Role of proNGF/p75 signaling in bladder dysfunction after spinal cord injury
Jae Cheon Ryu, … , Margaret A. Vizzard, Sung Ok Yoon
Jae Cheon Ryu, … , Margaret A. Vizzard, Sung Ok Yoon
Published March 26, 2018
Citation Information: J Clin Invest. 2018;128(5):1772-1786. https://doi.org/10.1172/JCI97837.
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Role of proNGF/p75 signaling in bladder dysfunction after spinal cord injury

Abstract

Loss of bladder control is a challenging outcome facing patients with spinal cord injury (SCI). We report that systemic blocking of pro–nerve growth factor (proNGF) signaling through p75 with a CNS-penetrating small-molecule p75 inhibitor resulted in significant improvement in bladder function after SCI in rodents. The usual hyperreflexia was attenuated with normal bladder pressure, and automatic micturition was acquired weeks earlier than in the controls. The improvement was associated with increased excitatory input to the spinal cord, in particular onto the tyrosine hydroxylase–positive fibers in the dorsal commissure. The drug also had an effect on the bladder itself, as the urothelial hyperplasia and detrusor hypertrophy that accompany SCI were largely prevented. Urothelial cell loss that precedes hyperplasia was dependent on p75 in response to urinary proNGF that is detected after SCI in rodents and humans. Surprisingly, death of urothelial cells and the ensuing hyperplastic response were beneficial to functional recovery. Deleting p75 from the urothelium prevented urothelial death, but resulted in reduction in overall voiding efficiency after SCI. These results unveil a dual role of proNGF/p75 signaling in bladder function under pathological conditions with a CNS effect overriding the peripheral one.

Authors

Jae Cheon Ryu, Katharine Tooke, Susan E. Malley, Anastasia Soulas, Tirzah Weiss, Nisha Ganesh, Nabila Saidi, Stephanie Daugherty, Uri Saragovi, Youko Ikeda, Irina Zabbarova, Anthony J. Kanai, Mitsuharu Yoshiyama, H. Francis Farhadi, William C. de Groat, Margaret A. Vizzard, Sung Ok Yoon

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Figure 4

Selective deletion of p75 among umbrella cells results in complete block of umbrella cell apoptosis.

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Selective deletion of p75 among umbrella cells results in complete block...
(A) Diagram of the targeting vectors in p75Δ-UP3a and p75c-UP3a mice. Red triangles represent loxP sites, and green P1 and P2 arrows represent PCR primers used in B. (B) Selective deletion of p75 in urothelial cells. Urothelial cells from tamoxifen-treated p75Δ-UP3a and p75c-UP3a mice were scraped into a tube, and the isolated genomic DNA was subjected to PCR using P1 and P2 primers. The primers generate PCR product only when Cre is activated. Note that the PCR band is present only in umbrella cells and not in the bladder minus urothelium in p75Δ-UP3a mice, indicating a selective p75 deletion in the urothelium. (C) p75 is not detected in umbrella cells (U), while it is clearly present in the muscle (M). L, bladder lumen. Scale bar: 150 μm. (D) Umbrella cell apoptosis was completely blocked in p75Δ-UP3a compared with that in p75c-UP3a mice.