Peyman Sahbaie’s research while affiliated with Stanford University and other places

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Publications (67)


Figure 4. Treatment with FK506 reduced postfracture skin IgM deposition. Deposition of IgM in hind paw skin of mice after fracture (Fx) and ongoing vehicle or FK506 (5 mg/kg; 3 days per week) treatment. Skin IgM content of the fracture/control limb was quantified using western blot analysis. Data were analyzed by one-way ANOVA (analysis of variance) followed by Fisher LSD post-hoc tests. **P , 0.01 and ***P , 0.001 indicate significant difference between groups. Error bars: SEM, n 5 4 mice/group, each sample run in duplicate.
Figure 5. Anxiety evaluations after FK506 treatment after tibia fracture. Anxiety levels were measured using an elevated zero-maze (ZM) after fracture (Fx) and ongoing vehicle or FK506 (5 mg/kg; 3 days per week) treatment. The elevated ZM has 2 closed and 2 open quadrants. Time spent in the open quadrants was compared across groups to measure anxiety and risk-taking behavior. Higher anxiety levels in mice are expressed as decreased time spent (increased avoidance) of ZM open areas, compared with controls. Data were analyzed by one-way ANOVA (analysis of variance) followed by Fisher LSD post-hoc tests. *P , 0.05 and **P , 0.01 indicate significant difference between groups. Error bars: SEM, n 5 12/group.
Effects of immunosuppression after limb fracture in mice on nociceptive, cognitive, and anxiety-related outcomes
  • Article
  • Full-text available

September 2024

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11 Reads

PAIN Reports

Peyman Sahbaie

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Xiao-you Shi

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J. David Clark

Introduction Chronic pain is a common and problematic consequence of injuries with few proven methods for prevention or treatment. In addition to pain, functional limitations and neuropsychiatric changes such as cognitive impairment and anxiety worsen outcomes. Objectives To determine whether inhibiting activation of the adaptive immune response after limb fracture would reduce pain, functional loss, memory changes, and anxiety. Methods These experiments used a murine tibial fracture/cast immobilization model that develops these adverse outcomes. Adaptive immunity was blocked using the immunosuppressant FK506 beginning at the time of fracture. Results The administration of FK506 reduced mechanical allodynia and hind limb unweighting for weeks after cast removal as well as nonevoked pain measures. Fracture was associated with working memory loss in the Y-maze assay in vehicle- but not FK506-treated mice. Object recognition memory was not improved with FK506 after fracture. Also, vehicle- but not FK506-treated mice developed an anxiety phenotype. Impaired running wheel performance after cast removal over the following 2 weeks was not improved with FK506 administration. In addition, FK506 treatment blocked Immunoglobulin M (IgM) accumulation in the skin of the fractured limbs, and hippocampal enhancement of matrix metalloproteinase-8 expression, a metalloproteinase associated with neuroplastic changes after injuries, was completely blocked. Conclusion Taken together, our results show that blocking the adaptive immune response after limb trauma reduces the severity of nociceptive and biological changes. The same treatment may reduce the adverse consequences of anxiety and memory deficits using some measures, but other measures of memory are not affected, and activity is not enhanced.

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Brain Expression of CPB2 and Effects of Cpb2 Deficiency in Mouse Models of Behavior

August 2023

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10 Reads

Thrombosis and Haemostasis

Background Procarboxypeptidase B2 (proCPB2 or TAFI) is a zymogen that after activation cleaves C-terminal basic residues from peptides or proteins with many identified targets. A splice variant of CPB2 has been found in the brain lacking essential residues for its carboxypeptidase function. The aim was to determine CPB2 expression in the brain and effects of CPB2 deficiency (Cpb2 −/−) on behavior. Materials and Methods Behavioral effects were tested by comparing Cpb2 −/− mice in short-term (open field and elevated zero maze tests) and long-term (Phenotyper) observations with wild-type (WT) controls. Results Long-term observation compared day 1 (acclimatizing to novel environment) to day 4 (fully acclimatized) with the inactive (day) and active (night) periods analyzed separately. Brain expression of CPB2 mRNA and protein was interrogated in publicly available databases. Long-term observation demonstrated differences between WT and Cpb2 −/− mice in several parameters. For example, Cpb2 −/− mice moved more frequently on both days 1 and 4, especially in the normally inactive periods. Cpb2 −/− mice spent more time on the shelter and less time in it. Differences were more pronounced on day 4 after the mice had fully acclimatized. In short-term observations, no differences were observed between Cpb2 −/− mice and WT mice. Brain expression of CBP2 was not detectable in the human protein atlas. Databases of single-cell RNAseq did not show expression of CPB2 mRNA in either human or mouse brain. Conclusion Continuous observation of home-cage behavior suggests that Cpb2 −/− mice are more active than WT mice, show different day–night activity levels, and might have a different way of processing information.


