Sex Differences in a Rat Model of Peripheral Neuropathic Pain and Associated Levels of Endogenous Cannabinoid Ligands

Chronic neuropathic pain is a major unmet clinical need affecting 10% of the world population, the majority of whom suffer from co-morbid mood disorders. Sex differences have been reported in pain prevalence, perception and response to analgesics. However, sexual dimorphism in chronic neuropathic pain and the associated neurobiology, are still poorly understood. The lack of efficacy and the adverse effects associated with current pharmacological treatments, further underline the need for new therapeutic targets. The endocannabinoid system (ECS) is a lipid signalling system which regulates a large number of physiological processes, including pain. The aim of this study was to investigate sexual dimorphism in pain-, anxiety- and depression-related behaviours, and concomitant alterations in supraspinal and spinal endocannabinoid levels in the spared nerve injury (SNI) animal model of peripheral neuropathic pain. Sham or SNI surgery was performed in adult male and female Sprague-Dawley rats. Mechanical and cold allodynia was tested weekly using von Frey and acetone drop tests, respectively. Development of depression-related behaviours was analysed using sucrose splash and sucrose preference tests. Locomotor activity and anxiety-related behaviours were assessed with open field and elevated plus maze tests. Levels of endocannabinoid ligands and related N-acylethanolamines in supraspinal regions of the descending inhibitory pain pathway, and spinal cord, were analysed 42 days post-surgery. SNI surgery induced allodynia in rats of both sexes. Female-SNI rats exhibited earlier onset and greater sensitivity to cold and mechanical allodynia than their male counterparts. In male rats, SNI induced a significant reduction of rearing, compared to sham controls. Trends for depressive-like behaviours in females and for anxiety-like behaviours in males were observed after SNI surgery but did not reach statistical significance. No concomitant alterations in levels of endogenous cannabinoid ligands and related N-acylethanolamines were observed in the regions analysed. Our results demonstrate differential development of SNI-induced nociceptive behaviour between male and female rats suggesting important sexually dimorphic modifications in pain pathways. SNI had no effect on depression- or anxiety-related behaviours in animals of either sex, or on levels of endocannabinoid ligands and related N-acylethanolamines across the regions involved in the descending modulation of nociception at the time points investigated.

