Photoreactivation of ultraviolet radiation-induced basic fibroblast growth factor (bFGF) and the role of bFGF in corneal lesion formation in Monodelphis domestica.

Chronic ultraviolet radiation (UVR) exposure to the eyes of Monodelphis domestica causes corneal opacification, neovascularization, and fibrosarcoma induction. By immunohistochemistry and Western blotting, we have shown that one to four exposures of the eyes of this opossum to UVR enhances basic fibroblast growth factor (bFGF) expression by the corneal epithelium. Treatment with photoreactivating light, which selectively removes UVR-induced pyrimidine dimers, suppresses bFGF induction, indicating that UVR induction of bFGF is ultimately due to DNA damage. Furthermore, UVR-induced corneal tumors derived from corneal keratocytes express bFGF mRNA and protein, as determined by immunohistochemistry and in situ hybridization. Taken together, these findings suggest that bFGF acts in both an autocrine and a paracrine manner to stimulate corneal fibroplasia, neovascularization, and tumor development.

Dose response for ultraviolet radiation A-induced focal melanocytic hyperplasia and nonmelanoma skin tumors in Monodelphis domestica.

Four groups of 30 dorsally shaved opossums (Monodelphis domestica) were exposed to graded doses of ultraviolet radiation A (UVA) (320-400 nm) three times per week for 90 weeks. Animals were monitored for the appearance of focal melanocytic hyperplasia (FMH) and nonmelanoma skin tumors (NMST) during the course of the exposures and for an additional 20 weeks following termination of exposures. FMH is the putative precursor for melanoma in the opossum. The lowest dose of UVA (2.5 x 10(3) J/m2) used in this study was selected based on the action spectrum for the induction of melanoma in a fish model. The prediction was that 2.5 x 10(3) J/m2 would induce FMH in the opossum if the action spectra for the induction of FMH in the opossum and melanoma in the fish were the same. The highest UVA dose was 2.5 x 10(5) J/m2. Only the highest dose of UVA gave a statistically significant induction of FMH and NMST in the opossum. As in previous studies, the FMH appeared earlier than the NMST during the course of exposures and the final prevalence of FMH was lower than the final prevalence of NMST. Overall, the results of this study indicate that the efficacy of UVA to induce FMH in the opossum is not as great as would be predicted from the action spectrum for melanoma induction in a fish model.

UVAI-induced edema and pyrimidine dimers in murine skin.

The induction of edema and pyrimidine dimers in epidermal DNA was determined in the skin of SKH:HR1 mice exposed to graded doses of ultraviolet radiation AI (UVAI; 340-400 nm). Exposure to UVAI induced 1.6 +/- 0.08 x 10(-6) (mean +/- standard error of mean) pyrimidine dimers per 10(8) Da of DNA per J/m2. Edema in irradiated animals was determined as an increase in skinfold thickness. A dose of 1.8 x 10(6) J/m2 of UVAI that resulted in a 50% increase in skinfold thickness (SFT50%) would have induced 1.0 x 10(5) dimers per basal cell genome. A similar increase in SFT induced by full spectrum solar ultraviolet radiation (290-400 nm) would accompany the induction of 11.0 x 10(5) pyrimidine dimers per basal cell genome. These results support a hypothesis that UVAI-induced pathological changes of the skin are mediated through the formation of nondimer photoproducts.

Photobiology of Monodelphis domestica.

The gray, short-tailed opossum, Monodelphis domestica, has been used for photobiologic studies since 1984. The presence of a light-activated DNA repair pathway in the tissues of Monodelphis has been used to identify pyrimidine dimers in DNA as initiating events for a number of ultraviolet radiation (UVR)-induced pathologies of the skin and cornea. Furthermore, Monodelphis, unlike common laboratory rodents, is susceptible to the induction of melanoma by UVR alone.

Cloning and characterization of the CDKN2A and p19ARF genes from Monodelphis domestica.

