Fabry disease Schwann cells release p11 to induce sensory neuron hyperactivity
Tyler B. Waltz, Dongman Chao, Eve K. Prodoehl, Jonathan D. Enders, Vanessa L. Ehlers, Bhavya S. Dharanikota, Nancy M. Dahms, Elena Isaeva, Quinn H. Hogan, Bin Pan, Cheryl L. Stucky
Tyler B. Waltz, Dongman Chao, Eve K. Prodoehl, Jonathan D. Enders, Vanessa L. Ehlers, Bhavya S. Dharanikota, Nancy M. Dahms, Elena Isaeva, Quinn H. Hogan, Bin Pan, Cheryl L. Stucky
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Research Article Neuroscience

Fabry disease Schwann cells release p11 to induce sensory neuron hyperactivity

Abstract

Patients with Fabry disease suffer from chronic debilitating pain and peripheral sensory neuropathy with minimal treatment options, but the cellular drivers of this pain are unknown. Here, we propose a mechanism we believe to be novel in which altered signaling between Schwann cells and sensory neurons underlies the peripheral sensory nerve dysfunction we observed in a genetic rat model of Fabry disease. Using in vivo and in vitro electrophysiological recordings, we demonstrated that Fabry rat sensory neurons exhibited pronounced hyperexcitability. Schwann cells probably contributed to this finding because application of mediators released from cultured Fabry Schwann cells induced spontaneous activity and hyperexcitability in naive sensory neurons. We examined putative algogenic mediators using proteomic analysis and found that Fabry Schwann cells released elevated levels of the protein p11 (S100A10), which induced sensory neuron hyperexcitability. Removal of p11 from Fabry Schwann cell media caused hyperpolarization of neuronal resting membrane potentials, indicating that p11 may contribute to the excessive neuronal excitability caused by Fabry Schwann cells. These findings demonstrate that sensory neurons from rats with Fabry disease exhibit hyperactivity caused in part by Schwann cell release of the protein p11.

Authors

Tyler B. Waltz, Dongman Chao, Eve K. Prodoehl, Jonathan D. Enders, Vanessa L. Ehlers, Bhavya S. Dharanikota, Nancy M. Dahms, Elena Isaeva, Quinn H. Hogan, Bin Pan, Cheryl L. Stucky

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Figure 1

Peripheral dorsal roots from Fabry rats exhibit spontaneous activity and mechanical hypersensitivity.

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Peripheral dorsal roots from Fabry rats exhibit spontaneous activity and...
(A) Lumbar 4 (L4) dorsal roots from Fabry or WT rats were teased into bundles and recorded without external stimulation or with von Frey stimulation of the hind paw. (B) Representative traces of spontaneously firing dorsal roots from Fabry or WT rats. (C) Teased bundles from Fabry rats exhibited a higher proportion of spontaneous activity as analyzed per teased bundle or (D) per animal. (E) Spontaneous firing frequency between Fabry (red) and WT (black) rats (unpaired Student’s t test, P = 0.16). (F) Representative traces of recorded teased single-unit C-fiber activity due to innocuous von Frey stimulation of the plantar hind paw. Single (G) C-, (H) Aδ-, and (I) Aβ-units from Fabry rats exhibit increased firing frequency due to graded innocuous von Frey stimulation. (J) Representative traces of C-fiber activity due to stimulation of the hind paw with a modified von Frey filament; filament was modified with a tungsten tip to be noxious. (K) C-, (L) Aδ-, and (M) Aβ-units from Fabry rats exhibit increased firing frequency due to noxious von Frey stimulation of the hind paw. Fabry = red, WT = black. n = 3 rats per genotype. Data for (C and GI) reported as mean, (D) as mean ± SEM, (E and KM) as median. (C and KM) Unpaired Student’s t test, (GI) 2-way ANOVA significant main effect of treatment, Bonferroni post hoc comparison. * P < 0.05, ** P < 0.01, *** P < 0.001, **** P < 0.0001. SA, spontaneous activity.