Your search keyword '"Igras, Vivien"' showing total 2 results

1. MITF regulates IDH1, NNT, and a transcriptional program protecting melanoma from reactive oxygen species.

Author

Roider, Elisabeth, Lakatos, Alexandra I. T., McConnell, Alicia M., Wang, Poguang, Mueller, Alina, Kawakami, Akinori, Tsoi, Jennifer, Szabolcs, Botond L., Ascsillán, Anna A., Suita, Yusuke, Igras, Vivien, Lo, Jennifer A., Hsiao, Jennifer J., Lapides, Rebecca, Pál, Dorottya M. P., Lengyel, Anna S., Navarini, Alexander, Okazaki, Arimichi, Iliopoulos, Othon, and Németh, István

Subjects

MICROPHTHALMIA-associated transcription factor, REACTIVE oxygen species, CELL lines, DNA damage, MELANOMA

Abstract

Microphthalmia-associated transcription factor (MITF) is a master regulator of melanocyte function, development and plays a significant role in melanoma pathogenesis. MITF genomic amplification promotes melanoma development, and it can facilitate resistance to multiple therapies. Here, we show that MITF regulates a global antioxidant program that increases survival of melanoma cell lines by protecting the cells from reactive oxygen species (ROS)-induced damage. In addition, this redox program is correlated with MITF expression in human melanoma cell lines and patient-derived melanoma samples. Using a zebrafish melanoma model, we show that MITF decreases ROS-mediated DNA damage in vivo. Some of the MITF target genes involved, such as IDH1 and NNT, are regulated through direct MITF binding to canonical enhancer box (E-BOX) sequences proximal to their promoters. Utilizing functional experiments, we demonstrate the role of MITF and its target genes in reducing cytosolic and mitochondrial ROS. Collectively, our data identify MITF as a significant driver of the cellular antioxidant state. [ABSTRACT FROM AUTHOR]

Published

2024

2. Topical drug rescue strategy and skin protection based on the role of Mc1r in UV-induced tanning.

Author

D'Orazio, John A., Nobuhisa, Tetsuji, Cui, Rutao, Arya, Michelle, Spry, Malinda, Wakamatsu, Kazumasa, Igras, Vivien, Kunisada, Takahiro, Granter, Scott R., Nishimura, Emi K., Ito, Shosuke, and Fisher, David E.

Subjects

ULTRAVIOLET radiation, MELANOCYTES, KERATINOCYTES, HUMAN skin color, DNA damage

Abstract

Ultraviolet-light (UV)-induced tanning is defective in numerous ‘fair-skinned’ individuals, many of whom contain functional disruption of the melanocortin 1 receptor (MC1R). Although this suggested a critical role for the MC1R ligand melanocyte stimulating hormone (MSH) in this response, a genetically controlled system has been lacking in which to determine the precise role of MSH–MC1R. Here we show that ultraviolet light potently induces expression of MSH in keratinocytes, but fails to stimulate pigmentation in the absence of functional MC1R in red/blonde-haired Mc1re/e mice. However, pigmentation could be rescued by topical application of the cyclic AMP agonist forskolin, without the need for ultraviolet light, demonstrating that the pigmentation machinery is available despite the absence of functional MC1R. This chemically induced pigmentation was protective against ultraviolet-light-induced cutaneous DNA damage and tumorigenesis when tested in the cancer-prone, xeroderma-pigmentosum-complementation-group-C-deficient genetic background. These data emphasize the essential role of intercellular MSH signalling in the tanning response, and suggest a clinical strategy for topical small-molecule manipulation of pigmentation. [ABSTRACT FROM AUTHOR]

Published

2006