low-LET radiotherapy is well tolerated without any acute toxicity or late radiation damage to the normal brain tissue. Nonserious transient side effects similar to hypoglycemia induced disturbances like restlessness, nausea, and vomiting were observed at the 2-DG doses used. Data from these trials involving more than 100 patients have clearly indicated a moderate increase in the survival, with a significant improvement in the quality of life with clinicopathological evidence of protection of normal brain tissue. A phase III multicentric trial to evaluate the efficacy of the combined treatment is in progress. Directions for future studies are discussed. [ABSTRACT FROM AUTHOR]
- Published
- 2009
- Full Text
- View/download PDF
5. Optimizing radiotherapy of brain tumours by a combination of temozolomide & lonidamine.
- Author
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Prabhakara, S. and Kalia, V. K.
- Subjects
- *
RADIOTHERAPY , *BRAIN tumors , *LONIDAMINE , *ALKYLATING agents , *ANTINEOPLASTIC agents , *RADIATION-sensitizing agents , *COMBINATION drug therapy - Abstract
Background & objectives: Temozolomide (TMZ), a second generation alkylating drug, an effective cytotoxic agent as well as radiosensitizer for malignant brain tumours, has side effects like myelosuppression. Lonidamine (LND) increases the effectiveness of several experimental multiple chemotherapy protocols, without increasing bone marrow toxicities and is effective in brain tumour patients. The objective of the present studies was to investigate whether combining clinically relevant doses of LND and TMZ could increase the proliferation and radiation response of malignant human brain tumour cells in vitro. Methods: A malignant human glioma (U373MG) cell line was used in these studies. TMZ (20, 41) or 6µM) or LND (100, 150 or 200 µM), or the combination of both (20 and 100 µM, respectively) in 0.1 per cent dimethyl sulphoxide (DMSO) were added three days after setting up cultures, in six well plates (5x104 cells/well). The effects of continuous treatment for two days on proliferation response and cytologist were studied after trypsinization; by cell counts and the uptake of trypan blue dye (0.5%). For the study of radiation (60Co-Gamma-rays, 2 Gy) response, drugs were removed 4 h after irradiation and cultures were grown further in drug free, normal growth medium for another 20 h or 44 h. Results: Continuous presence of TMZ or LND for two days significantly inhibited cell proliferation in a concentration dependent manner. The frequencies of non viable cells increased significantly only at higher concentrations of LND. Combination of 20 µM TMZ with 100 µM LND had additive effects on proliferation response, without affecting cell viability. Short-term drug treatments without irradiation did not induce micronuclei formation. Cell proliferation and viability were also not affected. However, post-irradiation presence of either of these drugs for 4 h significantly reduced the proliferation response, 24 and 48 h after treatments. It was further inhibited by the combination treatment. On the contrary, radiation induced micronuclei formation was enhanced by either of the drugs; which was significantly increased by the combined treatment, 24 h as well as 48 h after irradiation. No effects on cell viability were observed, immediately after these treatments as well as at later time points. Interpretation & conclusions: Our findings showed that combination of TMZ and LND at clinically achievable, low plasma concentrations could inhibit tumour growth, and Ionidamine could reduce the dose of temozolnmide required for radiosensitization of brain tumours. [ABSTRACT FROM AUTHOR]
- Published
- 2008
6. Optimization of Tumor Radiotherapy by Energy Linked Modulation of Repair Processes.
- Author
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Kalia, V. K., Dwarakanath, B. S., and Jain, V. K.
- Published
- 1987
7. Letter to the Editor.
- Author
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Kalia, V. K.