The tumor suppressor gene, CDKN2A (p16), encodes a cyclin-dependent kinase inhibitor and functions as a negative regulator in the retinoblastoma pathway that blocks cell cycle progression from the G1 phase. The gene has been found to be deleted, truncated, mutated, or silenced by promoter methylation in a wide range of tumor types. Where melanoma CDKN2A mutations have been characterized, C --> T and CC --> TT transitions were found, indicating a direct role for ultraviolet radiation (UVR)-induced pyrimidine dimers in the formation of some tumors. The South American opossum, Monodelphis domestica, has been shown by our group and others to be susceptible to the induction of melanoma on chronic exposure to UVR alone. The CDKN2A gene and its exon 1beta alternate transcript p19ARF were cloned and sequenced from M. domestica to investigate the role of these genes in the development of UVR-induced melanoma and non-melanoma tumors. Both genes were first amplified by polymerase chain reaction (PCR) using cDNA from an opossum corneal-tumor cell-line library and degenerate primers based on human, mouse, and rat CDKN2A gene sequences. To verify these as normal sequences, both genes were then RT-PCR amplified from cultured normal opossum melanocyte mRNA. When comparing the tumor and melanocyte sequences, we found a UVR signature point mutation, a C --> T transition, within exon 2 in the corneal tumor cell line. The same mutation at this site in other tumors has been shown to alter the CDKN2A protein's ability to bind CDK4 kinase, which may lead to uncontrolled cell cycling. A comparison of the amino acid sequence of opossum CDKN2A showed identities relative to human, mouse, and rat between 57% and 63%, and when conserved amino acid substitutions are considered (similarity), the range is 63% to 67%. The amino acid identity and similarity for p19ARF ranged from 39% to 49%.

Ultraviolet A radiation (320-400 nm) protects hairless mice from immunosuppression induced by ultraviolet B radiation (280-320 nm) or cis-urocanic acid.

T cell-mediated immune function, here measured as the contact hypersensitivity reaction, is readily suppressed by moderate exposure of mice to ultraviolet B (UVB) or solar-simulated radiation (SSUV), or by topical application of cis-urocanic acid. The effect of ultraviolet A (UVA) radiation on immune function has been unclear. Here we have demonstrated that when UVA radiation from a fluorescent tube source was rigorously filtered to remove contaminating UVB radiation, it was immunologically innocuous at physiologically relevant doses. Furthermore, we have found that mice exposed to UVA radiation, either immediately after, or up to 24 h before, immunosuppressive treatment with either UVB radiation, SSUV or cis-urocanic acid, became refractory to the immunosuppression and retained more normal contact hypersensitivity. A greater UVA exposure reversed the immunosuppression more effectively. The results suggest that there are immunologically significant interactions between UV wavebands, and that UVA exposure may induce a relatively long-lived immunoprotective photoproduct, as yet unidentified, that can inhibit the activity of epidermal cis-urocanic acid and thus provide protection from photoimmunosuppression.

H-ras oncogene activation in invasive UVR-induced corneal sarcomas of the opossum Monodelphis domestica.

Chronic exposure to ultraviolet radiation (UVR) induces corneal sarcomas in the South American opossum Monodelphis domestica. Cell lines are readily established from these tumors. Northern blotting of mRNA from six such cell lines revealed high expression of the H-ras oncogene. H-ras cDNA from an eye tumor cell line was cloned and characterized; the germline sequence of codons 12, 13, and 61 was confirmed by examination of H-ras sequences amplified from liver DNA by the polymerase chain reaction. The Monodelphis H-ras coding sequence is 84-89% identical to that of other vertebrates at the nucleotide level, and the predicted 189-amino-acid sequence differs by 2-12 amino acids from that of other vertebrates. Analysis of 12 primary invasive corneal sarcomas induced by chronic UVR exposure revealed no evidence of H-ras gene amplification or rearrangement. One tumor was heterozygous for an activating point mutation in codon 61 of the H-ras gene; the tumor was also homozygous for a point mutation at an adjacent site in codon 62. These results provide additional evidence for the functional importance and consequent evolutionary conservation of the ras oncogenes.

Ultraviolet radiation A-induced precursors of cutaneous melanoma in Monodelphis domestica.