(A) Hind paw withdrawal threshold of C57Bl/6 J male mice after incision and vehicle/drug treatment. (B) Basso Motor Scale (BMS) and BMS Subscore of C57Bl/6 J male mice after incision and vehicle/drug treatment. Data represented as mean ± S.E.M and analyzed by repeated measures two-way ANOVA followed by Sidak post-hoc test (*** represents p < 0.001 ** represent p < 0.01, * represents p < 0.05 in all cases vs vehicle treatment. # represents p < 0.05 and ### represents p < 0.001 vs bupivacaine treatment, n = 8.).
(A) Hind paw withdrawal threshold of C57Bl/6 J female mice after incision and vehicle/drug treatment. (B) Basso Motor Scale (BMS) of C57Bl/6 J female mice after incision and vehicle/drug treatment. Data represented as mean ± S.E.M and analyzed by repeated measures two-way ANOVA followed by Sidak post-hoc test (*** represents p < 0.001, ** represent p < 0.01, * represents p < 0.05 in all cases vs vehicle treatment, # represents p < 0.05, n = 8.).
(A) Hind paw withdrawal threshold of C57BI/6 J male mice after incision procedure and vehicle/drug (50 μl Popliteal Block) treatment, n = 8. (B) Basso Motor Scale (BMS) of C57BI/6 J male mice after incision procedure and vehicle/drug (50 μl Popliteal Block) treatment, n = 8. Data represented as mean ± S.E.M and analyzed by repeated measures two-way ANOVA followed by Sidak post-hoc test (*** represents p < 0.001, ** represent p < 0.01, * represents p < 0.05 in all cases vs vehicle treatment, # represents p < 0.05 and ### represents p < 0.001 vs bupivacaine treatment, n = 8.).
(A). Hind paw withdrawal threshold of C57BI/6 J female mice after incision procedure and vehicle/drug (50 μl Popliteal Block) treatment, n = 7–8. (B) Basso Motor Scale (BMS) of C57BI/6 J female mice after incision procedure and vehicle/drug (50 μl Popliteal Block) treatment, n = 7–8. Data represented as mean ± S.E.M and analyzed by repeated measures two-way ANOVA followed by Sidak post-hoc test (*** represents p < 0.001, ** represent p < 0.01, * represents p < 0.05 in all cases vs vehicle treatment).
(A) The pharmacokinetics of N-001 was determined through IP injections in both male and female mice at different doses (MED and MTD) at 2,4,8,24,72 and 96 h. (B) The formation of antidrug antibodies (ADAs) was measured by ELISA. The mice were injected with N-001 at the times indicated. (C) A phalloidin potency assay was conducted for determining potential neutralization of N-001 by ADAs using SH-SY5Y cells. N-001 (2.4 pmol) was incubated with cells with a dilution series of ADA containing sera and compared to N-001 treated and untreated cells. The data are presented as means ± standard errors of the means (SEM) (error bars) from each titration performed in technical triplicates.
Preclinical characterization of the efficacy and safety of biologic N-001 as a novel pain analgesic for post-operative acute pain treatment

July 2023

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57 Reads

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2 Citations

Inhibition of actin remodeling in nerves modulates action potential propagation and therefore could be used to treat acute pain. N-001 is a novel protein analgesic engineered from several C. Botulinum toxins. N-001 targets sensory neurons through ganglioside GT1b binding and ADP-ribosylates G-actin reducing actin remodeling. The activity and efficacy of N-001 was evaluated previously in vitro and in a mouse inflammatory pain model. To assess the relevance of N-001 for treatment of acute post-surgical pain, the current study evaluated the efficacy of N-001 in a mouse hind-paw incision model by peri-incisional and popliteal nerve block administration combined with mechanical testing. N-001 provided relief of pain-like behavior over 3 days and 2 days longer than the conventional long-acting anesthetic bupivacaine. Preclinical safety studies of N-001 indicated the drug produced no toxic or adverse immunological reactions over multiple doses in mice. These results combined with past targeting results encourage further investigation of N-001 as an analgesic for post-operative pain management with the potential to function as a differential nociceptor-specific nerve block.


