Y. Sontag scite author profile

We have investigated UV-B-induced skin tumors of hairless SKH-HRA mice for alterations in the p53 gene and for mutations in either of the three ras genes. Out of 32 tumors screened, only one contained a ras mutation, i.e. in codon 12 of the K-ras gene. Alterations in the p53 gene were much more abundant, as illustrated immunohistochemically by the accumulation of p53 protein in 75% of the tumor sections examined. Immunoreactivity was observed primarily in the proliferative cell compartment, but no clear correlation between p53 staining in tumor cells and histological parameters for malignancy was observed. Subsequent sequence analysis showed that point mutations in the p53 gene are detectable in 30% (nine out of 30) of the skin tumors examined. The majority of the mutations are located in codons 267 and 272, most likely originating from UV-B-induced photo-adducts at dipyrimidine sites in the non-transcribed strand. Codon 272 corresponds to the human codon 278, which is also a hotspot for p53 mutations in human non-melanoma skin cancers. Codon 267 matches the human codon 273, which does not contain a dipyrimidine site, but represents a CpG hotspot for p53 mutations in internal malignancies. Our results demonstrate that this hairless mouse model for UV-induced skin cancer corresponds closely to human non-melanoma skin cancers with respect to mutations in the p53 gene.

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Cells with UV-Specific DNA Damage Are Present in Murine Lymph Nodes After In Vivo UV Irradiation

Sontag¹,

Guikers²,

Vink³

et al. 1995

Journal of Investigative Dermatology

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Ultraviolet radiation is absorbed in the skin, especially in the epidermis. After ultraviolet irradiation the number of major histocompatibility complex class II+, adenosine triphosphatase+ Langerhans cells and Thy-1+ dendritic epidermal cells in the epidermis decreases. Whether this decrease is due to migration of these cells or to loss of membrane markers is not clear. To address this question we have used the monoclonal antibody H3 directed against cyclobutyl thymine dimers-a form of DNA damage that is specifically induced by ultraviolet radiation-to investigate whether H3+ cells are present in the draining lymph nodes of the skin after ultraviolet irradiation of hairless, inbred mice (HRA/Skh). After a single dose of ultraviolet radiation (Westinghouse FS40, 1.5 kJ/m2), H3+ cells were present in the paracortex of the draining lymph nodes. No positive cells were found in the blood of irradiated mice. These results suggest that the H3+ cells in the lymph nodes originate from the skin. The number of H3+ cells in the draining lymph nodes increased the first 24 h after irradiation and then stabilized. Immunohistochemical double staining revealed that all H3+ cells were major histocompatibility complex II+, and that only a fraction of the cells were NLDC-145 positive. No V gamma 3 T-cell receptor bearing cells could be found in the lymph nodes after UV irradiation of the skin.

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Estimation of the effect of increasing UVB exposure on the human immune system and related resistance to infectious diseases and tumours

Garssen

Norval

El‐Ghorr

et al. 1998

Journal of Photochemistry and Photobiology B: Biology

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Time and Dose Dependence of Acceptance of UV‐lnduced Syngeneic Tumor Implants in Chronically UV‐Exposed Hairless Mice

Sontag

Steerenberg

Garssen

et al. 1997

Photochem & Photobiology

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The kinetics of skin cancer induction by UV radiation has been extensively studied in hairless mice and described by Weibull statistics in which the time till 63% of the mice bear tumors is a primary parameter. However, the kinetics of the associated immunosuppression remained to be determined. To this end, we implanted a syngeneic UV-induced skin carcinoma cell line (T51/6.53) in the ventral skin of HRA/SKH hairless mice after various periods of daily dorsal UV exposure, either 150 or 75 mJ/cm2 per day UV from F40 sunlamps (regimens that when continued yield 63% of the mice with 1 mm tumors in 11.5 or 16.2 weeks, respectively). Both exposure regimens achieved a 100% acceptance (after 7 and 16 weeks, respectively). The implants failed to grow in all unirradiated control mice, but the percentage of mice in which the implants grew increased with the UV treatment time and dose. The estimated times to 63% implant acceptance were 4.3 +/- 0.8 and 8.2 +/- 0.8 weeks for the high and low daily doses, respectively. As reported earlier for shaved haired mice, there appears to be a straight reciprocity between daily UV dose and the time to tumor acceptance, i.e. the latter fully depends on the cumulative UV dose, whereas the tumor induction does not. The latter probably also depends on a pure elapse of time, i.e. UV-independent processes. A further analysis of the Weibull description indicates that immunosuppression toward the tumor requires fewer UV-driven steps that tumor induction.

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The effect of oral quercetin on UVB-induced tumor growth and local immunosuppression in SKH-1

et al. 1997

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Y. Sontag

Frequent p53 alterations but low incidence of ras mutations in UV-B-induced skin tumors of hairless mice

Cells with UV-Specific DNA Damage Are Present in Murine Lymph Nodes After In Vivo UV Irradiation

Estimation of the effect of increasing UVB exposure on the human immune system and related resistance to infectious diseases and tumours

Time and Dose Dependence of Acceptance of UV‐lnduced Syngeneic Tumor Implants in Chronically UV‐Exposed Hairless Mice

The effect of oral quercetin on UVB-induced tumor growth and local immunosuppression in SKH-1

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