Two groups of 30 dorsally shaved opossums (Monodelphis domestica) were exposed three times per week for 81 weeks to 250 J/m2 of UV radiation from FS40 sunlamps (approximately 150 J/m2 of UV radiation B; UV-B), or to 2.5 x 10(4) J/m2 of UV radiation A (UV-A) from filtered F40BLB fluorescent lamps (black lights). Animals were monitored for the appearance of nonmelanoma skin tumors (NMSTs) and melanocytic hyperplasia (MH). After 81 weeks of exposures, the prevalence of NMSTs was 71% and 4% for animals exposed to UV-B and UV-A, respectively. The difference between the treatment groups was statistically significant (P < 0.001). However, the prevalence of MH in the treatment groups, 31% for UV-B-exposed animals and 22% for UV-A-exposed animals, was not significantly different (P > 0.05). Thus, a dose of UV-A that was relatively ineffective in producing NMSTs, compared to UV-B, was as effective as UV-B in the induction of MH. If, as shown previously, MH is the precursor lesion for melanoma in this model, these results suggest that the action spectra for the induction of melanoma and NMSTs in the opossum are different.

S-100 immunoreactivity in melanomas of the South American opossum Monodelphis domestica.

S-100 immunoreactivity was determined 1) in foci of melanocytic hyperplasia, 2) in naturally occurring, ultraviolet radiation-induced, and 9,10-dimethyl-1,2-benzanthracene (DMBA)-induced primary melanomas, and 3) in metastatic melanoma lesions in the South American opossum Monodelphis domestica. Preneoplastic lesions of melanocytic hyperplasia contained scattered cells with S-100-positive nuclei. All primary melanomas, with the exception of a single DMBA-induced tumor, contained cells with S-100-positive nuclei. The pattern of S-100 reactivity in tumors varied from large foci of S-100-positive cells to scattered individual S-100-positive cells. Lymph node metastases were S-100 positive, but metastatic masses in internal organs were usually S-100 negative. Although S-100 reactivity did not distinguish preneoplastic lesions from tumors or benign melanomas from malignant melanomas, identification of metastatic tumor cells clearly demonstrated malignancy.

Sunscreen protection against ultraviolet radiation-induced pyrimidine dimers in mouse epidermal DNA.

Pyrimidine dimers were measured in epidermal DNA of SKH:HR1 mice following exposure to solar-simulated UV radiation (SSUV, 290-400 nm) or to UVA (320-400 nm). Mice were exposed to SSUV or UVA after topical application (2 mg/cm2) of vehicle, a UVB absorber (5% 2-ethylhexyl p-methoxycinnamate [2-EHMC]), or a broad-spectrum UVA absorber (5% Mexoryl SX). The rates of induction of pyrimidine dimers in untreated animals were 5.4 +/- 0.57 x 10(-4) (mean +/- SEM) and 7.6 +/- 0.95 x 10(-6) dimers per 10(8) Da of epidermal DNA per J/m2 of SSUV and UVA, respectively. Topical application of Mexoryl SX reduced the rate of induction of pyrimidine dimers in SSUV-exposed animals to 4.7 +/- 0.44 x 10(-5) dimers per 10(8) Da per J/m2 for a dimer induction protection factor (PF) of 11.5 (5.4 x 10(-4)/4.7 x 10(-5). The rate of dimer induction in Mexoryl SX-treated, UVA-exposed mice was 0.95 +/- 0.2 x 10(-6) dimers per 10(8) Da per J/m2 (PF = 8.0). The 2-EHMC at a concentration of 5% (wt/wt) was significantly less effective than Mexoryl SX in preventing the induction of pyrimidine dimers in animals exposed to either SSUV or UVA. The rates of dimer induction in 2-EHMC-treated mice were 8.2 +/- 1.1 x 10(-5) and 3.8 +/- 0.33 x 10(-6) dimers per Da per J/m2 of SSUV (PF = 6.6) and UVA (PF = 2.0), respectively. Upon normalizing to the efficacy for edema induction, UVA induced approximately one-fourth the number of pyrimidine dimers per equivalent edematous response when compared to SSUV.