Figure 2: The effect of exercise on hindpaw allodynia after mild TBI. On the days indicated
Figure 7: Effect of exercise on the expression of spinal (a) BDNF, (b) PDYN, (c) CXCL1 and (d)
Figure 8: The effect of exercise on the mild TBI-induced neuroinflammation in superficial dorsal
Figure legends
Effect of Voluntary Exercise on Endogenous Pain Control Systems and Post-traumatic Headache in Mice

June 2023

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45 Reads

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7 Citations

Journal of Pain

Traumatic brain injury (TBI) can cause acute and chronic pain along with motor, cognitive and emotional problems. Although the mechanisms are poorly understood, previous studies suggest disruptions in endogenous pain modulation may be involved. Voluntary exercise after a TBI has been shown to reduce some consequences of injury including cognitive impairment. We hypothesized, therefore, that voluntary exercise could augment endogenous pain control systems in a rodent model of TBI. For these studies, we used a closed head impact procedure in male mice modeling mild TBI. We investigated the effect of voluntary exercise on TBI-induced hindpaw nociceptive sensitization, diffuse noxious inhibitory control failure and periorbital sensitization after bright light stress, a model of post-traumatic headache. Furthermore, we investigated the effects of exercise on memory, circulating markers of brain injury, neuroinflammation and spinal cord gene expression. We observed that exercise significantly reduced TBI-induced hindpaw allodynia and periorbital allodynia in the first week following TBI. We also showed that exercise improved the deficits associated with diffuse noxious inhibitory control and reduced bright light stress-induced allodynia up to two months after TBI. In addition, exercise preserved memory and reduced TBI-induced increases in spinal BDNF, CXCL1, CXCL2 and prodynorphin expression, all genes previously linked to TBI-induced nociceptive sensitization. Taken together, our observations suggest that voluntary exercise may reduce pain after TBI by reducing TBI-induced changes in nociceptive signaling and preserving endogenous pain control systems.


Mild Traumatic Brain Injury-Induced Augmented Postsurgical Pain Is Driven by Central Serotonergic Pain-Facilitatory Signaling

April 2023

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37 Reads

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3 Citations

Anesthesia & Analgesia

Background: Individuals recovering from mild traumatic brain injury (mTBI) have increased rates of acute and chronic pain. However, the mechanism through which mTBI triggers heightened pain responses and the link between mTBI and postsurgical pain remain elusive. Recent data suggest that dysregulated serotonergic pain-modulating circuits could be involved. We hypothesized that mTBI triggers dysfunction in descending serotonergic pain modulation, which exacerbates acute pain and delays pain-related recovery after surgery. Methods: Using mouse models of mTBI and hindpaw incision for postsurgical pain in C57BL/6J mice, mechanical withdrawal thresholds were assessed throughout the postsurgical period. To determine whether mTBI leads to persistent alteration of endogenous opioid tone, mu-opioid receptors (MORs) were blocked with naloxone. Finally, the role of descending serotonergic signaling on postsurgical allodynia in animals with mTBI was examined using ondansetron (5-HT3 receptor antagonist) or a serotonin-specific neurotoxin, 5,7-dihydroxytryptamine (5,7-DHT), to ablate descending serotonergic fibers. The treatment effects on withdrawal thresholds were normalized to baseline (percentage of maximum possible effect, MPE%), and analyzed using paired t-test or 2-way repeated-measures ANOVA with post hoc multiple comparisons. Results: Post-mTBI mice demonstrated transient allodynia in hindpaws contralateral to mTBI, while no nociceptive changes were observed in sham-mTBI animals (mean difference, MD, MPE%, post-mTBI day 3: -60.9; 95% CI, -88.7 to -35.0; P < .001). After hindpaw incision, animals without mTBI exhibited transient allodynia, while mice with prior mTBI demonstrated prolonged postsurgical allodynia (MD-MPE% postsurgical day 14: -65.0; 95% CI, -125.4 to -4.5; P = .04). Blockade of MORs using naloxone transiently reinstated allodynia in mTBI animals but not in sham-mTBI mice (MD-MPE% post-naloxone: -69.9; 95% CI, -94.8 to -45.1; P < .001). Intrathecal administration of ondansetron reversed the allodynia observed post-mTBI and postincision in mTBI mice (compared to vehicle-treated mTBI mice, MD-MPE% post-mTBI day 3: 82.7; 95% CI, 58.5-106.9; P < .001; postsurgical day 17: 62.5; 95% CI, 38.3-86.7; P < .001). Both the acute allodynia after TBI and the period of prolonged allodynia after incision in mTBI mice were blocked by pretreatment with 5,7-DHT (compared to sham-mTBI mice, MD-MPE% post-mTBI day 3: 0.5; 95% CI, -18.5 to 19.5; P = .99; postsurgical day 14: -14.6; 95% CI, -16.7 to 45.9; P = .48). Similar behavioral patterns were observed in hindpaw ipsilateral to mTBI. Conclusions: Collectively, our results show that descending serotoninergic pain-facilitating signaling is responsible for nociceptive sensitization after mTBI and that central endogenous opioid tone opposes serotonin's effects. Understanding brain injury-related changes in endogenous pain modulation may lead to improved pain control for those with TBI undergoing surgery.


