From observations in rodents, it has been suggested that the cellular basis of learning-dependent changes, detected using structural MRI, may be increased dendritic spine density, alterations in ...astrocyte volume, and adaptations within intracortical myelin. Myelin plasticity is crucial for neurological function, and active myelination is required for learning and memory. However, the dynamics of myelin plasticity and how it relates to morphometric-based measurements of structural plasticity remains unknown. We used a motor skill learning paradigm in male mice to evaluate experience-dependent brain plasticity by voxel-based morphometry (VBM) in longitudinal MRI, combined with a cross-sectional immunohistochemical investigation. Whole-brain VBM revealed nonlinear decreases in gray matter volume (GMV) juxtaposed to nonlinear increases in white matter volume (WMV) within GM that were best modeled by an asymptotic time course. Using an atlas-based cortical mask, we found nonlinear changes with learning in primary and secondary motor areas and in somatosensory cortex. Analysis of cross-sectional myelin immunoreactivity in forelimb somatosensory cortex confirmed an increase in myelin immunoreactivity followed by a return towards baseline levels. Further investigations using quantitative confocal microscopy confirmed these changes specifically to the length density of myelinated axons. The absence of significant histological changes in cortical thickness suggests that nonlinear morphometric changes are likely due to changes in intracortical myelin for which morphometric WMV in somatosensory cortex significantly correlated with myelin immunoreactivity. Together, these observations indicate a nonlinear increase of intracortical myelin during learning and support the hypothesis that myelin is a component of structural changes observed by VBM during learning.
Capsaicin, the pungent ingredient of the hot chili pepper, is known to act on the transient receptor potential cation channel vanilloid subfamily member 1 (TRPV1). TRPV1 is involved in somatic and ...visceral peripheral inflammation, in the modulation of nociceptive inputs to spinal cord and brain stem centers, as well as the integration of diverse painful stimuli. In this review, we first describe the chemical and pharmacological properties of capsaicin and its derivatives in relation to their analgesic properties. We then consider the biochemical and functional characteristics of TRPV1, focusing on its distribution and biological effects within the somatosensory and viscerosensory nociceptive systems. Finally, we discuss the use of capsaicin as an agonist of TRPV1 to model acute inflammation in slices and other ex vivo preparations.
Neurogenic detrusor overactivity (NDO) is a well known consequence of spinal cord injury (SCI), recognizable after spinal shock, during which the bladder is areflexic. NDO emergence and maintenance ...depend on profound plastic changes of the spinal neuronal pathways regulating bladder function. It is well known that neurotrophins (NTs) are major regulators of such changes. NGF is the best-studied NT in the bladder and its role in NDO has already been established. Another very abundant neurotrophin is BDNF. Despite being shown that, acting at the spinal cord level, BDNF is a key mediator of bladder dysfunction and pain during cystitis, it is presently unclear if it is also important for NDO. This study aimed to clarify this issue. Results obtained pinpoint BDNF as an important regulator of NDO appearance and maintenance. Spinal BDNF expression increased in a time-dependent manner together with NDO emergence. In chronic SCI rats, BDNF sequestration improved bladder function, indicating that, at later stages, BDNF contributes NDO maintenance. During spinal shock, BDNF sequestration resulted in early development of bladder hyperactivity, accompanied by increased axonal growth of calcitonin gene-related peptide-labeled fibers in the dorsal horn. Chronic BDNF administration inhibited the emergence of NDO, together with reduction of axonal growth, suggesting that BDNF may have a crucial role in bladder function after SCI via inhibition of neuronal sprouting. These findings highlight the role of BDNF in NDO and may provide a significant contribution to create more efficient therapies to manage SCI patients.