Chemoprevention of ultraviolet radiation-induced skin cancer.

The use of chemical and physical sunscreening agents has increased dramatically during the last two to three decades as an effective means of preventing sunbum. The use of high sunprotection factor sunscreens has also been widely promoted for the prevention of skin cancer, including melanoma. Whereas sunscreens are undoubtedly effective in preventing sunbum, their efficacy in preventing skin cancer, especially melanoma, is currently under considerable debate. Sunscreens have been shown to prevent the induction of DNA damage that presumably results from the direct effects of ultraviolet radiation (UVR) on DNA. DNA damage has been identified as an initiator of skin cancer formation. However, both laboratory and epidemiological studies indicate that sunscreens may not block the initiation or promotion of melanoma formation. These studies suggest that the action spectrum for erythema induction is different than the action spectrum for the induction of melanoma. Indeed, recent reports on the wavelength dependency for the induction of melanoma in a fish model indicate that the efficacy of ultraviolet A wavelengths (320-400 nm) to induce melanoma is orders of magnitude higher than would be predicted from the induction of erythema in man or nonmelanoma skin tumors in mice. Other strategies for the chemoprevention of skin cancer have also been reported. Low levels and degree of unsaturation of dietary fats protect against UVR-induced skin cancer in mice humens. Compounds with antioxidant activity, including green tea extracts (polyphenols), have been reported to inhibit UVR-induced skin carcinogenesis.

Cis-urocanic-acid-induced suppression of contact hypersensitivity in Monodelphis domestica is prevented by ultraviolet A radiation/photoreactivating light.

The suppression of contact hypersensitivity by UVB (280-320 nm) radiation can be prevented by photoreactivating light (PRL; 320-400 nm) in the opossum Monodelphis domestica, implicating epidermal DNA lesions as the immunosuppressive impairment. However, contact hypersensitivity can also be suppressed in the opossum with exogenous cis-urocanic acid, a molecule which is produced in UVB-irradiated epidermis and is a second potential mediator of photo-immunosuppression apparently independent of UVB-induced DNA damage. Here we demonstrate that irradiation of opossums with PRL either before or following treatment with exogenous cis-urocanic acid, significantly reduced the degree of immunosuppression. This suggests that, in addition to its capacity to initiate post-UVB-exposure epidermal DNA repair, the PRL waveband can induce an immunoprotective product, as yet unidentified, in opossum epidermis.

Photorepair of ultraviolet radiation (UVR)-induced pyrimidine dimers in lens epithelial DNA of Monodelphis domestica.

The repair of UV radiation-induced pyrimidine dimers has been measured in lens epithelial DNA of the marsupial Monodelphis domestica using a pyrimidine dimer-specific endonuclease from Micrococcus luteus. Approximately 40% of the initially induced dimers were repaired during 90 min exposures to photoreactivating light. This capacity of the lens epithelium to photorepair pyrimidine dimers may provide a means with which to determine whether pyrimidine dimers in lens epithelial DNA are involved in UV radiation-induced pathologic changes of the lens.

Effect of chronic exposure to ultraviolet radiation and photoreactivation on life span and tumor development in the marsupial Monodelphis domestica.

The effect of exposure to chronic ultraviolet (UV) radiation on life span was examined in Monodelphis domestica, which is capable of photoreactivation repair of UV-radiation-induced pyrimidine dimers. Shaved Monodelphis were exposed to 500 J/m2 UV radiation, 500 J/m2 UV radiation then 90 min of photoreactivating light (PRL), or 90 min of PRL three times weekly for 104 weeks. Opossums were weighed weekly; samples for serum chemistry and hematology testing were obtained periodically. Complete postmortem examinations revealed a primary cause of death for each opossum. Meaningful differences among the groups in weight gain, serum chemistry values or hematology values were not seen. Significant life-shortening due to UV-radiation exposure was found for females but not males. Photoreactivation prolonged life only in the females exposed to UV radiation. Exposure to UV radiation was not associated with accelerated development of degenerative disease. Significant treatment-related mortality occurred in both male and female opossums exposed to UV radiation. Photoreactivation reduced the relative risk of skin tumors but not eye tumors in Monodelphis exposed to UV radiation. Eye and skin tumors were less likely to be a cause of death in UV-radiation-exposed opossums subsequently exposed to PRL than in opossums exposed to UV radiation alone. Females exposed only to UV radiation had an increased risk of skin tumor development relative to males.