Monoamine control of descending pain modulation after mild traumatic brain injury

September 2022

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45 Reads

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7 Citations

Traumatic brain injury (TBI) is a significant public health concern, with the majority of injuries being mild. Many TBI victims experience chronic pain. Unfortunately, the mechanisms underlying pain after TBI are poorly understood. Here we examined the contribution of spinal monoamine signaling to dysfunctional descending pain modulation after TBI. For these studies we used a well-characterized concussive model of mild TBI. Measurements included mechanical allodynia, the efficacy of diffuse noxious inhibitory control (DNIC) endogenous pain control pathways and lumber norepinephrine and serotonin levels. We observed that DNIC is strongly reduced in both male and female mice after mild TBI for at least 12 weeks. In naïve mice, DNIC was mediated through α2 adrenoceptors, but sensitivity to α2 adrenoceptor agonists was reduced after TBI, and reboxetine failed to restore DNIC in these mice. The intrathecal injection of ondansetron showed that loss of DNIC was not due to excess serotonergic signaling through 5-HT3 receptors. On the other hand, the serotonin-norepinephrine reuptake inhibitor, duloxetine and the serotonin selective reuptake inhibitor escitalopram both effectively restored DNIC after TBI in both male and female mice. Therefore, enhancing serotonergic signaling as opposed to noradrenergic signaling alone may be an effective pain treatment strategy after TBI.


Pronociceptive autoantibodies in the spinal cord mediate nociceptive sensitization, loss of function, and spontaneous pain in the lumbar disc puncture model of chronic back pain

July 2022

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45 Reads

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4 Citations

Pain

Previously, we observed that B cells and autoantibodies mediated chronic nociceptive sensitization in the mouse tibia fracture model of complex regional pain syndrome and that complex regional pain syndrome patient antibodies were pronociceptive in fracture mice lacking mature B cells and antibodies (muMT). The current study used a lumbar spinal disk puncture (DP) model of low back pain in wild-type (WT) and muMT mice to evaluate pronociceptive adaptive immune responses. Spinal disks and cords were collected 3 weeks after DP for polymerase chain reaction and immunohistochemistry analyses. Wild-type DP mice developed 24 weeks of hindpaw mechanical allodynia and hyperalgesia, grip weakness, and a conditioned place preference response indicative of spontaneous pain, but pain responses were attenuated or absent in muMT DP mice. Spinal cord expression of inflammatory cytokines, immune cell markers, and complement components were increased in WT DP mice and in muMT DP mice. Dorsal horn immunostaining in WT DP mice demonstrated glial activation and increased complement 5a receptor expressionin spinal neurons. Serum collected from WT DP mice and injected into muMT DP mice caused nociceptive sensitization, as did intrathecal injection of IgM collected from WT DP mice, and IgM immune complexes were observed in lumbar spinal disks and cord of WT DP mice. Serum from WT tibia fracture mice was not pronociceptive in muMT DP mice and vice versa, evidence that each type of tissue trauma chronically generates its own unique antibodies and targeted antigens. These data further support the pronociceptive autoimmunity hypothesis for the transition from tissue injury to chronic musculoskeletal pain state.


