OBJECTIVE To study the changes in inflammatory factors caused by prostatitis.METHODS SD rats were castrated under sterile conditions.E2 0.25 mg· kg-1+ T 0.25,0.5 and 1.0 mg· kg-1 were given sc for 30 d,respectively.Serum samples were taken and levels of E2,T and dihydrotestosterone (DHT) were detected by ELISA.Pathological changes of prostate tissue were observed by HE staining.The expressions of tumor necrosis factor-alpha (TNF-α),cyclooxygenase-2 (COX-2) and macrophage inflammatory protein 1alpha (MIP-1α) in prostate were detected by immunohistochemistry.RESLULTS ELISA detection showed that E2 levels were significantly increased [(80±7) ng· L-1,P＜0.01] in E2 0.25 mg· kg-1 group and that T levels were significantly decreased [111 ±6 vs (111 ±5) nmol· L-1,P＜0.05]in E20.25 mg ·kg-1 and E2+T 0.25 mg·kg-1 groups compared with the sham-operated group.E2 was significantly increased [(80±7) ng· L-1,P＜0.01] in E20.25 mg· kg-1 groups compared with the castrated control.The sham and castrated control showed normal glandular epithelium without leukocyte infiltration.In E2 0.25 mg·kg-1 group,extensive infiltration of inflammatory cells was found in the glandular lumens,suggesting the occurrence of chronic prostatitis.In each E2+T groups,fewer inflammatory cells were noted in the stroma around glands.The expressions of TNF-m COX-2 and MIP-1α in sham group were negative or low,while those of castrated control and E2 0.25 mg· kg-1 groups were high,especially in E2 0.25 mg· kg-1 group.The expressions of TNF-α,COX-2 and MIP-1α in each E2+T group were significantly decreased.CONCLUSION Testosterone can inhibit prostatitis and the expression of inflammatory factors,such as TNF-α,COX-2 and MIP-1 α,in castrated SD rats initiated by estrogen.

Prepulse inhibition (PPI) refers to a decreased response to a startling stimulus when another weaker stimulus precedes it. Most PPI studies have focused on the physiological startle reflex and fewer have reported the PPI of cortical responses. We recorded local field potentials (LFPs) in four monkeys and investigated whether the PPI of auditory cortical responses (alpha, beta, and gamma oscillations and evoked potentials) can be demonstrated in the caudolateral belt of the superior temporal gyrus (STGcb). We also investigated whether the presence of a conspecific, which draws attention away from the auditory stimuli, affects the PPI of auditory cortical responses. The PPI paradigm consisted of Pulse-only and Prepulse + Pulse trials that were presented randomly while the monkey was alone (ALONE) and while another monkey was present in the same room (ACCOMP). The LFPs to the Pulse were significantly suppressed by the Prepulse thus, demonstrating PPI of cortical responses in the STGcb. The PPI-related inhibition of the N1 amplitude of the evoked responses and cortical oscillations to the Pulse were not affected by the presence of a conspecific. In contrast, gamma oscillations and the amplitude of the N1 response to Pulse-only were suppressed in the ACCOMP condition compared to the ALONE condition. These findings demonstrate PPI in the monkey STGcb and suggest that the PPI of auditory cortical responses in the monkey STGcb is a pre-attentive inhibitory process that is independent of attentional modulation.
Animals ; Auditory Cortex ; physiology ; Evoked Potentials, Auditory ; physiology ; Macaca mulatta ; Male ; Prepulse Inhibition ; physiology ; Temporal Lobe ; physiology