Epidermal urocanic acid and suppression of contact hypersensitivity by ultraviolet radiation in Monodelphis domestica.

A single specific epidermal photoreceptor for the immunosuppressive action of UV radiation has not been defined, although separate evidence is accruing in favour of each of two candidates, trans-urocanic acid and DNA. In Monodelphis domestica, specific photoreactivation repair of UV radiation-induced pyrimidine dimers has been shown to abrogate the suppression of contact hypersensitivity (CHS), thus suggesting that DNA is the target for this impairment. However, the both haired and hairless mice, immunosuppressive effects of UV radiation have been reproduced by the exogenous administration of the UV photoproduct of urocanic acid, cis-urocanic acid. We show here that the epidermis of M. domestica contains urocanic acid, that UV irradiation of the shaved dorsal skin has resulted in an increase in epidermal cis-urocanic acid and that the topical application of a cis-urocanic acid-containing lotion significantly depressed the capacity of Monodelphis to respond to contact sensitisers, in a manner analogous to these responses in the hairless mouse. Therefore in Monodelphis, suppression of CHS by UV irradiation appears to involve both urocanic acid photo-isomerisation and epidermal DNA damage.

Lack of correlation between suppression of contact hypersensitivity by UV radiation and photoisomerization of epidermal urocanic acid in the hairless mouse.

The immunological consequences of exposure to UVA (320-400 nm) radiation are unclear. This study describes the relationship between the generation of epidermal cis-urocanic acid and the ability to respond to a contact-sensitizing agent, in hairless mice exposed to different UV radiation sources, which incorporate successively greater short-wavelength cutoff by filtration of the radiation from fluorescent UV tubes. Mice were exposed to these radiation sources at doses systematically varying in UVB radiation content but supplying increasing proportions of UVA radiation. All radiation sources were found to generate approximately 35% cis-urocanic acid in the epidermis, thus normalizing the sources for cis-urocanic acid production. However, only those sources richest in short-wavelength UVB resulted in suppression of the systemic contact hypersensitivity response. These sources also induced the greatest erythema reaction, measured as its edema component, in the exposed skin. A strong correlation was thus demonstrated between the induction of edema and the suppression of contact hypersensitivity, but there appeared to be no correlation between the generation of epidermal cis-urocanic acid and suppression of contact hypersensitivity. The sources richest in UVA content did not result in suppression of contact hypersensitivity; furthermore mice previously irradiated with such UVA-rich sources were refractory to the immunosuppressive action of exogenous cis-urocanic acid. A protective effect of the increased UVA content thus appeared to be inhibiting immunosuppression by the available endogenously generated or exogenously applied cis-urocanic acid.

Changing the risk spectrum of injury and the performance of sunscreen products throughout the day.

Sunscreen products are tested normally against a defined solar simulator spectrum that, in ultraviolet (UVB), closely resembles the noontime spectral composition of summer sunlight. Although such a spectrum may define the product for use in the most adverse sunlight conditions, little attention has been given to how such products perform against other natural sunlight spectra. Outdoor clinical trials suggest that indoor testing of sunscreens may overestimate the performance of many products. In this study we compared the predicted efficacy of specific products to a variety of natural sunlight spectra taken at different solar angles and under different atmospheric conditions. We found that a standard product always provides less protection for a natural sunlight spectrum than its label value would suggest. The deviation from the labeled value is the greatest when the sun is low in the sky, i.e., close to the horizon. The deviation is due to the changing ratio of UVA to UVB radiation in natural sunlight. The deviation can be as large as a factor of 2.0.