Nageotte nodules in human dorsal root ganglia reveal neurodegeneration in diabetic peripheral neuropathy

Stephanie I. Shiers; Khadijah Mazhar; Andi Wangzhou; Rainer Haberberger; Joseph B. Lesnak; Nwasinachi A. Ezeji; Ishwarya Sankaranarayanan; Diana Tavares-Ferreira; Anna Cervantes; Geoffrey Funk; Peter Horton; Erin Vines; Gregory Dussor; Theodore J. Price

doi:10.1038/s41467-025-59538-z

Nageotte nodules in human dorsal root ganglia reveal neurodegeneration in diabetic peripheral neuropathy

Stephanie I. Shiers, Khadijah Mazhar, Andi Wangzhou, Rainer Haberberger, Joseph B. Lesnak, Nwasinachi A. Ezeji, Ishwarya Sankaranarayanan, Diana Tavares-Ferreira, Anna Cervantes, Geoffrey Funk, Peter Horton, Erin Vines, Gregory Dussor, Theodore J. Price

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Abstract

Nageotte nodules, first described in 1922 by Jean Nageotte, are clusters of non-neuronal cells that form after sensory neuron death. Despite their historical recognition, little is known about their molecular identity nor their involvement in neuropathies that involve neuronal loss like diabetic peripheral neuropathy (DPN). In this study, we molecularly characterize Nageotte nodules in dorsal root ganglia recovered from organ donors with DPN. Here we show that Nageotte nodules are abundant in DPN sensory ganglia and account for 25% of all neurons. Peripherin-and Nav1.7-positive dystrophic axons invade Nageotte nodules, forming small neuroma-like structures. Using histology and spatial sequencing, we demonstrate that Nageotte nodules are mainly composed of satellite glia and non-myelinating Schwann cells that express SPP1 and are intertwined with sprouting sensory axons originating from neighboring neurons. Our findings suggest that Nageotte nodules are an integral feature of dorsal root ganglion neurodegeneration, providing potential therapeutic targets for sensory neuron protection and pain management in DPN.

Original language	English
Article number	4168
Number of pages	16
Journal	Nature Communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-59538-z
Publication status	Published - Dec 2025
Externally published	Yes

Keywords

nageotte nodules
non-neuronal cells
sensory neuron death
Human dorsal root ganglia neurons
diabetic peripheral neuropathy

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10.1038/s41467-025-59538-zLicence: CC BY

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Shiers, S. I., Mazhar, K., Wangzhou, A., Haberberger, R., Lesnak, J. B., Ezeji, N. A., Sankaranarayanan, I., Tavares-Ferreira, D., Cervantes, A., Funk, G., Horton, P., Vines, E., Dussor, G., & Price, T. J. (2025). Nageotte nodules in human dorsal root ganglia reveal neurodegeneration in diabetic peripheral neuropathy. Nature Communications, 16(1), Article 4168. https://doi.org/10.1038/s41467-025-59538-z

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title = "Nageotte nodules in human dorsal root ganglia reveal neurodegeneration in diabetic peripheral neuropathy",

abstract = "Nageotte nodules, first described in 1922 by Jean Nageotte, are clusters of non-neuronal cells that form after sensory neuron death. Despite their historical recognition, little is known about their molecular identity nor their involvement in neuropathies that involve neuronal loss like diabetic peripheral neuropathy (DPN). In this study, we molecularly characterize Nageotte nodules in dorsal root ganglia recovered from organ donors with DPN. Here we show that Nageotte nodules are abundant in DPN sensory ganglia and account for 25% of all neurons. Peripherin-and Nav1.7-positive dystrophic axons invade Nageotte nodules, forming small neuroma-like structures. Using histology and spatial sequencing, we demonstrate that Nageotte nodules are mainly composed of satellite glia and non-myelinating Schwann cells that express SPP1 and are intertwined with sprouting sensory axons originating from neighboring neurons. Our findings suggest that Nageotte nodules are an integral feature of dorsal root ganglion neurodegeneration, providing potential therapeutic targets for sensory neuron protection and pain management in DPN.",

