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Distinct molecular mechanisms contribute to the reduction of melanoma growth and tumor pain after systemic and local depletion of <scp>alpha‐Synuclein</scp> in mice

Ellen Niederberger, Moritz Möller, Eleonora Mungo, Michelle Haß, Annett Wilken‐Schmitz, Christine Manderscheid, Christine V. Möser, Gerd Geißlinger

2023The FASEB Journal14 citationsDOIOpen Access PDF

Abstract

Epidemiological studies show a coincidence between Parkinson's disease (PD) and malignant melanoma. It has been suggested that this relationship is due, at least in part, to modulation of alpha-Synuclein (αSyn/Snca). αSyn oligomers accumulate in PD, which triggers typical PD symptoms, and in malignant melanoma, which increases the proliferation of tumor cells. In addition, αSyn contributes to non-motor symptoms of PD, including pain. In this study, we investigated the role of αSyn in melanoma growth and melanoma-induced pain in a mouse model using systemic and local depletion of αSyn. B16BL6 wild-type as well as αSyn knock-down melanoma cells were inoculated into the paws of αSyn knock-out mice and wild-type mice, respectively. Tumor growth and tumor-induced pain hypersensitivity were assessed over a period of 21 days. Molecular mechanisms were analyzed by RT-PCR and Western Blot in tumors, spinal cord, and sciatic nerve. Our results indicate that both global and local ablation of Snca contribute to reduced tumor growth and to a reduction of tumor-induced mechanical allodynia, though mechanisms contributing to these effects differ. While injection of wild-type cells in Snca knock-out mice strongly increased the immune response in the tumor, local Snca knock-down decreased autophagy mechanisms and the inflammatory reaction in the tumor. In conclusion, a knockdown of αSyn might constitute a promising approach to inhibiting the progression of melanoma and reducing tumor-induced pain.

Topics & Concepts

MelanomaCancer researchMedicineInflammationGene knockdownMalignant peripheral nerve sheath tumorWild typeWestern blotImmune systemPathologyImmunologyBiologyCell cultureImmunohistochemistryMutantBiochemistryGeneticsGeneParkinson's Disease Mechanisms and TreatmentsNerve injury and regenerationAdenosine and Purinergic Signaling