Cheng E. Ng scite author profile

In order to examine the mechanisms underlying radiation-induced changes in phosphorus metabolite levels observed in RIF-1 tumors in vivo, RIF-1 cells in culture were perfused for up to 70 h following gamma-irradiation with 0-25 Gy and monitored continuously by 31P NMR spectroscopy at 8.5 T. Cells immobilized in the sample volume by incorporation into calcium alginate beads were bioenergetically stable, but did not replicate at the cell density used. Following an initial increase in PCr and NTP, which occurred in both control and irradiated cells, a dramatic decline in high-energy phosphates was detected beginning 24-30 h after irradiation with 15 or 25 Gy. In contrast, unirradiated cells or cells treated with 10 Gy remained metabolically stable for up to 72 h. The metabolic changes induced by irradiation of the cultured cells, which reflected cell death and lysis, were distinctly different from those observed in RIF-1 tumors in vivo during the same postirradiation time interval--an increase in high-energy relative to low-energy phosphates. This suggests that the spectral changes in vivo do not result from direct modification of cellular energy metabolism by radiation injury.

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Comparison of the X-Radiation, Drug and Ultraviolet-Radiation Responses of Clones Isolated from a Human Colorectal Tumor Cell Line

Qutob

Multani²,

Pathak

et al. 2004

Radiation Research

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We isolated several clones with a wide range of responses to X radiation from an unirradiated human colorectal (HCT 116) tumor cell line. The responses of one of these clones (HCT116-Clone10) and nine other clones to either fractionated or acute (i.e. single, nonfractionated doses) X irradiation in vitro was similar to that of the parental cell line. By contrast, after the same types of treatment, another clone (HCT116-Clone2) manifested a significantly increased survival whereas a third clone (HCT116-CloneK) manifested a significantly decreased survival relative to the parental cell line. This suggested that they were, respectively, a radioresistant and a radiosensitive clone. All three clones (clones 2, 10, K) retained their tumorigenic phenotype and formed tumors in nude mice. G-banding studies demonstrated that they were of human origin and were derived from the same parental cell line. The metaphases of HCT116-Clone2 demonstrated features commonly associated with genomic instability (i.e. mitotic catastrophe including chromosome and chromatid breaks, dicentrics and additional nonclonal markers). Data obtained by quantitative fluorescence in situ hybridization (Q- FISH) analysis failed to demonstrate any apparent correlation between the radiosensitivity and the relative telomere content of these three clones. Interestingly, HCT116-CloneK was the most resistant to several chemotherapeutic drugs (topotecan, camptothecin, etoposide and cisplatin) with diverse mechanisms of action. Also, there were no significant differences in the survivals of the three clones after treatment with UV radiation. Because of the lack of overlap among the relative sensitivities of these clones to X radiation, chemotherapeutic drugs and UV radiation, these clones may be useful models for evaluating the genetic basis of the response of human tumor cells to these treatment agents both in vitro and in vivo.

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Cheng E. Ng

Metabolism of alternative substrates and the bioenergetic status of EMT6 tumor cell spheroids

³¹p nme spectroscopic study of the effects of γ‐irradiation on rif‐1 tumor cells perfused in vitro

Comparison of the X-Radiation, Drug and Ultraviolet-Radiation Responses of Clones Isolated from a Human Colorectal Tumor Cell Line

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Cheng E. Ng

Metabolism of alternative substrates and the bioenergetic status of EMT6 tumor cell spheroids

31p nme spectroscopic study of the effects of γ‐irradiation on rif‐1 tumor cells perfused in vitro

Comparison of the X-Radiation, Drug and Ultraviolet-Radiation Responses of Clones Isolated from a Human Colorectal Tumor Cell Line

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³¹p nme spectroscopic study of the effects of γ‐irradiation on rif‐1 tumor cells perfused in vitro