Qinghua decoction improves chronic nonbacterial prostatitis possibly regulating the chromogranin A/nerve growth factor/tyrosine kinase A signaling pathway mediated by inflammatory factors.

OBJECTIVE: To explore the mechanism by which Qinghua decoction regulates neuroendocrine inflammation in chronic nonbacterial prostatitis (CNP) model rats and provide an experimental basis for clinical treatment. METHODS: The rats were randomly divided into six groups: normal control, model, Qianlie Tongyu capsule, low-dose Qinghua decoction, medium-dose Qinghua decoction, and high-dose Qinghua decoction group with six rats in each group. Rats in each group were sacrificed on the 29th day of treatment, and blood and prostate tissues were collected. Serum levels of tumor necrosis factor-alpha and interleukins 1-beta, 6, 8, and 10 (TNF-α and IL-1ß, -6, -8, and -10, respectively) were measured using enzyme-linked immunosorbent assay. The pathological changes in the rat prostate tissue in each group were observed under a light microscope. The expression levels of chromogranin A (CgA), nerve growth factor (NGF), and tyrosine kinase A (TrkA) were detected using reverse transcription quantitative polymerase chain reaction. Western blotting was used to detect protein expression of CgA, NGF, and TrkA. RESULTS: In the model group, the prostate capsule membrane and stroma were significantly dilated with more inflammatory cells infiltrating the stroma and perivessels. TNF-α, IL-1ß, -6, and -8, CgA, NGF, and TrkA levels increased, whereas the content of IL-10 decreased, which was statistically significant compared to that in the normal control group ( < 0.05). Prostate tissue cells in the high-dose group were neatly arranged with no obvious inflammatory cell infiltration. When compared with the model group, the high-dose Qinghua decoction group showed a significant improvement in these indices ( < 0.05). CONCLUSION: Qinghua decoction led to inhibition of pathological changes in the prostate tissue of rats with CNP, regulation of inflammatory cytokine expression, and inhibition in the expression of CgA, NGF, and TrkA. This mechanism may be primarily related to regulation of the CgA/NGF/TrkA signaling pathway mediated by various inflammatory factors.

Urocortin 2 lowers blood pressure and reduces plasma catecholamine levels in mice with hyperadrenergic activity.

Exaggerated adrenergic activity is associated with human hypertension. The peptide urocortin 2 (Ucn 2) inhibits catecholamine synthesis and secretion from adrenal chromaffin cells in vitro and administration to mammals lowers blood pressure (BP). The chromogranin A-null mouse (Chga-/-) manifests systemic hypertension because of excessive catecholamine secretion from the adrenal and decreased catecholamine storage. In the present study, we investigated whether systemic administration of Ucn 2 could reduce BP and adrenal and plasma levels of catecholamines in vivo. Ucn 2 peptide was administered to freely moving, conscious Chga-/- and wild-type control mice. Telemetry and HPLC measured changes in BP and catecholamine levels, respectively. In both groups of mice, Ucn 2 dose-dependently decreased BP, and this effect was mediated by corticotropin factor-receptor type 2. However, in Chga-/- mice, the maximal percentage decrease of systolic BP from basal systolic BP was 37% compared with only a 23% reduction in wild-type mice (P=0.04). In Chga-/- mice only, Ucn 2 decreased adrenal and plasma levels of catecholamines as well as adrenal levels of tyrosine hydroxylase protein and phosphorylation. In vitro mechanistic studies demonstrated that Ucn 2 reduces both catecholamine secretion and tyrosine hydroxylase promoter activity, suggesting that the exaggerated action of Ucn 2 to reduce BP in the Chga-/- mouse is mediated through inhibition of both catecholamine synthesis and secretion. The data suggest that Ucn 2 may be therapeutically useful in regulating the exaggerated sympathoadrenal function of hyperadrenergic hypertension.