Helene Z. Hill scite author profile

The pigment melanin is found in all living kingdoms and in many different structures and forms. When its various functions are examined separately, its behaviors seem disparate and conflicting. It has a clear role in camouflage and sexual display. Other major roles are examined critically. It can act as a sun screen but is not a very effective one. It can also scavenge active chemical species, but this, too, is not done very effectively. It produces active radicals that can damage DNA. It binds to drugs in ways that are either beneficial or deleterious. Aside from camouflage, its other roles can be brought together by a unifying hypothesis as first proposed by Proctor and McGinness nearly 20 years ago. Melanin is envisaged as an energy transducer with the properties of an amorphous semiconductor. It can absorb many different types of energy and dissipate them in the form of heat. However, if the energy input is too great, the output can be expressed in the form of activated chemical species that can damage cellular macromolecules resulting in cell death, mutations and cancer. The protective aspect of melanin in dark skin is seen as resulting from its high concentration and its confinement to ellipsoidal and densely packed organelles that can effectively shield the nucleus. In light skin, its radical nature is seen as potentially participating in the carcinogenic process, particularly when overwhelmed by intense episodes of sunburn.

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Free Radical-Initiated and Gap Junction-Mediated Bystander Effect due to Nonuniform Distribution of Incorporated Radioactivity in a Three-Dimensional Tissue Culture Model

Bishayee

et al. 2001

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To investigate the biological effects of nonuniform distribution of radioactivity in mammalian cells, we have developed a novel three-dimensional tissue culture model. Chinese hamster V79 cells were labeled with tritiated thymidine and mixed with unlabeled cells, and multicellular clusters (approximately 1.6 mm in diameter) were formed by gentle centrifugation. The short-range beta particles emitted by (3)H impart only self-irradiation of labeled cells without significant cross-irradiation of unlabeled bystander cells. The clusters were assembled in the absence or presence of 10% dimethyl sulfoxide (DMSO) and/or 100 microM lindane. DMSO is a hydroxyl radical scavenger, whereas lindane is an inhibitor of gap junctional intercellular communication. The clusters were maintained at 10.5 degrees C for 72 h to allow (3)H decays to accumulate and then dismantled, and the cells were plated for colony formation. When 100% of the cells were labeled, the surviving fraction was exponentially dependent on the mean level of radioactivity per labeled cell. A two-component exponential response was observed when either 50 or 10% of the cells were labeled. Though both DMSO and lindane significantly protected the unlabeled or bystander cells when 50 or 10% of the cells were labeled, the effect of lindane was greater than that of DMSO. In both cases, the combined treatment (DMSO + lindane) elicited maximum protection of the bystander cells. These results suggest that the bystander effects caused by nonuniform distributions of radioactivity are affected by the fraction of cells that are labeled. Furthermore, at least a part of these bystander effects are initiated by free radicals and are likely to be mediated by gap junctional intercellular communication.

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UVA, Pheomelanin and the Carcinogenesis of Melanoma

Hill

2000

Pigment Cell Research

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Cloudman S91 mouse melanoma cells vary in constitutive and inducible melanin levels. Survival, mutation induction and DNA damage were quantitated after exposure to UVB, UVA and FS20 lamps. Assuming that the observed differences are related to melanin, induced pigment is photo-protective for survival and mutation after UVB and FS20 exposure, and is photosensitizing for survival after UVA exposure. No changes in pyrimidine dimers could be measured. DNA damage in pigmented mouse melanocytes (melan-a and melan-b) was greater than that in albino melanocytes (melan-c) after UVB and FS20, and the pigmented cells were more sensitive to killing. Pigment appears to be protective for killing by UVA in these melanocytes. Human melanocytes from different skin types vary in both melanin amount and composition (eu- and pheomelanin). Effects of pigmentation on UVB responses are unclear. In UVA, heavily pigmented cells have more DNA damage than lightly pigmented cells, but are resistant to killing. Increased pheomelanin photosensitizes DNA damage in lightly pigmented cells. Since eumelanin predominates in the mouse melanoma cells and melanocytes, they are less likely than human cells to provide a satisfactory model for human solar melanomagenesis. In order to understand the mechanism of photocarcinogenesis of melanoma, melanins in human melanocytes from different pigment types should be carefully quantitated and characterized. Mutations induced in them by solar wavelength-emitting lamps with well-characterized spectra should be measured, and mutant DNA should be sequenced to determine the nature of the solar-induced lesions. Research should focus on UVA and pheomelanin.

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Melanin: A Two Edged Sword?

Hill

Xin

et al. 1997

Pigment Cell Research

105

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Melanin is both photosensitizer and photoprotector. Skin cancer rates decrease with increasing constitutive pigmentation, yet the pigment has been shown to be photoreactive and capable of producing damaging reactive oxygen species. We utilized model systems of related cells or similar cell type that vary in constitutive and in induced pigment. Induction of eumelanin in Cloudman S91 mouse melanoma cells leads to less UV-induced killing and to less mutation induction at the ouabain locus (Na+, K(+)-ATPase). Pigmented mouse melanocytes, melan-b (brown) and melan-a (black) were slightly less sensitive than melan-c (albino) melanocytes to killing after UVC and UVA but were more sensitive to killing after UVB and UVB + UVA. Pigment had a small sensitizing effect on pyrimidine dimer DNA damage in both the melanoma cells and the melanocytes. The lack of consistency in these results suggests that intracellular pigment may disregulate the milieu intérieur resulting in end effects that are unrelated to the original genomic damage.

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Dimethyl triazeno imidazole carboxamide and combination therapy for melanoma IV. Late results after complete response to chemotherapy (central oncology group protocols 7130, 7131, and 7131A)

Hill

Krementz

Hill

1984

Cancer

150

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The results of three Phase III studies of DTIC in 580 patients with metastatic melanoma were reviewed to evaluate the subsequent course of 26 patients who achieved a complete response (CR) to chemotherapy. The majority (17 of 26) of these patients had soft tissue metastases. Six of the 26 patients remained in CR at last report (30–259 weeks), two died of other causes while remaining free of melanoma, and 18 relapsed and died. Ninety‐five percent of the 26 patients were alive at 1 year, and survival was 31.1% at 72 months. Seven of the eight patients with sustained remission received chemotherapy for at least 6 months after CR developed, whereas 10 of 18 relapsing patients were treated for less than 6 months after CR was achieved. Long‐term sustained CR to chemotherapy occurs in 1% to 2% of patients treated with DTIC, and late relapse is rare in patients who remain in CR for 2 years. Cancer 53:1299‐1305, 1984.

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Helene Z. Hill

The function of melanin or six blind people examine an elephant

Free Radical-Initiated and Gap Junction-Mediated Bystander Effect due to Nonuniform Distribution of Incorporated Radioactivity in a Three-Dimensional Tissue Culture Model

UVA, Pheomelanin and the Carcinogenesis of Melanoma

Melanin: A Two Edged Sword?

Dimethyl triazeno imidazole carboxamide and combination therapy for melanoma IV. Late results after complete response to chemotherapy (central oncology group protocols 7130, 7131, and 7131A)

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