Direct photoreception by pituitary endocrine cells regulates hormone release and pigmentation

Ayaka Fukuda; Keita Sato; Chika Fujimori; Takahiro Yamashita; Atsuko Takeuchi; Hideyo Ohuchi; Chie Umatani; Shinji Kanda

doi:10.1126/science.adj9687

Direct photoreception by pituitary endocrine cells regulates hormone release and pigmentation

Ayaka Fukuda, Keita Sato, Chika Fujimori, Takahiro Yamashita, Atsuko Takeuchi, Hideyo Ohuchi, Chie Umatani, Shinji Kanda

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Abstract

The recent discovery of nonvisual photoreceptors in various organs has raised expectations for uncovering their roles and underlying mechanisms. In this work, we identified a previously unrecognized hormone-releasing mechanism in the pituitary of the Japanese rice fish (medaka) induced by light. Ca2+ imaging analysis revealed that melanotrophs, a type of pituitary endocrine cell that secretes melanocyte-stimulating hormone, robustly increase the concentration of intracellular Ca2+ during short-wavelength light exposure. Moreover, we identified Opn5m as the key molecule that drives this response. Knocking out opn5m attenuated melanogenesis by reducing tyrosinase expression in the skin. Our findings suggest a mechanism in which direct reception of short-wavelength light by pituitary melanotrophs triggers a pathway that might contribute to protection from ultraviolet radiation in medaka.

Original language	English
Pages (from-to)	43-48
Number of pages	6
Journal	Science
Volume	387
Issue number	6729
DOIs	https://doi.org/10.1126/science.adj9687
Publication status	Published - Jan 3 2025

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title = "Direct photoreception by pituitary endocrine cells regulates hormone release and pigmentation",

abstract = "The recent discovery of nonvisual photoreceptors in various organs has raised expectations for uncovering their roles and underlying mechanisms. In this work, we identified a previously unrecognized hormone-releasing mechanism in the pituitary of the Japanese rice fish (medaka) induced by light. Ca2+ imaging analysis revealed that melanotrophs, a type of pituitary endocrine cell that secretes melanocyte-stimulating hormone, robustly increase the concentration of intracellular Ca2+ during short-wavelength light exposure. Moreover, we identified Opn5m as the key molecule that drives this response. Knocking out opn5m attenuated melanogenesis by reducing tyrosinase expression in the skin. Our findings suggest a mechanism in which direct reception of short-wavelength light by pituitary melanotrophs triggers a pathway that might contribute to protection from ultraviolet radiation in medaka.",

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T1 - Direct photoreception by pituitary endocrine cells regulates hormone release and pigmentation

AU - Fukuda, Ayaka

AU - Sato, Keita

AU - Fujimori, Chika

AU - Yamashita, Takahiro

AU - Takeuchi, Atsuko

AU - Ohuchi, Hideyo

AU - Umatani, Chie

AU - Kanda, Shinji

PY - 2025/1/3

Y1 - 2025/1/3

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AB - The recent discovery of nonvisual photoreceptors in various organs has raised expectations for uncovering their roles and underlying mechanisms. In this work, we identified a previously unrecognized hormone-releasing mechanism in the pituitary of the Japanese rice fish (medaka) induced by light. Ca2+ imaging analysis revealed that melanotrophs, a type of pituitary endocrine cell that secretes melanocyte-stimulating hormone, robustly increase the concentration of intracellular Ca2+ during short-wavelength light exposure. Moreover, we identified Opn5m as the key molecule that drives this response. Knocking out opn5m attenuated melanogenesis by reducing tyrosinase expression in the skin. Our findings suggest a mechanism in which direct reception of short-wavelength light by pituitary melanotrophs triggers a pathway that might contribute to protection from ultraviolet radiation in medaka.

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Direct photoreception by pituitary endocrine cells regulates hormone release and pigmentation

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