SNAP25 mutation disrupts metabolic homeostasis, steroid hormone production and central neurobehavior

November 2021

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31 Reads

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3 Citations

Biochimica et Biophysica Acta (BBA) - Molecular Basis of Disease

Objective SNAP-25 is one of the key proteins involved in formation of soluble N-ethylmaleimide-sensitive factor attachment protein receptor (SNARE) complexes that are at the core of hormonal secretion and synaptic transmission. Altered expression or function of SNAP-25 can contribute to the development of neuropsychiatric and metabolic disease. A dominant negative (DN) I67T missense mutation in the b-isoform of SNAP-25 (DN-SNAP25mut) mice leads to abnormal interactions within the SNARE complex and impaired exocytotic vesicle recycling, yet the significance of this mutation to any association between the central nervous system and metabolic homeostasis is unknown. Methods Here we explored aspects of metabolism, steroid hormone production and neurobehavior of DN-SNAP25mut mice. Results DN-SNAP25mut mice displayed enhanced insulin function through increased Akt phosphorylation, alongside increased adrenal and gonadal hormone production. In addition, increased anxiety behavior and beigeing of white adipose tissue with increased energy expenditure were observed in mutants. Conclusions Our results show that SNAP25 plays an important role in bridging central neurological systems with peripheral metabolic homeostasis, and provide potential insights between metabolic disease and neuropsychiatric disorders in humans.


Figure 1. Inhibition of sympathetic signaling reduced nociceptive sensitization and inflammation after tibia fracture. Mice underwent distal tibia fracture and 3 weeks cast immobilization. Fracture (FX) mice had chemical sympathectomy with once daily injections of 6-OHDA or vehicle for 6 days (25 mg/kg/days 1−2, 50 mg/kg/days 3−4, 100 mg/kg/days 5−6; i.p.), starting the day after fracture. Compared to vehicle treated fracture mice, at 3 weeks post fracture the 6-OHDA treated mice exhibited reduced ipsilateral hindlimb mechanical allodynia (A), hind limb unweighting (B), warmth (C), and edema (D), and these inhibitory effects persisted up to 7 weeks. Data were analyzed by two-way ANOVA followed by Tukey's multiple comparisons test. Error bars: SEM, n = 8−10/ group, * P < .05, *** P < .001 for comparison between 6-OHDA and vehicle treated fracture groups.
Figure 2. Augmentation of parasympathetic signaling reduced nociceptive sensitization and inflammation after tibia fracture.
Figure 3. Treatment with 6-OHDA or nicotine in wild type fracture mice inhibited the pronociceptive effects of passive serum
Autonomic Regulation of Nociceptive and Immunologic Changes in a Mouse Model of Complex Regional Pain Syndrome

October 2021

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126 Reads

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13 Citations

Journal of Pain

Chronic pain frequently develops after limb injuries, and its pathogenesis is poorly understood. We explored the hypothesis that the autonomic nervous system regulates adaptive immune system activation and nociceptive sensitization in a mouse model of chronic post-traumatic pain with features of complex regional pain syndrome (CRPS). In studies sympathetic signaling was reduced using 6- hydroxydopamine (6-OHDA) or lofexidine, while parasympathetic signaling was augmented by nicotine administration. Hindpaw allodynia, unweighting, skin temperature, and edema were measured at 3 and 7 weeks after fracture. Hypertrophy of regional lymph nodes and IgM deposition in the skin of injured limbs were followed as indices of adaptive immune system activation. Passive transfer of serum from fracture mice to recipient B cell deficient (muMT) mice was used to assess the formation of pain-related autoantibodies. We observed that 6-OHDA or lofexidine reduced fracture-induced hindpaw nociceptive sensitization and unweighting. Nicotine had similar effects. These treatments also prevented IgM deposition, hypertrophy of popliteal lymph nodes, and the development of pronociceptive serum transfer effects. We conclude that inhibiting sympathetic or augmenting parasympathetic signaling inhibits pro-nociceptive immunological changes accompanying limb fracture. These translational results support the use of similar approaches in trials potentially alleviating persistent post-traumatic pain and, possibly, CRPS. Perspective: Selective treatments aimed at autonomic nervous system modulation reduce fracture-related nociceptive and functional sequelae. The same treatment strategies limit pain-supporting immune system activation and the production of pro-nociceptive antibodies. Thus, the therapeutic regulation of autonomic activity after limb injury may reduce the incidence of chronic pain.


