Sensitivity of Synchronized Chinese Hamster Cells to Ultraviolet Light

Han, A.; Sinclair, Warren K.

doi:10.1016/s0006-3495(69)86444-1

Cited by 45 publications

(15 citation statements)

References 31 publications

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“…Another interesting observation is the similarity between the age-response curves found in this work and those for a variety of other agents. Many cytotoxic agents (Mauro & Madoc-Jones, 1970), hyperthermia (Westra & Dewey, 1971) and UV (Han & Sinclair, 1969) act especially effectively on cells in the S-phase. This seems to be to agents which are known to interact with DNA synthesis (e.g.…”

Section: Discussionmentioning

confidence: 99%

Photodynamic effect of haematoporphyrin throughout the cell cycle of the human cell line NHIK 3025 cultivated in vitro

Christensen¹,

Moan²,

Wibe³

et al. 1979

Br J Cancer

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Summary.-Cells from the established cell line NHIK 3025 were synchronized by repeated mitotic selections. Survival of the synchronized cells after treatment with haematoporphyrin and near-UV light was measured by testing the capacity of the cells to form macroscopic colonies.The sensitivity to photodynamic inactivation was small in early G1, late S and G2. The sensitivity increased throughout late G1 and early S to a maximum in mid S. More than a 100-fold variation is found in the survival after 20 min irradiation in the presence of 4 x 10-4M haematoporphyrin.

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Section: Discussionmentioning

confidence: 99%

Photodynamic effect of haematoporphyrin throughout the cell cycle of the human cell line NHIK 3025 cultivated in vitro

Christensen¹,

Moan²,

Wibe³

et al. 1979

Br J Cancer

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“…At this same time, the per cent of cells entering DNA synthesis was at the lowest level, but by 6-5 hours the number of labelled cells had begun to increase. The inhibition of DNA synthesis in mammalian cells after UVL irradiation is not unlike that reported after u.v.-irradiation (Cleaver 1965, Djordjevic and Tolmach 1967, Han and Sinclair 1969, and Lee and Puck 1960. However, a stimulation of a type of DNA synthesis after u.v.-irradiation also occurs , Painter and Cleaver 1967, and Rasmussen and Painter 1966.…”

Section: Discussionmentioning

confidence: 88%

Reproductive Integrity of Cells after Ultra-violet Laser Irradiation

Stroud

Rounds²,

Creter

et al. 1971

International Journal of Radiation Biology and Related Studies

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A monochromatic, coherent, high-intensity laser beam, with a wave-length of 265 nm, was tested for its effect on cellular reproduction and nucleic-acid synthetic activity. Using cloning procedures, it was established that cellular reproduction rates of both the DON-CII and CMP cell-lines decreased in direct proportion to the imposed ultra-violet laser (UVL) dose. The dose-response curves suggested that both cell-lines were reacting to a single-hit phenomenon, but the human cell-line (CMP) was more sensitive than the hamster cell-line (DON-CII). ULV treatment of DON-CII cells inhibited both tritium and uridine uptake rates within the initial post-treatment period, but recovery occurred after 7 hours of incubation. However, an analysis of grain counts suggested that RNA metabolism was maintained at 75 per cent of control values from 7 to 24 hours after ULV treatment.

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“…It is well established that S cells are the most susceptible to U .V . cell-killing (Djordjevic and Tolmach 1967, Han and Sinclair 1969, Han 1973 . The yield of DNA-protein cross-linking is maximum at the same cell age .…”

Section: Resultsmentioning

confidence: 99%

“…This drug is very effective sensitizer of mammalian cells in the case of both ionizing and U .V .-irradiation (Djordjevic and Szybalski 1960) . In addition, the inhibition of protein synthesis at certain stages of the cell-cycle before U .V.-exposure prevents the decrease in U .V.-sensitivity (Han and Sinclair 1969) characteristically seen late in the cycle, and the same kind of treatment increases the amount of DNA cross-linked to proteins (Han 1973) .…”

Section: Discussionmentioning

confidence: 99%

DNA-to-protein Cross-linking in Synchronized HeLa Cells Exposed to Ultra-violet Light

Han¹,

Korbelik

Ban³

1975

International Journal of Radiation Biology and Related Studies

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The U.V.-induced DNA-to-protein cross-linking in synchronously growing HeLa cells exhibits age-dependent variations. The maximum yield of cross-linking is observed during S-phase and exposure of mid-S cells to 250 ergs/mm2 renders about 22 per cent of DNA unextractable owing to cross-linking with proteins. Cells irradiated in G1 or G2 exhibit much smaller amount of cross-linking. The unextracted DNA was recovered from the protein fraction, and the addition of 0-5 per cent trypsin solution rendered all the DNA extractable. Fluctuations in the age-response pattern for the yield of DNA-protein cross-links varies throughout the cell-cycle in the same way as the efficiency for cell-killing, i.e. cells are resistant in G1, sensitive as they move into and through the S phase, and resistant again in G2. Dose-response curves determined at different times in the cycle reveal that up to about 500 ergs/mm2 the amount of DNA recovered from S cells decreased for about 8 per cent for every 100 ergs/mm2 of U.V. light. The amount of recovered DNA remained unchanged for cells exposed to 500 ergs/mm2 in the middle of S, for as long as 8 hours after exposure, i.e. for as long as the experiments were carried out no recovery from this damage was observed.

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Sensitivity of Synchronized Chinese Hamster Cells to Ultraviolet Light

Cited by 45 publications

References 31 publications

Photodynamic effect of haematoporphyrin throughout the cell cycle of the human cell line NHIK 3025 cultivated in vitro

Photodynamic effect of haematoporphyrin throughout the cell cycle of the human cell line NHIK 3025 cultivated in vitro

Reproductive Integrity of Cells after Ultra-violet Laser Irradiation

DNA-to-protein Cross-linking in Synchronized HeLa Cells Exposed to Ultra-violet Light

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