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- 1990
8. Assessment of Bt trait purity in different generations of transgenic cottons.
- Author
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Singh BP, Sandhu SS, Kalia VK, Gujart GT, and Dhillon MK
- Subjects
- Animals, Gossypium parasitology, Lepidoptera physiology, Plants, Genetically Modified parasitology, Bacillus thuringiensis genetics, Gossypium virology, Plants, Genetically Modified virology
- Abstract
Adequate expression of Bt (Bacillus thuringiensis) toxins and purity of seeds of Bt-transgenic cottons are important for controlling bollworms, and thereby increasing the cotton productivity. Therefore, we examined the variability in expression of Bt toxin proteins in the seeds and in leaves of different cotton (Gossypium hirsutum (L.) hybrids (JKCH 226, JKCH 1947, JKCH Durga, JKCH Ishwar, JKCH Varun KDCHH 441 and KDCHH 621) expressing Bt toxins in F₁ and F₂ generations, using bioassays against the cotton bollworm, Helicoverpa armigera (Hübner), and the lateral flow strip (LFS) test. Toxicity of Bt toxin proteins in the seeds of Bt-transgenic cottons to H. armigera correlated with their toxicity in the leaves in one- toxin Bt cotton hybrids. The Bt-F₁ and Bt-F₂ seeds of JKCH 1947 were more toxic to H. armigera than those of JKCH Varun seeds. The seeds and leaves of F₁s showed greater toxicity than the F2 seeds or leaves of one-toxin (cry1Ac) Bt cotton hybrids. However, no significant differences were observed for the two-toxin (cry1Ac and cry2Ab) hybrid, KDCHH 621. Toxicity of leaves to H. armigera increased with crop age, until 112 days after seedling emergence. The Bt trait purity in F₁ seeds of four two-toxin Bt cotton hybrids ranged from 86.7 to 100%. The present study emphasizes the necessity of 95% Bt trait purity in seeds of transgenic cotton for sustainable crop production.
- Published
- 2016
9. Radiation-induced DNA damage in tumors and normal tissues. VI. Estimation of the hypoxic fraction of experimental tumors.
- Author
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Kalia VK, Al-Nabulsi I, Wallen CA, Zhang H, and Wheeler KT
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- Adenocarcinoma genetics, Adenocarcinoma pathology, Animals, Brain Neoplasms genetics, Brain Neoplasms pathology, Calibration, Cell Survival, Colorectal Neoplasms genetics, Colorectal Neoplasms pathology, DNA Repair, Female, Humans, Mammary Neoplasms, Experimental genetics, Mammary Neoplasms, Experimental pathology, Mice, Mice, Nude, Rats, Cell Hypoxia, DNA radiation effects, DNA Damage, DNA, Neoplasm radiation effects
- Abstract
For several years, we have concentrated our efforts on validating the use of radiation-induced DNA strand breaks and DNA-protein crosslinks to assess the oxygenation status of tumors and normal tissues. We have demonstrated that (1) the oxygen dependence of strand break formation is identical to that of radiation-induced cell killing; (2) the oxygen dependence of DNA-protein crosslink formation is the mirror image of that of radiation-induced cell killing; and (3) the formation of these radiation-induced DNA lesions is predominantly dependent on the oxygen concentration near the DNA and is independent of the cell type, metabolic status, proliferative status, pH of the surrounding environment, and composition or properties of the proteins tightly associated with the DNA. In the present study, the hypoxic fraction of three experimental tumors was estimated using our assay of radiation-induced DNA damage. The average hypoxic fraction of a large number of tumors estimated with this assay of radiation-induced DNA damage for (1) WiDR human colorectal carcinoma xenografts (40.8 +/- 4.2%), (2) 66 mouse mammary adenocarcinoma tumors (41.8 +/- 3.1%), and (3) subcutaneous tumors grown from 9L rat brain tumor cells (95% CI =-8.2-4.2%) was not statistically different from that of a large number of tumors measured for each of these tumor models by the paired survival curve method (38.3 +/- 6. 3%, 28.9 +/- 5.5%, 95% CI = 2.2-4.4%, respectively). When the hypoxic fraction measured by the alkaline elution method on one half of an individual tumor was compared to that measured by the paired survival curve method on the other half of the same tumor, no statistical correlation was found for either 66 or WiDR tumors. Although this assay of radiation-induced DNA damage can be used effectively in the laboratory to answer a number of important questions about the oxygenation status of animal tumors and normal tissues, failure to reliably estimate the hypoxic fraction of individual tumors and technical considerations make it unlikely that the assay can be used in the clinic to estimate the hypoxic fraction of human tumors.