A next generation of tau PET tracers for the imaging of Alzheimer's disease and other dementias has recently been developed. Whilst the new compounds have now entered clinical studies, there is ...limited information available to assess their suitability for clinical applications. Head-to-head comparisons are urgently needed to understand differences in the radiotracer binding profiles. We characterized the binding of the tau tracers PI2620, RO948, MK6240 and JNJ067 in human post-mortem brain tissue from a cohort of 25 dementia cases and age-matched controls using quantitative phosphorimaging with tritium-labelled radiotracers in conjunction with phospho-tau specific immunohistochemistry. The four radiotracers depicted tau inclusions composed of paired helical filaments with high specificity, both in cases with Alzheimer's disease and in primary tauopathy cases with concomitant Alzheimer's disease pathology. In contrast, cortical binding to primary tauopathy in cases without paired helical filament tau was found to be within the range of age-matched controls. Off-target binding to monoamine oxidase B has been overcome, as demonstrated by heterologous blocking studies in basal ganglia tissue. The high variability of cortical tracer binding within the Alzheimer's disease group followed the same pattern with each tracer, suggesting that all compounds are suited to differentiate Alzheimer's disease from other dementias.
Abstract Background Bladder pain syndrome/interstitial cystitis (BPS/IC) is a chronic disease without an effective treatment, characterized by pain during bladder filling. Most nociceptive bladder ...afferents course in the trigone. Objective To evaluate efficacy and tolerability of trigonal injection of botulinum toxin A (BoNTA) in patients with BPS/IC. Urine concentration of nerve growth factor (NGF) and brain-derived neurotrophic factor (BDNF) were also evaluated. Design, setting, and participants Women with refractory BPS/IC were included in an open, exploratory study. Intervention Under sedation, 100 U of BoNTA (Botox) were injected in 10 trigonal sites (10 U per 1 ml saline). Retreatment was allowed 3 mo after injection. Measurements Pain, urinary frequency, O’Leary-Sant score (OSS), quality of life, (QoL), and urodynamic testing at 1 and 3 mo and every 3 mo thereafter. Urine NGF and BDNF were assessed at the same points. Patients who were retreated were evaluated every 3 mo. Results and limitations All patients reported subjective improvement at 1- and 3-mo follow-up. Pain, daytime and nighttime voiding frequency, OSS, and QoL improved significantly. Bladder volume to first pain and maximal cystometric capacity more than doubled. Treatment remained effective in >50% of the patients for 9 mo. Retreatment was also effective in all cases, with similar duration. A significant, transient reduction in urinary NGF and BDNF was observed. No cases of voiding dysfunction occurred. The low number of patients and the lack of a placebo arm are obvious limitations of this study. Conclusions Trigonal injection of BoNTA is a safe and effective treatment for refractory BPS/IC.
What's known on the subject? and What does the study add?
The interaction between the TRPV1 and NGF systems has been addressed only in the context of acute somatic pain. The present study expands ...this view and indicates that this interaction remains operative and is important as a mechanism for chronic visceral pain and dysfunction. Moreover, it further stresses the need to develop more specific and effective TRPV1 antagonists for clinical use.
OBJECTIVES
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To explore the role of transient receptor potential vanilloid 1 (TRPV1) in the excitatory effects of chronic administration of nerve growth factor (NGF) on bladder‐generated sensory input and reflex activity.
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To explore new therapeutic targets for bladder dysfunction.
MATERIALS AND METHODS
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Wild‐type (WT) and TRPV1 knockout (KO) mice received daily intraperitoneal injections of NGF (1 µg/10 g) or saline for a period of 4 days, during which time thermal sensitivity was evaluated daily. On the 5th day, mice were anaesthetized and cystometries were performed. The frequency, amplitude and area under the curve (AUC) of bladder reflex contractions were determined.
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c‐Fos expression was evaluated on L6 spinal cord sections of WT and TRPV1 KO mice treated with saline or chronic NGF by immunohistochemistry.
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TrkA receptor staining intensity was determined in L6 spinal cord sections and respective dorsal root ganglia of WT and TRPV1 KO mice.
RESULTS
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Repeated administration of NGF induced thermal hypersensitivity in WT but not in TRPV1 KO mice.
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The frequency of bladder contractions of saline‐treated WT and TRPV1 KO mice was similar, the values respectively being 0.45 ± 0.12/min and 0.46 ± 0.16/min. Treatment with NGF enhanced bladder reflex activity in WT mice to 1.23 ± 0.41/min (P < 0.05). In NGF‐treated KO mice, the frequency of bladder contractions was 0.60 ± 0.05/min. Irrespective of treatment, no differences were observed in the amplitude of bladder contractions of WT and TRPV1 KO mice. The AUC was significantly increased in NGF‐treated WT‐mice, when compared with saline‐treated WT‐mice. No changes were found in AUC of saline‐treated and NGF‐treated TRPV1 KO mice.