keywords = "nageotte nodules, non-neuronal cells, sensory neuron death, Human dorsal root ganglia neurons, diabetic peripheral neuropathy",

author = "Shiers, {Stephanie I.} and Khadijah Mazhar and Andi Wangzhou and Rainer Haberberger and Lesnak, {Joseph B.} and Ezeji, {Nwasinachi A.} and Ishwarya Sankaranarayanan and Diana Tavares-Ferreira and Anna Cervantes and Geoffrey Funk and Peter Horton and Erin Vines and Gregory Dussor and Price, {Theodore J.}",

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Shiers, SI, Mazhar, K, Wangzhou, A, Haberberger, R, Lesnak, JB, Ezeji, NA, Sankaranarayanan, I, Tavares-Ferreira, D, Cervantes, A, Funk, G, Horton, P, Vines, E, Dussor, G & Price, TJ 2025, 'Nageotte nodules in human dorsal root ganglia reveal neurodegeneration in diabetic peripheral neuropathy', Nature Communications, vol. 16, no. 1, 4168. https://doi.org/10.1038/s41467-025-59538-z

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AU - Shiers, Stephanie I.

AU - Mazhar, Khadijah

AU - Wangzhou, Andi

AU - Haberberger, Rainer

AU - Lesnak, Joseph B.

AU - Ezeji, Nwasinachi A.

AU - Sankaranarayanan, Ishwarya

AU - Tavares-Ferreira, Diana

AU - Cervantes, Anna

AU - Funk, Geoffrey

AU - Horton, Peter

AU - Vines, Erin

AU - Dussor, Gregory

AU - Price, Theodore J.

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N2 - Nageotte nodules, first described in 1922 by Jean Nageotte, are clusters of non-neuronal cells that form after sensory neuron death. Despite their historical recognition, little is known about their molecular identity nor their involvement in neuropathies that involve neuronal loss like diabetic peripheral neuropathy (DPN). In this study, we molecularly characterize Nageotte nodules in dorsal root ganglia recovered from organ donors with DPN. Here we show that Nageotte nodules are abundant in DPN sensory ganglia and account for 25% of all neurons. Peripherin-and Nav1.7-positive dystrophic axons invade Nageotte nodules, forming small neuroma-like structures. Using histology and spatial sequencing, we demonstrate that Nageotte nodules are mainly composed of satellite glia and non-myelinating Schwann cells that express SPP1 and are intertwined with sprouting sensory axons originating from neighboring neurons. Our findings suggest that Nageotte nodules are an integral feature of dorsal root ganglion neurodegeneration, providing potential therapeutic targets for sensory neuron protection and pain management in DPN.

AB - Nageotte nodules, first described in 1922 by Jean Nageotte, are clusters of non-neuronal cells that form after sensory neuron death. Despite their historical recognition, little is known about their molecular identity nor their involvement in neuropathies that involve neuronal loss like diabetic peripheral neuropathy (DPN). In this study, we molecularly characterize Nageotte nodules in dorsal root ganglia recovered from organ donors with DPN. Here we show that Nageotte nodules are abundant in DPN sensory ganglia and account for 25% of all neurons. Peripherin-and Nav1.7-positive dystrophic axons invade Nageotte nodules, forming small neuroma-like structures. Using histology and spatial sequencing, we demonstrate that Nageotte nodules are mainly composed of satellite glia and non-myelinating Schwann cells that express SPP1 and are intertwined with sprouting sensory axons originating from neighboring neurons. Our findings suggest that Nageotte nodules are an integral feature of dorsal root ganglion neurodegeneration, providing potential therapeutic targets for sensory neuron protection and pain management in DPN.

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Nageotte nodules in human dorsal root ganglia reveal neurodegeneration in diabetic peripheral neuropathy

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