- Published
- 2000
- Full Text
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10. Optimizing radiation therapy of brain tumours by combination of 5-bromo-2-deoxy-uridine & 2-deoxy-D-glucose.
- Author
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Kalia VK
- Subjects
- Brain Neoplasms genetics, DNA Damage, Humans, Micronucleus Tests, Radiation-Sensitizing Agents therapeutic use, Radiotherapy methods, Tumor Cells, Cultured, Brain Neoplasms radiotherapy, Bromodeoxyuridine therapeutic use, Deoxyglucose therapeutic use, Radiation Injuries prevention & control
- Abstract
The effects of 5-bromo-2-deoxy-uridine (BrdU) and 2-deoxy-D-glucose (2-DG) on 60Co-gamma ray induced damage were studied in a human glioma cell line grown as monolayer. Radiation induced micronuclei formation was used as an index of cytogenetic damage. Exponentially growing cells (doubling time 16-20 h) were incubated in the presence of BrdU (0.8 microM, in dark) for 24 h. After removing BrdU, cells were irradiated (1-4 Gy), incubated with or without 2-DG (2-3 h), and grown further (for 18, 24, 30 or 45 h) for assay of damage. It was observed that (i) BrdU and 2-DG treatments did not induce micronuclei formation in unirradiated cultures; (ii) pre-irradiation presence of BrdU increased the gamma-ray induced micronuclei formation; (iii) incubation of irradiated cells under sub-optimal growth conditions [Dulbecco's modified minimal essential medium (DMEM) + 1% serum, or DMEM alone] instead of growth medium (DMEM + 5% serum) progressively decreased micronuclei formation; and (iv) post-irradiation presence of 2-DG (1.25, 2.5, 5 mM, 2-3 h in DMEM + 1% serum) enhanced the radiation damage with and without BrdU treatment at all the time points studied. These observations suggest that (i) radiation induced lesions leading to micronuclei formation in proliferating cells are, at least, partly repairable; (ii) the presence of 2-DG (2DG/glucose > or = 0.25) for short intervals (approximately 2 h), could enhance radiation damage in proliferating brain tumour cells, in the absence as well as presence of BrdU incorporation; and (iii) the combination of 2-DG could reduce BrdU doses required for radiosensitization of brain tumours, reducing, thereby, its toxic side effects.
- Published
- 1999
11. Improving cancer radiotherapy with 2-deoxy-D-glucose: phase I/II clinical trials on human cerebral gliomas.
- Author
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Mohanti BK, Rath GK, Anantha N, Kannan V, Das BS, Chandramouli BA, Banerjee AK, Das S, Jena A, Ravichandran R, Sahi UP, Kumar R, Kapoor N, Kalia VK, Dwarakanath BS, and Jain V
- Subjects
- Adult, Cranial Irradiation, Female, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Brain Neoplasms radiotherapy, Deoxyglucose therapeutic use, Glioma radiotherapy
- Abstract
Purpose: Evaluation of tolerance, toxicity, and feasibility of combining large fraction (5 Gy) radiotherapy with 2-deoxy-D-glucose (2DG), an inhibitor of glucose transport and glycolysis, which has been shown to differentially inhibit repair of radiation damage in cancer cells., Methods and Materials: Twenty patients with supratentorial glioma (Grade 3/4), following surgery were treated with four weekly fractions of oral 2DG (200 mg/kg body weight) followed by whole brain irradiation (5 Gy). Two weeks later, supplement focal radiation to the tumor (14 Gy/7 fractions) was given. Routine clinical evaluation, x-ray computerized tomography (CT), and magnetic resonance (MR) imaging were carried out to study the acute and late radiation effects., Results: All the 20 patients completed the treatment without any interruption. The vital parameters were within normal limits during the treatment. None reported headache during the treatment. Mild to moderate nausea and vomiting were observed during the days of combined therapy (2DG + RT) in 10 patients. No significant deterioration of the neurological status was observed during the treatment period. Seven patients were alive at 63, 43, 36, 28, 27, 19, and 18 months of follow-up. In these patients, the clinical and MR imaging studies did not reveal any late radiation effects., Conclusions: Feasibility of administering the treatment (2DG + 5 Gy) is demonstrated by the excellent tolerance observed in all 20 patients. Further, the clinical and MR studies also show the absence of any brain parenchymal damage.
