On the contrary,
carbachol- and EFS-induced contractile-responses in old WHHL-MI rabbits showed significantly lower responses compared to control rabbits. The maximum contractile responses to carbachol and EFS in young and old WHHL-MI rabbits and control rabbits are presented Alectinib order in Table 3. The bladder specimens were also stained immunohistochemically in the presence of mouse monoclonal S-100 protein antibodies and sheep polyclonal calcitonin gene-related peptide (CGRP) antibodies. All stained nerve fibers were counted in at least five high-power field, then the mean nerve density score (MNDS) was calculated, according to the method described by Van Poppel et al.24 The results showed that S-100 protein-positive neurons mainly in smooth muscle layer, and number of the neurons gradually decreased with age, with a significantly lower number in WHHL-MI rabbits compared to the control rabbits. CGRP-positive neurons were observed mainly in urothelium. CGRP-positive neurons had significantly larger MNDS in the tissues of young and old WHHL-MI rabbits compared to control rabbits (Table 4). Azadzoi et al.22,23 studied a rabbit model developed to show moderate bladder ischemia
(MBI) and severe bladder ischemia (SBI), and reported that MBI produced bladder overactivity and increased contractile response to carbachol and EFS stimulation with moderate fibrosis in the bladder wall, whereas SBI showed very weak contraction and decreased response to stimulation.
SBI also showed severe fibrosis. It is interesting that the ischemic bladder models showed almost the same results as the WHHL-MI rabbit Ulixertinib mouse model. In the present study, detrusor overactivity and increased contractile responses to carbachol and EFS were observed in young WHHL-MI rabbits. In addition, young WHHL-MI rabbits showed a significant decrease in S-100 protein-positive neurons. As enough S-100 protein-positive neurons include motor neurons, detrusor overactivity of young WHHL-MI rabbits could be considered as a condition of denervation-induced hypersensitivity. Although the mechanism of denervation is not fully understood, Ca2+-dependent neutral protease calpain may be activated by ischemia and result in proteolysis of neuronal membranes.18 On the other hand, CGRP-positive neurons emerged to increase in WHHL-MI rabbits. CGRP is one of the predominant excitatory neurotransmitters in mediating sensory perception, and is an important nociceptive marker.25 CGRP has a major role in mediating hypersensitivity in many systems, including the lower urinary tract.26 Therefore, the increased CGRP-positive neurons in this study may contribute to the activation of bladder afferents. In addition, nerve growth factor (NGF) seems to control, at least partly, survival and outgrowth of CGRP-positive neurons through its tyrosine kinase receptor A, and increase in NGF and CGRP-positive neurons have a strong relationship with detrusor overactivity in spinal cord-injured rats.