具有光保护作用的黑色素保存在角质形成细胞的贮存溶酶体中。

Matilde V Neto, Michael J Hall, João Charneca, Cristina Escrevente, Miguel C Seabra, Duarte C Barral
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引用次数: 0

摘要

在皮肤中,黑色素由黑色素细胞在黑色素体中合成,然后转移到角质形成细胞。黑色素被角质形成细胞吞噬后,极化为核上盖,从而抵御紫外线辐射的基因毒性影响。我们提供的证据表明,含黑色素的吞噬体经历了一个典型的成熟过程,依次获得早期和晚期内体标记。随后,这些吞噬体与活性溶酶体融合,形成含黑色素的吞噬溶酶体,我们将其命名为黑色素小体(melanokerasome)。黑色角质体通过溶酶体转运调节因子Rab7和RILP实现并核定位。成熟的黑色角酶体具有溶酶体标记,不与内吞噬/吞噬途径连接,降解能力弱,保留未消化的货物,并很可能被拴在核膜上。我们认为,它们代表了一种已退出溶酶体循环的溶酶体储存区,类似于衰老细胞中脂褐素的形成以及溶酶体储存和老年相关疾病中功能失调的溶酶体。这种贮存溶酶体可使黑色素长期存在,从而有效地发挥光保护作用。
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Photoprotective Melanin Is Maintained within Keratinocytes in Storage Lysosomes.

In the skin, melanin is synthesized by melanocytes within melanosomes and transferred to keratinocytes. After being phagocytosed by keratinocytes, melanin polarizes to supranuclear caps that protect against the genotoxic effects of UVR. We provide evidence that melanin-containing phagosomes undergo a canonical maturation process, with the sequential acquisition of early and late endosomal markers. Subsequently, these phagosomes fuse with active lysosomes, leading to the formation of a melanin-containing phagolysosome that we named melanokerasome. Melanokerasomes achieve juxtanuclear positioning through lysosomal trafficking regulators Rab7 and RILP. Mature melanokerasomes exhibit lysosomal markers, elude connections with the endo/phagocytic pathway, are weakly degradative, retain undigested cargo, and are likely tethered to the nuclear membrane. We propose that they represent a lysosomal-derived storage compartment that has exited the lysosome cycle, akin to the formation of lipofuscin in aged cells and dysfunctional lysosomes in lysosomal storage and age-related diseases. This storage lysosome allows melanin to persist for long periods, where it can exert its photoprotective effect efficiently.

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