- Published
- 1996
- Full Text
- View/download PDF
12. Differential modification of radiation damage in 5-bromo-2-deoxy-uridine sensitized human glioma cells and PHA-stimulated peripheral leukocytes by 2-deoxy-D-glucose.
- Author
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Kalia VK and Devi NK
- Subjects
- Adult, Cells, Cultured, Glioma pathology, Humans, Leukocytes radiation effects, Male, Phytohemagglutinins, Tumor Cells, Cultured, Bromodeoxyuridine pharmacology, Deoxyglucose pharmacology, Glioma radiotherapy, Leukocytes drug effects, Radiation-Sensitizing Agents pharmacology
- Abstract
Effects of 5-bromo-2-deoxy-uridine (BrdU) and 2-deoxy-D-glucose (2-DG) on 60-Co-gamma-ray induced damage were studied in monolayer cultures of glioma (BMG-1) cells, and PHA-stimulated peripheral leukocytes from normal donors. Micronuclei formation was used as an index of cytogenetic damage. BrdU and 2-DG treatments did not induce micronuclei formation in unirradiated cultures. Presence of BrdU (0.8 microM) for more than one cell cycle (24 hr) significantly increased gamma-ray (1-4 Gy) induced micronuclei formation in exponentially growing BMG-1 cells. Incubation of irradiated cells under sub-optimal growth conditions (DMEM with 1% serum) for 3 hr, instead of growth medium, significantly decreased micronuclei formation. Post-irradiation presence of 2-DG (5 mM; 3 hr, in DMEM + 1% serum) significantly increased radiation damage. In BrdU sensitized cells also, 2-DG significantly increased radiation damage further. In PHA-stimulated leukocytes from normal donors, 2-DG (5mM, equimolar with glucose; for 2 hr) did not increase gamma-ray (2-Gy, 42 hr after PHA-stimulation) induced micronuclei formation. Pre-irradiation presence of BrdU (1.6 microM) significantly increased micronuclei. On the contrary, 2-DG treatment reduced radiation induced micronuclei formation in BrdU sensitized leukocyte cultures. These results suggest that (i) radiation induced lesions leading to micronuclei formation in proliferating tumour cells, are, at least, partly repairable; (ii) combination of 2-DG could reduce BrdU doses required for radiosensitization of proliferating tumour cells; and (iii) 2-DG could differentially increase radiation damage in BrdU sensitized proliferating tumour cells, while reducing manifestation of damage in normal proliferating cells.
- Published
- 1994
13. Potentiation of radiation effects in plateau phase human glioma cells by combination of metabolic inhibitors.
- Author
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Kalia VK
- Subjects
- Brain Neoplasms radiotherapy, Cell Survival drug effects, Chemotherapy, Adjuvant, DNA Damage drug effects, DNA, Neoplasm drug effects, DNA, Neoplasm radiation effects, Deoxyglucose therapeutic use, Glioma radiotherapy, Humans, Potassium Cyanide therapeutic use, Tumor Cells, Cultured, Brain Neoplasms drug therapy, Deoxyglucose pharmacology, Glioma drug therapy, Potassium Cyanide pharmacology
- Abstract
Effects of glycolytic inhibitor 2-deoxy-D-glucose (2-DG) on radiation damage were studied in a human glioma cell line (BMG-1), grown to confluence in monolayer. After irradiation (60Co-gamma-rays, 2 Gy) and incubation with low concentrations of 2-DG (0.5, 1.25 mM; 2-DG/glucose = 0.1, 0.25; 2 hr), in the absence or presence of respiratory inhibitor KCN (0.5-2 mM), cells were trypsinized and plated to assay radiation induced cytogenetic damage (micronuclei formation). The observations made were: (1) 2-DG and/or KCN treatments did not induce damage in unirradiated cells. (2) Either of these treatments did not increase radiation induced micronuclei formation. (3) Presence of 2-DG along with KCN (1,2 mM) significantly enhanced the radiation induced micronuclei formation. (4) Preliminary experiments by macrocolony assay showed that radiation induced cell death was also significantly increased by the combined treatment. These observations suggest that presence of clinically feasible, low concentrations of 2-DG (2-DG/glucose < 0.5) for short intervals of time after radiation could increase radiation damage in non-cycling, hypoxic tumour cells with impaired oxidative and increased glycolytic energy metabolism.
