Luís C. Cabaço scite author profile

Skin pigmentation ensures efficient photoprotection and relies on the pigment melanin, which is produced by epidermal melanocytes and transferred to surrounding keratinocytes. While the molecular mechanisms of melanin synthesis and transport in melanocytes are now well characterized, much less is known about melanin transfer and processing within keratinocytes. Over the past few decades, distinct models have been proposed to explain how melanin transfer occurs at the cellular and molecular levels. However, this remains a debated topic, as up to four different models have been proposed, with evidence presented supporting each. Here, we review the current knowledge on the regulation of melanin exocytosis, internalization, processing, and polarization. Regarding the different transfer models, we discuss how these might co-exist to regulate skin pigmentation under different conditions, i.e., constitutive and facultative skin pigmentation or physiological and pathological conditions. Moreover, we discuss recent evidence that sheds light on the regulation of melanin exocytosis by melanocytes and internalization by keratinocytes, as well as how melanin is stored within these cells in a compartment that we propose be named the melanokerasome. Finally, we review the state of the art on the molecular mechanisms that lead to melanokerasome positioning above the nuclei of keratinocytes, forming supranuclear caps that shield the nuclear DNA from UV radiation. Thus, we provide a comprehensive overview of the current knowledge on the molecular mechanisms regulating skin pigmentation, from melanin exocytosis by melanocytes and internalization by keratinocytes to processing and polarization within keratinocytes. A better knowledge of these molecular mechanisms will clarify long-lasting questions in the field that are crucial for the understanding of skin pigmentation and can shed light on fundamental aspects of organelle biology. Ultimately, this knowledge can lead to novel therapeutic strategies to treat hypo- or hyper-pigmentation disorders, which have a high socio-economic burden on patients and healthcare systems worldwide, as well as cosmetic applications.

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The Dark Side of Melanin Secretion in Cutaneous Melanoma Aggressiveness

Cabaço

Tomás²,

Pojo³

et al. 2022

Front. Oncol.

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Skin cancers are among the most common cancers worldwide and are increasingly prevalent. Cutaneous melanoma (CM) is characterized by the malignant transformation of melanocytes in the epidermis. Although CM shows lower incidence than other skin cancers, it is the most aggressive and responsible for the vast majority of skin cancer-related deaths. Indeed, 75% of patients present with invasive or metastatic tumors, even after surgical excision. In CM, the photoprotective pigment melanin, which is produced by melanocytes, plays a central role in the pathology of the disease. Melanin absorbs ultraviolet radiation and scavenges reactive oxygen/nitrogen species (ROS/RNS) resulting from the radiation exposure. However, the scavenged ROS/RNS modify melanin and lead to the induction of signature DNA damage in CM cells, namely cyclobutane pyrimidine dimers, which are known to promote CM immortalization and carcinogenesis. Despite triggering the malignant transformation of melanocytes and promoting initial tumor growth, the presence of melanin inside CM cells is described to negatively regulate their invasiveness by increasing cell stiffness and reducing elasticity. Emerging evidence also indicates that melanin secreted from CM cells is required for the immunomodulation of tumor microenvironment. Indeed, melanin transforms dermal fibroblasts in cancer-associated fibroblasts, suppresses the immune system and promotes tumor angiogenesis, thus sustaining CM progression and metastasis. Here, we review the current knowledge on the role of melanin secretion in CM aggressiveness and the molecular machinery involved, as well as the impact in tumor microenvironment and immune responses. A better understanding of this role and the molecular players involved could enable the modulation of melanin secretion to become a therapeutic strategy to impair CM invasion and metastasis and, hence, reduce the burden of CM-associated deaths.

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Melanocore uptake by keratinocytes occurs through phagocytosis and involves protease‐activated receptor‐2 internalization

Moreiras

Bento-Lopes

Neto

et al. 2022

Traffic

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In the skin epidermis, melanin is produced and stored within melanosomes in melanocytes, and then transferred to keratinocytes. Different models have been proposed to explain the melanin transfer mechanism, which differ essentially in how melanin is transferred-either in a membrane-bound melanosome or as a melanosome core, that is, melanocore. Here, we investigated the endocytic route followed by melanocores and melanosomes during internalization by keratinocytes, by comparing the uptake of melanocores isolated from the supernatant of melanocyte cultures, with melanosomes isolated from melanocytes. We show that inhibition of actin dynamics impairs the uptake of both melanocores and melanosomes. Moreover, depletion of critical proteins involved in actin-dependent uptake mechanisms, namely Rac1, CtBP1/ BARS, Cdc42 or RhoA, together with inhibition of Rac1-dependent signaling pathways or macropinocytosis suggest that melanocores are internalized by phagocytosis, whereas melanosomes are internalized by macropinocytosis. Interestingly, we found that Rac1, Cdc42 and RhoA are differently activated by melanocore or melanosome stimulation, supporting the existence of two distinct routes of melanin internalization. Furthermore, we show that melanocore uptake induces protease-activated receptor-2 (PAR-2) internalization by keratinocytes to a higher extent than melanosomes. Because skin pigmentation was shown to be regulated by PAR-2 activation, our results further support the melanocore-based mechanism of melanin transfer and further refine this model, which can now be described as coupled melanocore exo/phagocytosis.

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Rab3a regulates melanin exocytosis induced by keratinocyte-conditioned medium

Cabaço

Bento-Lopes

Neto

et al. 2021

Preprint

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Skin pigmentation relies on melanin and is crucial for photoprotection against ultraviolet radiation-induced toxicity. Melanin is synthesized and stored in melanosomes, within melanocytes and then transferred to keratinocytes. While the molecular players involved in melanogenesis have been extensively studied, those underlying melanin transfer remain poorly characterized. Previously, our group proposed that coupled exo/phagocytosis is the predominant mechanism of melanin transfer in human skin and showed an essential role for Rab11b and the exocyst tethering complex in this process. Using a fluorescence-based assay, we show here that keratinocyte-conditioned medium (KCM) specifically induces melanin exocytosis from melanocytes. Moreover, we found that Rab3a, but not Rab11b, regulates melanin exocytosis upon KCM stimulation. In fact, melanosomes accumulate in melanocyte dendrites upon KCM stimulation, co-localizing with Rab3a mainly in the vicinity of the plasma membrane. Additionally, Rab3a silencing does not affect melanin transfer in melanocyte/keratinocyte co-cultures, in contrast with Rab11b depletion, indicating that Rab11b regulates non-KCM-stimulated melanin exocytosis. Thus, our results suggest the existence of at least two distinct routes of melanin exocytosis: one controlled by Rab11b and another Rab3a-dependent, stimulated by KCM. Furthermore, these results provide evidence that soluble factors secreted by keratinocytes can control skin pigmentation via induction of melanocyte signaling pathways that promote peripheral transport of melanosomes and a Rab3a-mediated exocytosis mechanism.

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RAB3A Regulates Melanin Exocytosis and Transfer Induced by Keratinocyte-Conditioned Medium

Cabaço¹,

Bento-Lopes²,

Neto³

et al. 2022

JID Innovations

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Luís C. Cabaço

Melanin’s Journey from Melanocytes to Keratinocytes: Uncovering the Molecular Mechanisms of Melanin Transfer and Processing

The Dark Side of Melanin Secretion in Cutaneous Melanoma Aggressiveness

Melanocore uptake by keratinocytes occurs through phagocytosis and involves protease‐activated receptor‐2 internalization

Rab3a regulates melanin exocytosis induced by keratinocyte-conditioned medium

RAB3A Regulates Melanin Exocytosis and Transfer Induced by Keratinocyte-Conditioned Medium

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