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Chronic administration of NGF resulted in a significant increase of spinal c‐Fos expression in WT mice (P < 0.05 vs KO animals), but not in TRPV1 KO animals.
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TrkA expression was similar in WT and TRPV1 KO mice.
CONCLUSIONS
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NGF‐induced bladder overactivity and noxious input depend on the interaction of NGF with TRPV1.
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The lack of bladder overactivity in TRPV1 KO mice treated with NGF does not represent loss of TrkA expression.
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TRPV1 is essential for NGF‐driven bladder dysfunction and represents a bottleneck target in bladder pathologies associated with NGF up‐regulation.
The lower urinary tract (LUT) comprises a storage unit, the urinary bladder, and an outlet, the urethra. The coordination between the two structures is tightly controlled by the nervous system and, ...therefore, LUT function is highly susceptible to injuries to the neuronal pathways involved in micturition control. These injuries may include lesions to the spinal cord or to nerve fibres and result in micturition dysfunction. A common trait of micturition pathologies, irrespective of its origin, is an upregulation in synthesis and secretion of neurotrophins, most notably Nerve Growth Factor (NGF) and Brain Derived Neurotrophic Factor (BDNF). These neurotrophins are produced by neuronal and non-neuronal cells and exert their effects upon binding to their high-affinity receptors abundantly expressed in the neuronal circuits regulating LUT function. In addition, NGF and BDNF are present in detectable amounts in the urine of patients suffering from various LUT pathologies, suggesting that analysis of urinary NGF and BDNF may serve as likely biomarkers to be studied in tandem with other factors when diagnosing patients. Studies with experimental models of bladder dysfunction using antagonists of NGF and BDNF receptors as well as scavenging agents suggest that those NTs may be key elements in the pathophysiology of bladder dysfunctions. In addition, available data indicates that NGF and BDNF might constitute future targets for designing new drugs for better treatment of bladder dysfunction.
Abstract only
Background
Spinal cord injury (SCI) disrupts autonomic pathways and consequently perturbs cardiovascular homeostasis. Injuries above T6 results in loss of descending sympathetic control ...of the splanchnic vasculature. Blood pressure regulation is impaired resulting in resting hypotension and episodic hypertension, the latter of which is known as a life threatening condition called autonomic dysreflexia (AD). These fluctuations in arterial blood pressure following SCI may also result in dysfunction and maladaptive remodelling at the level of the splanchnic resistance vasculature.
Objective
To examine the time course of structural and functional adaptations of resistance mesenteric vasculature in a complete T3 transection rodent model.
Design/Method
15 male Wistar rats were randomly assigned to three groups: T3 SCI 1 Week (n=5), T3 SCI 1 Month (n=5), and Uninjured Control (n=5). Functional and structural assessment of primary mesenteric arteries were assessed
ex vivo
using a pressure myograph system. In addition to vessel morphology and myogenic tone, functional assessment of vasocontractility was assessed using α1 adrenoceptor agonist phenylephrine (PE) and methoxamine (MET).
Results
Myogenic tone is significantly impaired in the T3 SCI 1 Week and T3 SCI 1 Month groups compared to the Uninjured Control group (p = 0.0212 and p=0.0059, respectively). EC50 values were extrapolated from PE dose response curves and were lower for both the T3 SCI 1 Week and T3 SCI 1 Month groups compared to the Uninjured Control group (p<0.0001 and p=0.0004, respectively). There are no significant differences found between EC50 values determined for MET. Wall thickness is decreased and vessel diameter is increased in the T3 SCI 1 Month group compared to the Uninjured Control group (p=0.0221 and p=0.066, respectively).
Conclusion
Hypersensitivity to the α1 adrenoceptor agonist PE but not MET suggest deficiency in the reuptake of norepinephrine in resistance mesenteric vasculature. Decreased wall thickness, in addition to an increased vessel diameter may suggest chronic outward hypotrophic remodelling.
Support or Funding Information
This research was funded by the Canadian Institute of Health Research and the Heart and Stroke Foundation of BC and Yukon.
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