- Published
- 1993
14. Modification of radiation damage in transformed mammalian cells by 5-bromo-2-deoxy-uridine and 2-deoxy-D-glucose.
- Author
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Kalia VK and Jain V
- Subjects
- Animals, Cell Line, Transformed, Cricetinae, Micronuclei, Chromosome-Defective drug effects, Micronuclei, Chromosome-Defective radiation effects, Bromodeoxyuridine pharmacology, DNA Damage drug effects, Deoxyglucose pharmacology
- Abstract
The effects of 2-deoxy-D-glucose (2-DG) and 5-bromo-2-deoxy-uridine (BrdU) on gamma ray (60Co) induced damage were studied in monolayer cultures of transformed mammalian (BHK-21) cells. Micronuclei formation and changes in DNA content dispersion were used as indices of cytogenetic damage. Exposure of cells to BrdU (0.8 microM) for nearly two cell cycles before irradiation significantly increased micronuclei formation in exponentially growing cells. Incubation of irradiated cells under suboptimal growth conditions (in HBSS) for 4 hr, instead of growth medium, decreased the manifestation of damage. However, post-irradiation presence of 2-DG (5 mM, equimolar with glucose; 4 hr) in growth medium or HBSS significantly increased radiation damage. The effects of 2-DG treatment following irradiation in plateau phase were quantitatively less. These results suggest that: (i) radiation induced DNA lesions leading to micronuclei formation in BrdU incorporated cells are partly repairable; (ii) 2-DG could increase radiation induced cytogenetic damage in transformed mammalian cells, possibly by inhibiting the cellular repair processes; and (iii) combination of 2-DG treatment may decrease the BrdU doses required for radiosensitization of proliferating tumour cell populations.
- Published
- 1993
15. Effects of 5-bromo-2-deoxy-uridine and 2-deoxy-D-glucose on the radiosensitivity of proliferating transformed mammalian cells.
- Author
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Kalia VK and Jain V
- Subjects
- Animals, Cell Line, Transformed, Cricetinae, Radiation Tolerance, Radiotherapy, Bromodeoxyuridine pharmacology, Cell Division drug effects, Deoxyglucose pharmacology
- Abstract
Effects of 5-bromo-2-deoxy-uridine (BrdU) and 2-deoxy-D-glucose (2-DG) were studied in exponentially growing transformed mammalian (BHK-21) cells, grown as monolayer. Micronuclei formation as an index of radiation damage was studied by i) cytokinesis block technique from cytochalasin-B induced binucleated cells, and ii) conventional technique. Presence of BrdU (0.8 microM) for nearly 2 cell cycles before gamma-irradiation (2.5 Gy) significantly increased frequencies of cells with micronuclei. Post-irradiation incubation of cultures in liquid holding medium (HBSS) however, reduced micronuclei formation, especially in the BrdU treated cells. Presence of 2-DG (4 hr, equimolar with glucose) in growth as well as liquid holding medium further increased micronuclei frequencies. These observations suggest that radiation induced DNA lesions in BrdU substituted cells, leading to chromosome fragmentation are partly repairable. 2-DG increased cytogenetic damage, possibly by inhibiting the repair of such repairable lesions. Present studies suggest that combination of 2-DG could optimize BrdU-radiation therapy of brain tumors, by reducing the BrdU doses required for tumor radiosensitization.
