FGF13 is not secreted from mouse neurons
Mattia Malvezzi, Haiying Zhang, Patrick Towers, David C. Lyden, Steven O. Marx, Geoffrey S. Pitt
Mattia Malvezzi, Haiying Zhang, Patrick Towers, David C. Lyden, Steven O. Marx, Geoffrey S. Pitt
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Research Article Cell biology Neuroscience

FGF13 is not secreted from mouse neurons

Abstract

FGF13, a noncanonical fibroblast growth factor (FGF) and member of the fibroblast growth factor homologous factor (FHF) subset, lacks a signal sequence and was previously reported to remain intracellular, where it regulates voltage-gated sodium channels (VGSCs) at least in part through direct interaction with the cytoplasmic C-terminus of VGSCs. Recent reports suggest FGF13 is secreted and regulates neuronal VGSCs through interactions with extracellular domains of integral plasma membrane proteins, yet supportive data are limited. Using rigorous positive and negative controls, we show that transfected FGF13 is not secreted from cultured cells in a heterologous expression system, nor is endogenous FGF13 secreted from cultured neurons. Furthermore, using multiple unbiased screens including proximity labeling proteomics, our results suggest FGF13 remains within membranes and is unavailable to interact directly with extracellular protein domains.

Authors

Mattia Malvezzi, Haiying Zhang, Patrick Towers, David C. Lyden, Steven O. Marx, Geoffrey S. Pitt

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Figure 2

In vivo brain TurboID proximity proteomics shows FGF13S is not in the vicinity of secreted proteins or in proteins involved in secretion processes.

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In vivo brain TurboID proximity proteomics shows FGF13S is not in the vi...
(A) Volcano plot of proteins enriched in biotin-injected animals compared with control animals. Red indicates highly enriched proteins, with a fold-change >2; pink indicates FGF13; yellow indicates sodium channels; and blue indicates axon initial segment proteins. Statistics for these proteins are shown in the accompanying table. (B) Pie charts showing the overlap between the human secretome database of secreted protein (41) and our TurboID-FGF13S (red) dataset, the TurboID-Nav1.5 dataset (42) (green), and a dataset of secreted protein detected by TurboID proximity proteomics (cyan) (36). The full list of overlapping proteins found in our study, with their predicted localization, is shown in the accompanying table.