Supplemental Digital Content is Available in the Text. Cage-lid hanging behavior is impaired by sustained pain in mice and can be used as an ethologically valid and translationally relevant pain outcome measure.
Most research laboratories abide by guidelines and mandates set by their research institution regarding the administration of analgesics to control pain during the postoperative period. Unfortunately, measuring pain originating from the head is difficult, making adequate decisions regarding pain control following stereotaxic surgery problematic. In addition, most postsurgical analgesia protocols require multiple injections over several days, which may cause stress and distress during a critical recovery period. Here we sought to (1) assess the degree of postoperative pain following craniotomy in mice, (2) compare the efficacy of three common rodent analgesics (carprofen, meloxicam and buprenorphine) for reducing this pain and (3) determine whether the route of administration (injected or self-administered through the drinking supply) influenced pain relief post-craniotomy. Using the mouse grimace scale (MGS), we found that injectable analgesics were significantly more effective at relieving post-craniotomy pain, however, both routes of administration decreased pain scores in the first 24 h postsurgery. Specifically, buprenorphine administered independently of administration route was the most effective at reducing MGS scores, however, female mice showed greater sensitivity to carprofen when administered through the water supply. Although it is necessary to provide laboratory animals with analgesics after an invasive procedure, there remains a gap in the literature regarding the degree of craniotomy-related pain in rodents and the efficacy of alternative routes of administration. Our study highlights the limitations of administering drugs through the drinking supply, even at doses that are considered to be higher than those currently recommended by most research institutions for treating pain of mild to moderate severity.
Emerging evidence suggests that histone variants are novel epigenetic regulators of memory, whereby histone H2A.Z suppresses fear memory. However, it is not clear if altered fear memory can also modify risk for PTSD, and whether these effects differ in males and females. Using conditionalinducible H2A.Z knockout (cKO) mice, we showed that H2A.Z binding is higher in females and that H2A.Z cKO enhanced fear memory only in males. However, H2A.Z cKO improved memory on the non-aversive object-in-place task in both sexes, suggesting that H2A.Z suppresses non-stressful memory irrespective of sex. Given that risk for fear-related disorders, such as PTSD, is biased toward females, we examined whether H2A.Z cKO also has sex-specific effects on fear sensitization in the stress-enhanced fear learning (SEFL) model of PTSD, as well as associated changes in pain sensitivity. We found that H2A.Z cKO reduced stress-induced sensitization of fear learning and pain responses preferentially in female mice, indicating that the effects of H2A.Z depend on sex and the type of task, and are influenced by history of stress. These data suggest that H2A.Z may be a sex-specific epigenetic risk factor for PTSD susceptibility, with implications for developing sex-specific therapeutic interventions. The capacity to remember fear-related cues is an important survival-promoting adaptation, but it can become maladaptive in some psychiatric conditions, such as post-traumatic stress disorder (PTSD). PTSD develops in response to a traumatic experience and is characterised by intrusive memories of the trauma and sensitization to fear, which presents as enhanced formation of new memories for relatively mild fearful stimuli 1-7. PTSD disproportionately affects women, who have twice the risk of developing the disorder 8 , and who are more prone to developing new fear memories compared to men with PTSD 9-11. In rodents, fear sensitization is modeled with stress-enhanced fear learning (SEFL), a paradigm in which exposure to a strong stressor (used to model traumatic experience) results in strengthened acquisition of fear memory compared to mice without prior stress exposure 10. This sensitization effect is observable within 24 h after stress, is long lasting, and is associated with a range of PTSD-like symptoms, including increased anxiety and impaired fear extinction 10. Some evidence suggests that PTSD may also sensitize patients to various forms of painful stimuli. Rates of chronic pain are higher among patients with PTSD compared to the general population, pain onset begins after PTSD symptoms emerge, and intensity of pain positively correlates with the severity of PTSD 12. Although sex differences in pain sensitivity in PTSD patients have not been widely studied, sex differences in pain sensitivity in the general population are widely reported, with women exhibiting higher prevalence of chronic pain and lower pain thresholds compared to men 13-15. One recent study in rodents showed that exposure to a single prolonged
Chronic pain and depression are intimately linked; the combination of the two leads to higher health care costs, lower quality of life, and worse treatment outcomes with both conditions exhibiting higher prevalence among women. In the current study, we examined the development of depressive-like behavior in male and female mice using the spared nerve injury (SNI) model of neuropathic pain. Males displayed increased immobility on the forced-swim test – a measure of depressive-like behavior – 2 weeks following injury, while females developed depressive-like behavior at 3-week. Since the pathogenesis of chronic pain and depression may involve overlapping mechanisms including the activation of microglial cells, we explored glial cell changes in brain regions associated with pain processing and affect. Immunohistochemical analyses revealed that microglial cells were more numerous in female SNI mice in the contralateral ventral anterior cingulate cortex (ACC), a brain region important for pain processing and affect behavior, 2-week following surgery. Microglial cell activation was not different between any of the groups for the dorsal ACC or nucleus accumbens. Analysis of astrocyte density did not reveal any significant changes in glial fibrillary acidic protein (GFAP) staining in the ACC or nucleus accumbens. Overall, the current study characterized peripheral nerve injury induced depression-like behavior in male and female mice, which may be associated with different patterns of glial cell activation in regions important for pain processing and affect.
Highlights mTOR is a major regulator of protein translation. mTOR serves an important role in neural plasticity. mTOR signalling in the brain as a pathology for neurological disorder is known. mTOR signalling in the brain as a chronic pain mechanism is understudied.
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