Unbalancing cAMP and Ras/MAPK pathways as a therapeutic strategy for cutaneous neurofibromas
Helena Mazuelas, Miriam Magallón-Lorenz, Itziar Uriarte-Arrazola, Alejandro Negro, Inma Rosas, Ignacio Blanco, Elisabeth Castellanos, Conxi Lázaro, Bernat Gel, Meritxell Carrió, Eduard Serra
Helena Mazuelas, Miriam Magallón-Lorenz, Itziar Uriarte-Arrazola, Alejandro Negro, Inma Rosas, Ignacio Blanco, Elisabeth Castellanos, Conxi Lázaro, Bernat Gel, Meritxell Carrió, Eduard Serra
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Research Article Cell biology Genetics

Unbalancing cAMP and Ras/MAPK pathways as a therapeutic strategy for cutaneous neurofibromas

Abstract

Cutaneous neurofibromas (cNFs) are benign Schwann cell (SC) tumors arising from subepidermal glia. Individuals with neurofibromatosis type 1 (NF1) may develop thousands of cNFs, which greatly affect their quality of life. cNF growth is driven by the proliferation of NF1–/– SCs and their interaction with the NF1+/– microenvironment. We analyzed the crosstalk between human cNF-derived SCs and fibroblasts (FBs), identifying an expression signature specific to the SC-FB interaction. We validated the secretion of proteins involved in immune cell migration, suggesting a role of SC-FB crosstalk in immune cell recruitment. The signature also captured components of developmental signaling pathways, including the cAMP elevator G protein–coupled receptor 68 (GPR68). Activation of Gpr68 by ogerin in combination with the MEK inhibitor (MEKi) selumetinib reduced viability and induced differentiation and death of human cNF-derived primary SCs, a result corroborated using an induced pluripotent stem cell–derived 3D neurofibromasphere model. Similar results were obtained using other Gpr68 activators or cAMP analogs/adenylyl cyclase activators in combination with selumetinib. Interestingly, whereas primary SC cultures restarted their proliferation after treatment with selumetinib alone was stopped, the combination of ogerin-selumetinib elicited a permanent halt on SC expansion that persisted after drug removal. These results indicate that unbalancing the Ras and cAMP pathways by combining MEKi and cAMP elevators could be used as a potential treatment for cNFs.

Authors

Helena Mazuelas, Miriam Magallón-Lorenz, Itziar Uriarte-Arrazola, Alejandro Negro, Inma Rosas, Ignacio Blanco, Elisabeth Castellanos, Conxi Lázaro, Bernat Gel, Meritxell Carrió, Eduard Serra

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Figure 5

Ogerin decreases SC proliferation and viability in cNF-derived SCs and cocultures.

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Ogerin decreases SC proliferation and viability in cNF-derived SCs and c...
(A) Expression data from RNA-Seq of GPR68, GLI1, and WNT5A. Data represent mean ± SEM from 4 independent SC and FB cultures, 16 independent SC-FB virtual and real cocultures, and 4 independent cNFs. One-tailed paired t test (*P ≤ 0.05) between virtual and real cocultures. (BE) Mechanism of action of selected drugs, (B) selumetinib, (C) ogerin, (D) GANT61, and (E) LGK974, in the context of their signaling pathways. (F) Effect of selected drug treatments on cell viability in primary SC (green), FB (orange), and SC-FB cocultures (brown). Cell viability was monitored over 72 hours using the RealTime-Glo MT Cell Viability Assay. Three different primary samples were used per cell type. Mean is represented. Data are expressed as relative viability to DMSO-treated control cells. (G and H) Effect of drug treatments on cell proliferation in primary SC cultures. After 48 hours of treatment, cell proliferation was assessed by the Click-iT EdU Flow Cytometry Assay. (G) Representative flow cytometry plots of the different treatments of 1 primary SC culture. (H) Data are expressed as mean fold change normalized to DMSO-treated control cells ± SEM from 3 different primary SC cultures. (I and J) Effect of drug treatments on cell proliferation in SC-FB cocultures. After 48 hours of treatment, cell proliferation was assessed by the Click-iT EdU Flow Cytometry Assay in combination with S100B staining to distinguish the SC population. (I) Representative flow cytometry plot of the different treatments of 1 SC-FB coculture. (J) Data are expressed as mean fold change normalized to DMSO-treated control cells ± SEM from 3 different primary SC cultures. SC, Schwann cells; FB, fibroblasts; virtual SC-FB, virtual SC-FB cocultures; SC-FB, SC-FB cocultures; cNF, cutaneous neurofibroma.