In Vitro Safety Profiling and Leukoderma-Relevant Hazard Assessment of Raspberry Ketone Versus Polygonum cillinerve Total Anthraquinones in a Keratinocyte–Melanocyte Co-Culture Model
Manyi Hou, Xiaoyu Yang, Xin Nong, Congfen He, Yan Liang, Lei Liu

TL;DR
This study compares the safety of raspberry ketone and a plant extract in a skin cell model, finding raspberry ketone causes stress and toxicity similar to a known skin-lightening agent linked to leukoderma.
Contribution
The study introduces a novel keratinocyte–melanocyte co-culture model to assess skin-lightening agents and identifies purine metabolism as a key pathway in leukoderma-related toxicity.
Findings
High-dose raspberry ketone induces ROS, UPR stress, inflammation, and apoptosis similar to rhododendrol.
Metabolomics reveals purine metabolism as a key pathway disturbed by raspberry ketone and rhododendrol.
The Polygonum cillinerve anthraquinone fraction shows a safer profile with reduced oxidative and ER stress.
Abstract
Safety concerns surrounding skin-lightening agents have intensified following chemical leukoderma linked to rhododendrol. Here, we performed an in vitro safety and hazard profiling comparison of raspberry ketone (RK) and a total anthraquinone fraction from Fallopia multiflora var. cillinerve (Polygonum cillinerve) using an immortalized keratinocyte–melanocyte co-culture model (human HaCaT keratinocytes and murine B10.BR melanocytes, 3:1). Rhododendrol and arbutin were included as contextual references. Following viability-guided range finding, cells were exposed for 48 h and evaluated for melanocyte stress and injury, including ROS generation, UPR/ER-stress activation (PERK/eIF2α–ATF4-associated readouts: ATF4, Hmox1, GADD45a; and IRE1 phosphorylation), IL-8-related chemokine output (CXCL1/KC, a murine functional homolog of IL-8), cell-cycle perturbation, and Caspase-3-associated…
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Taxonomy
Topicsmelanin and skin pigmentation · Phytochemistry and biological activity of medicinal plants · Skin Protection and Aging