Exposure to Gulf War Illness-related agents leads to the development of chronic pain and fatigue

October 2021

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35 Reads

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8 Citations

Life Sciences

Aims A substantial contingent of veterans from the first Gulf War continues to suffer from a number of Gulf War-related illnesses (GWI) affecting the neurological and musculoskeletal systems; the most common symptoms include chronic pain and fatigue. Although animal models have recapitulated several aspects of cognitive impairments in GWI, the pain and fatigue symptoms have not been well documented to allow examination of potential pathogenic mechanisms. Main methods We used a mouse model of GWI by exposing mice repeatedly to a combination of Gulf War chemicals (pyridostigmine bromide, permethrin, DEET, and chlorpyrifos) and mild immobilization stress, followed by investigating their pain susceptibilities and fatigue symptoms. To assess whether enhanced antioxidant capacity can counter the effects of GW agents, transgenic mice overexpressing extracellular superoxide dismutase (SOD3OE) were also examined. Key findings The mouse model recapitulated several aspects of the human illness, including hyperalgesia, impaired descending inhibition of pain, and increased tonic pain. There is a close association between chronic pain and fatigue in GWI patients. Consistent with this observation, the mouse model showed a significant reduction in physical endurance on the treadmill. Examination of skeletal muscles suggested reduction in mitochondrial functions may have contributed to the fatigue symptoms. Furthermore, the negative impacts of GW agents in pain susceptibilities were largely diminished in SOD3OE mice, suggesting that increased oxidative stress was associated with the emergence of these Gulf War symptoms. Significance the mouse model will be suitable for delineating specific defects in the pain pathways and mechanisms of fatigue in GWI.


Citations (59)


... A new analgesic formulation (N-001) was engineered from several C. botulinum toxins and targeting sensory neurons resulting in pain relief lasting for 3 days. Those new results encourage further studies using N-001 as a potential analgesic for post-operative pain treatment [181]. ...

Reference:

Embracing the Versatility of Botulinum Neurotoxins in Conventional and New Therapeutic Applications
Preclinical characterization of the efficacy and safety of biologic N-001 as a novel pain analgesic for post-operative acute pain treatment

... Dysfunction in PAG networks may underlie pain hypersensitivity in PTH and in chronic pain after TBI and could interact with emotional networks and affective symptoms after TBI as discussed in both preclinical and clinical reports [16,17]. Voluntary exercise in mice after mTBI improved pain modulation and bright light stress allodynia as well as reduced injury-induced biomarkers of inflammation and nociceptive sensitization (including spinal brain-derived neurotrophic factor-BDNF), suggesting noninvasive therapeutic potential for PTH [18]. Preclinical models have great translational potential to identify mechanisms, time course, therapeutic interventions, and age and sex differences in post-concussion headaches. ...

Effect of Voluntary Exercise on Endogenous Pain Control Systems and Post-traumatic Headache in Mice

Journal of Pain

... Therefore, the goal of this study was to investigate the effect of voluntary running exercise on nociceptive sensitization and endogenous pain control systems in a rodent model of mild Similar to the pain sensitization observed in patients [11,12], in rodent models of TBI, we and other groups show early (approximately 7 days) sensitization to noxious stimuli including hindpaw and periorbital sensitivity [49,72,65,61]. Allodynia is considered pain produced by previously non-noxious stimuli. ...

Mild Traumatic Brain Injury-Induced Augmented Postsurgical Pain Is Driven by Central Serotonergic Pain-Facilitatory Signaling

Anesthesia & Analgesia

... The acute phases of mTBI-associated inflammation may effectively stimulate the generation and release of several proinflammatory cytokines into the systemic circulation which may serve to induce neuronal sensitization in other anatomical levels such as cells in the DRG [56]. Alternatively, chronic inflammation due to mTBI may serve to disrupt descending noradrenergic and serotonergic pain control circuits and contribute to the loss of diffuse antinociceptive inhibitory control [57][58][59]. ...