- Published
- 1991
16. Effects of 2-deoxy-D-glucose on glycolysis, proliferation kinetics and radiation response of human cancer cells.
- Author
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Jain VK, Kalia VK, Sharma R, Maharajan V, and Menon M
- Subjects
- Cell Division radiation effects, Cell Nucleus drug effects, Cell Nucleus radiation effects, Cell Nucleus ultrastructure, DNA Repair, Energy Metabolism, Flow Cytometry, Gamma Rays, HeLa Cells, Humans, Interphase drug effects, Interphase radiation effects, Cell Division drug effects, Deoxy Sugars pharmacology, Deoxyglucose pharmacology, Glycolysis drug effects
- Abstract
The effects of 2-deoxy-D-glucose (2-DG) on energy metabolism, cell proliferation kinetics, radiation-induced DNA repair, and micronuclei formation in HeLa cells have been studied. Results show that the 2-DG induced modifications of the radiation effects are biphasic: at high 2-DG concentrations (greater than 2.5 mM), DNA repair is inhibited and manifestation of radiation damage is enhanced as observed by an increase in the radiation (X ray) induced micronuclei formation; lower concentrations of 2-DG (less than 2.5 mM) do not inhibit DNA repair and a decrease in the frequency of micronuclei formation is observed. These data, in correlation with the effects of 2-DG on glycolysis and cell proliferation kinetics, can be explained by the hypothesis that 2-DG induced modifications of radiation effects arise as a result of energy linked differential inhibitions of pathways of repair and fixation of DNA damage. Implications for cancer therapy are discussed.
- Published
- 1985
- Full Text
- View/download PDF
17. Optimization of cancer therapy: Part IV--Effects of 2-deoxy-D-glucose on radiation induced chromosomal damage in PHA-stimulated peripheral human leukocytes.
- Author
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Kalia VK, Jain VK, and Otto FJ
- Subjects
- Adult, DNA Repair drug effects, Humans, In Vitro Techniques, Leukocytes drug effects, Leukocytes radiation effects, Male, Phytohemagglutinins pharmacology, Chromosome Aberrations, Deoxy Sugars pharmacology, Deoxyglucose pharmacology, Neoplasms therapy
- Published
- 1982
18. Optimization of cancer therapy: Part III--Effects of combining 2-deoxy-D-glucose treatment with gamma-irradiation on normal mice.
- Author
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Jain VK, Kalia VK, Gopinath PM, Naqvi S, and Kucheria K
- Subjects
- Animals, Gamma Rays therapeutic use, Male, Mice, Neoplasms radiotherapy, Chromosome Aberrations, Deoxy Sugars therapeutic use, Deoxyglucose therapeutic use, Neoplasms drug therapy
- Published
- 1979
19. 2-Deoxy-D-glucose induced enhancement of radiation damage in 5-bromo-2'-deoxy-uridine sensitized mammalian cells.
- Author
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Kalia VK and Jain VK
- Subjects
- Animals, Cell Line, Cell Nucleus drug effects, Cell Nucleus radiation effects, Cell Survival drug effects, Cell Survival radiation effects, DNA drug effects, Gamma Rays, Bromodeoxyuridine pharmacology, DNA radiation effects, DNA Damage, Deoxy Sugars pharmacology, Deoxyglucose pharmacology
- Published
- 1987
20. 2-Deoxy-D-glucose induced modification of chromosomal damage in UV-irradiated peripheral human leukocytes.
- Author
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Kalia VK and Jain VK
- Subjects
- Adult, Cells, Cultured, Humans, Leukocytes cytology, Leukocytes radiation effects, Male, Phytohemagglutinins pharmacology, Ultraviolet Rays, Chromosome Aberrations, Deoxy Sugars pharmacology, Deoxyglucose pharmacology, Mitosis radiation effects
- Abstract
UV-irradiation (0.6 J/m2) of peripheral human leukocytes 27 hr after PHA-stimulation induced a considerable mitotic delay in the cultures. Approximately two thirds of the chromosomal aberrations induced by UV were gaps of the chromatid and isochromatid types. Treatment with glucose antimetabolite 2-deoxy-D-glucose (2-DG) alone did not induce any chromosomal damage. Presence of 2-DG (5 mM, equimolar with glucose) for 2 hr after UV-irradiation resulted in a significant reduction in the frequency of cells with aberrations. Decrease in the total aberrations per cell was also observed. The data are consistent with earlier observations that 2-DG reduces the manifestation of radiation damage in normal proliferating cells.
- Published
- 1989
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