RESUMO
Chronic prostatitis/chronic pelvic pain syndrome (CP/CPSS) is a debilitating condition characterized by prostate inflammation, pain and urinary symptoms. The immune system's response to self-antigens is a contributing factor to CP/CPSS. In this review, we examine the use of experimental autoimmune prostatitis (EAP) in rodents to model salient features of autoimmune mediated CP/CPSS. By exploring etiological factors, immunological mechanisms, and emerging therapeutic strategies, our aim is to enhance our understanding of CP/CPSS pathogenesis and promote the development of strategies to test innovative interventions using the EAP pre-clinical model.
RESUMO
OBJECTIVES: Prostate inflammation is linked to lower urinary tract dysfunction and is a key factor in chronic prostatitis/chronic pelvic pain syndrome. Autoimmunity was recently identified as a driver of prostate inflammation. Agonists of the aryl hydrocarbon receptor (AHR), a ligand-activated transcription factor, have been used to suppress autoimmunity in mouse models of colitis, rhinitis, and dermatitis, but whether AHR agonists suppress prostate autoimmunity has not been examined. Here, we test whether ITE (2-(1'H-indole-3'-carbonyl)-thiazole-4-carboxylic acid methyl ester), an AHR agonist, suppresses inflammation, allodynia, and urinary dysfunction in a mouse model of experimental autoimmune prostatitis (EAP). METHODS: C57BL/6J adult male mice were immunized with rat prostate antigen to induce EAP or TiterMax Gold® adjuvant (uninflamed control). Mice were also treated with ITE (10 mg/kg/day IP) or DMSO (vehicle, 5 mg/kg/day IP) for 6 days. Using the Nanostring nCounter Inflammation Panel, we evaluated the impact of EAP and ITE on prostatic RNA abundance. We validated EAP and ITE-mediated changes in a subset of RNAs by RT-PCR and RNAScope in situ RNA detection. RESULTS: EAP appeared to heighten histological inflammation in the dorsal prostate, induced tactile allodynia, and appeared to increase the frequency of non-voiding bladder contractions. ITE mitigated some actions of EAP. EAP changed abundance of 40 inflammation-related RNAs, while ITE changed abundance of 28 inflammation-related RNAs. We identified a cluster of RNAs for which ITE protected against EAP-induced changes in the abundance of H2-Ab1, S100a8, and S100a9. ITE also increased the abundance of the AHR-responsive Cyp1a1 RNA. CONCLUSIONS: These findings support the hypothesis that ITE activates the AHR in the prostate and reduces autoimmune-mediated prostatitis in mice.
RESUMO
The impact of developmental exposure to environmental chemicals on lower urinary tract function is not well understood, despite the fact that these chemicals could contribute to etiologically complex lower urinary tract symptoms (LUTS). Polychlorinated biphenyls (PCBs) are environmental toxicants known to be detrimental to the central nervous system, but their impact on voiding function in mouse models is not known. Therefore, we test whether developmental exposure to PCBs is capable of altering voiding physiology in young adult mice. C57Bl/6J female mice received a daily oral dose of the MARBLES PCB mixture for two weeks prior to mating and through gestation and lactation. The mixture mimics the profile of PCBs found in a contemporary population of pregnant women. Voiding function was then tested in young adult offspring using void spot assay, uroflowmetry and anesthetized cystometry. PCB effects were sex and dose dependent. Overall, PCBs led to increases in small size urine spots in both sexes with males producing more drop-like voids and greater peak pressure during a voiding cycle while females displayed decreases in void duration and intervoid interval. Together, these results indicate that developmental exposure to PCBs are capable of altering voiding physiology in young adult mice. Further work to identify the underlying mechanisms driving these changes may help develop more effective preventative or therapeutic strategies for LUTS.