Monoamine control of descending pain modulation after mild traumatic brain injury

... Direct comparisons between these assessment methods should establish the best testing approach. (12) Where there are no established tests, it may be possible to develop novel test types by closely studying patient report, and integrating mechanistic understanding, as recently described in the context of disc puncture-back pain 21 and hallucinations. 38 For example, the certainty of a false perception was recently linked to the length of time, which the mouse was prepared to wait for a reward after expression of an incorrect choice. ...

Pronociceptive autoantibodies in the spinal cord mediate nociceptive sensitization, loss of function, and spontaneous pain in the lumbar disc puncture model of chronic back pain

Pain

... However, pairwise comparisons of the proteomic data of naïve and trained WT striatal EVs identified several differentially expressed proteins in EVs after the training ( Figure S2). Although we did not find significant alterations in general biological pathways (Supplementary Table 3), we observed that after learning the motor task, there was a lower expression of proteins involved in protein translation, such as seryl-aminoacyl-tRNA synthetase (SerRS) [54], or in plasticity and metabolism such as synaptosomal-associated protein 25 (SNAP25), phosphoglycerate kinase 1 (PGK1), protein kinase cAMP dependent regulatory (PRKAR2B) and nipsnap2 homolog 2 (NIPSNAP2) [55][56][57][58] (Figure S2). ...

SNAP25 mutation disrupts metabolic homeostasis, steroid hormone production and central neurobehavior
  • Citing Article
  • November 2021

Biochimica et Biophysica Acta (BBA) - Molecular Basis of Disease

... Mice underwent tibia fracture and cast immobilization of the limb (Fx) as previously described. 14,33 Briefly, mice were anesthetized with isoflurane, and a closed fracture of the right tibia just distal to the midpoint was performed using a hemostat. Next, the limb was wrapped in casting tape (Delta-Lite; BSN Medical, Hamburg, Germany), so the hip, knee, and ankle were all fixed forming a spica around the abdomen. ...

Autonomic Regulation of Nociceptive and Immunologic Changes in a Mouse Model of Complex Regional Pain Syndrome

Journal of Pain

... Existing studies have linked chronic inflammatory diseases to elevated EV concentrations and altered EV composition [50]. Some researchers have found that EV concentrations in plasma from a tibia fracture model (closely mimic complex regional pain syndrome), although comparable to controls, are significantly larger in particle size than in control mice [51]. Studies have found that circulating EV counts are significantly increased in patients with Myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS, debilitating disease with multiple symptoms, including pain, depression, and neurocognitive deterioration in function) and that circulating EV counts correlate significantly with serum C-reactive protein levels and have reported that circulating EV counts and EV-specific proteins can be used as novel biomarkers for the diagnosis of ME/CFS [52]. ...

Circulating microRNAs from the mouse tibia fracture model reflect the signature from patients with complex regional pain syndrome

PAIN Reports

... Our data, for the first time, implicate mitochondrial genetics in GWI. This adds to the corpus of support for mitochondrial involvement in GWI, already bolstered by both animal [3,[15][16][17] and human [2,18,19] data. When assessed separately, the designated mitochondrial and nuclear genetic factors (mt haplogroup U and BChE variants) each significantly predicted GWI severity, and each sustained significance in dominant sex-and ethnicity-subgroups, with and without age adjustment. ...

Exposure to Gulf War Illness-related agents leads to the development of chronic pain and fatigue
  • Citing Article
  • October 2021

Life Sciences

... IF staining showed that CCL1 was expressed at much higher level in macrophages at the injury site ( Figure 5H). IL-6, which has been reported highly expressed in the early post-bone injury period (43,44), significantly increased Ccl1 gene expression in macrophages ( Figure 5I). These data suggested that local production of CCL1 from macrophages was related with the early acute inflammation following bone injury. ...

IL-6 Signaling Mediates the Germinal Center Response, IgM Production and Nociceptive Sensitization in Male Mice after Tibia Fracture
  • Citing Article
  • February 2021

Brain Behavior and Immunity