Abstract
Inter-organellar communication is emerging as one of the most crucial regulators of cellular physiology. One of the key regulators of inter-organellar communication is Mitofusin-2 (MFN2). MFN2 is also involved in mediating mitochondrial fusion–fission dynamics. Further, it facilitates mitochondrial crosstalk with the endoplasmic reticulum, lysosomes and melanosomes, which are lysosome-related organelles specialized in melanin synthesis within melanocytes. However, the role of MFN2 in regulating melanocyte-specific cellular function, i.e., melanogenesis, remains poorly understood. Here, using a B16 mouse melanoma cell line and primary human melanocytes, we report that MFN2 negatively regulates melanogenesis. Both the transient and stable knockdown of MFN2 leads to enhanced melanogenesis, which is associated with an increase in the number of mature (stage III and IV) melanosomes and the augmented expression of key melanogenic enzymes. Further, the ectopic expression of MFN2 in MFN2-silenced cells leads to the complete rescue of the phenotype at the cellular and molecular levels. Mechanistically, MFN2-silencing elevates mitochondrial reactive-oxygen-species (ROS) levels which in turn increases melanogenesis. ROS quenching with the antioxidant N-acetyl cysteine (NAC) reverses the MFN2-knockdown-mediated increase in melanogenesis. Moreover, MFN2 expression is significantly lower in the darkly pigmented primary human melanocytes in comparison to lightly pigmented melanocytes, highlighting a potential contribution of lower MFN2 levels to higher physiological pigmentation. Taken together, our work establishes MFN2 as a novel negative regulator of melanogenesis.
Highlights
IntroductionCells maintain their integrity and function by coordinating various metabolic, chemical and cellular pathways
MFN2 is a dynamin-related GTPase that resides on the outer mitochondrial membrane, where it plays a critical role in the fusion of mitochondria [7]
Using primary human melanocytes and B16 cells, we report that either the transient or stable silencing of MFN2 leads to enhanced melanogenesis
Summary
Cells maintain their integrity and function by coordinating various metabolic, chemical and cellular pathways. Molecular crosstalk between different organelles enables cells to process and interpret multiple biological inputs differently in order to modulate cellular physiology [1]. Different biological cues influence cellular properties by rewiring the interorganellar communication required for cellular homeostasis and function [1,2]. One of the key players involved in the crosstalk between several organelles is MFN2. It can regulate inter-organellar communication between mitochondria and various organelles such as the endoplasmic reticulum and lysosomes [3–6]. MFN2 is a dynamin-related GTPase that resides on the outer mitochondrial membrane, where it plays a critical role in the fusion of mitochondria [7]
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