Purine nucleoside phosphorylase inhibition ameliorates age-associated lower urinary tract dysfunctions
Lori A. Birder, … , Roger R. Dmochowski, Edwin K. Jackson
Lori A. Birder, … , Roger R. Dmochowski, Edwin K. Jackson
Published September 10, 2020
Citation Information: JCI Insight. 2020;5(20):e140109. https://doi.org/10.1172/jci.insight.140109.
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Research Article Aging

Purine nucleoside phosphorylase inhibition ameliorates age-associated lower urinary tract dysfunctions

Abstract

In the aging population, lower urinary tract (LUT) dysfunction is common and often leads to storage and voiding difficulties classified into overlapping symptom syndromes. Despite prevalence and consequences of these syndromes, LUT disorders continue to be undertreated simply because there are few therapeutic options. LUT function and structure were assessed in aged (>25 months) male and female Fischer 344 rats randomized to oral treatment with a purine nucleoside phosphorylase (PNPase inhibitor) 8-aminoguanine (8-AG) or vehicle for 6 weeks. The bladders of aged rats exhibited multiple abnormalities: tactile insensitivity, vascular remodeling, reduced collagen-fiber tortuosity, increased bladder stiffness, abnormal smooth muscle morphology, swelling of mitochondria, and increases in urodamaging purine metabolites. Treatment of aged rats with 8-AG restored all evaluated histological, ultrastructural, and physiological abnormalities toward that of a younger state. 8-AG is an effective treatment that ameliorates key age-related structural and physiologic bladder abnormalities. Because PNPase inhibition blocks metabolism of inosine to hypoxanthine and guanosine to guanine, likely uroprotective effects of 8-AG are mediated by increased bladder levels of uroprotective inosine and guanosine and reductions in urodamaging hypoxanthine and xanthine. These findings demonstrate that 8-AG has translational potential for treating age-associated LUT dysfunctions and resultant syndromes in humans.

Authors

Lori A. Birder, Amanda Wolf-Johnston, Alan J. Wein, Fangzhou Cheng, Mara Grove-Sullivan, Anthony J. Kanai, Alan M. Watson, Donna Stoltz, Simon C. Watkins, Anne M. Robertson, Diane Newman, Roger R. Dmochowski, Edwin K. Jackson

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Figure 5

Concurrent imaging and mechanical testing of bladder collagen fibers in the detrusor layer of young versus aged bladder.

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Concurrent imaging and mechanical testing of bladder collagen fibers in ...
(A) The collagen fibers in young bladder are highly tortuous (occurred in 3 of 3 rats) enabling large stretch with very little change in load (stress). (D) This soft phase of the stress-stretch curve is followed by a transition to a stiff phase at higher stretch (asterisk indicates onset of stiff phase or critical stretch). (B) There is a substantial decrease in tortuosity in the detrusor layer of aged bladders (occurred in 3 of 3 rats) compared with young bladders, leading to a premature recruitment of collagen fibers. (E) The early recruitment leads to shortening of the soft phase and early shift to the stiff phase in aged versus young bladders (best fit graph with individual data points plotted; n = 3 each for young, aged, aged + 8-AG). (C–F) This trend was reversed after 8-aminoguanine (8-AG) treatment, resulting in partial recovery in tortuosity (C) (occurred in 3 of 3 rats), rightward shift of stress-stretch curve toward the young bladder curve (E), and recovery in critical stretch for onset of stiff phase (F). Data are presented as mean ± SEM. Scale bars: 100 mm. Ordinary 1-way ANOVA was used to evaluate significance. *P < 0.05.