Chronic neuropathic pain is a major unmet clinical need affecting 10% of the world population, the majority of whom suffer from co-morbid mood disorders. Sex differences have been reported in pain prevalence, perception and response to analgesics. However, sexual dimorphism in chronic neuropathic pain and the associated neurobiology, are still poorly understood. The lack of efficacy and the adverse effects associated with current pharmacological treatments, further underline the need for new therapeutic targets. The endocannabinoid system (ECS) is a lipid signalling system which regulates a large number of physiological processes, including pain. The aim of this study was to investigate sexual dimorphism in pain-, anxiety-and depression-related behaviours, and concomitant alterations in supraspinal and spinal endocannabinoid levels in the spared nerve injury (SNI) animal model of peripheral neuropathic pain. Sham or SNI surgery was performed in adult male and female Sprague-Dawley rats. Mechanical and cold allodynia was tested weekly using von Frey and acetone drop tests, respectively. Development of depression-related behaviours was analysed using sucrose splash and sucrose preference tests. Locomotor activity and anxiety-related behaviours were assessed with open field and elevated plus maze tests. Levels of endocannabinoid ligands and related N-acylethanolamines in supraspinal regions of the descending inhibitory pain pathway, and spinal cord, were analysed 42 days post-surgery. SNI surgery induced allodynia in rats of both sexes. Female-SNI rats exhibited earlier onset and greater sensitivity to cold and mechanical allodynia than their male counterparts. In male rats, SNI induced a significant reduction of rearing, compared to sham controls. Trends for depressive-like behaviours in females and for anxiety-like behaviours in males were observed after SNI surgery but did not reach statistical significance. No concomitant alterations in levels of endogenous cannabinoid ligands and related N-acylethanolamines were observed in the regions analysed. Our results demonstrate differential development of SNI-induced nociceptive behaviour between male and female rats suggesting important sexually dimorphic modifications in pain pathways. SNI had no effect on depression-or INTRODUCTION Pain, as defined by the International Association for the Study of Pain (IASP) is considered "an unpleasant sensory and emotional experience associated with, or resembling that associated with, actual or potential tissue damage" (1). Pain can be classified as acute or chronic, dependent on its duration. Chronic pain, pain persisting over 3 months, can be classified as inflammatory, idiopathic or neuropathic (2). Neuropathic pain, caused by a lesion or disease affecting the somatosensory system, has a prevalence of 10% in the total world population (3), and is one of the major unmet clinical needs. Despite its higher prevalence in women, females are still underrepresented in pre-clinical studies relevant to chronic neuropathic pain, with <20% of pre-clinical/animal studies including sex as a factor (4). This situation leaves a gap in the understanding of pain neurobiology.
In addition, several clinical reports indicate that chronic pain and mood disorders, such as anxiety and depression, are highly comorbid (5). Higher prevalence of neuropathic pain disorders, tolerance to analgesics, and severe pain perception have been described in patients with anxiety or depression (6). Furthermore, mood disorders have been reported to be more than twice as prevalent in females than males (7)(8)(9). Current pharmacotherapies for chronic pain disorders, including antidepressants, anticonvulsants, local anaesthetics, non-steroidal anti-inflammatory drugs, or opioids, are limited in terms of their efficacy and adverse effect profiles (10,11). Thus, there is a need to identify new analgesic targets. The endogenous cannabinoid system (ECS) is a complex signalling system comprised of cannabinoid type 1 (CB 1 ) and cannabinoid type 2 (CB 2 ) receptors; endocannabinoid ligands: anandamide (AEA) and 2-arachidonoylglycerol; and catabolizing enzymes: fatty acid amide hydrolase (FAAH) and monoacylglycerol lipase (MAGL). Several other related biogenic lipids, including N-acylethanolamines: oleoylethanolamine (OEA) and palmitoylethanolamine (PEA), are involved in the regulation of common endocannabinoid-mediated phenomena (12)(13)(14) and thus are recognised as endocannabinoid-related compounds. The ECS is involved in numerous physiological processes, including memory, mood and pain (15,16). The signalling machinery of the ECS is expressed at neuronal synapses throughout the pain circuitry and regulates nociceptive processing and perception (17). Activation of cannabinoid receptors on presynaptic nerve terminals inhibits neurotransmission, resulting in antinociception. The majority of cannabinoid receptors expressed within the central nervous system, are type 1 (CB 1 ) and localised in dorsal horn and supraspinal regions involved in the descending inhibition of nociception: prefrontal cortex (PFC), periaqueductal grey (PAG), amygdala, and rostral ventromedial medulla (RVM); which also play important roles in anxiety and depression circuitries (18,19).
Sexual dimorphism has been demonstrated in the ECS, from pre-clinical animal models to humans. Sex differences have been described in the expression and activity of CB 1 receptors in PFC and amygdala (20,21). Sex-dependent efficacy of phytocannabinoid-and CB 2 -mediated nociception after nerve injury has been found in humans (22,23) and animal models of neuropathic pain (24)(25)(26)(27). Differences in the density and affinity of brain endocannabinoid receptors and ligands have also been observed at different stages of the hormonal cycle (28,29). It is possible therefore, that sex-dependant alterations within the ECS may contribute to sexual dimorphism in neuropathic pain.
The aim of this study was to investigate sexual dimorphism in pain-, anxiety-and depression-related behaviours, and concomitant alterations in supraspinal and spinal endocannabinoid levels in the spared nerve injury (SNI) animal model of peripheral neuropathic pain.

Animals
Adult (8-9 weeks old) male (∼250 g) and female (∼200 g) Sprague-Dawley rats were purchased from Charles River UK (Margate, United Kingdom). Animals were pair-housed with water and food (14% Harlan Teklad 2014 Maintenance Diet, Envigo, Huntingdon, Cambridgeshire, United Kingdom) available ad libitum. Animal holding room was maintained at a constant temperature of 21 ± 2 • C and intervals of 45-55% of humidity. All the procedures were performed during the light phase (8:00-20:00) of the standard lighting conditions 12:12 h.
The experimental procedures were approved by the Animal Care and Research Ethics Committee, National University of Ireland Galway. The present experiment was performed in accordance with the ARRIVE guidelines (30); under licence from the Health Products Regulatory Authority in the Republic of Ireland and in accordance with EU Directive 2010/63.

Surgery
Animals were randomly assigned to surgery groups, Sham or SNI, according to sex (n = 10/group, 4 experimental groups). A vaginal swab for the investigation of the oestrus cycle stage was taken from Sham/SNI female groups prior to the surgery. Peripheral sensitisation was induced using the Spare Nerve Injury surgery (SNI), described by Decostered and Woolf (31). The SNI surgery comprises of ligation and axotomy of two of the three branches of the sciatic nerve: the common peroneal and tibial nerves, keeping the third branch, the sural nerve, completely intact. The fur was shaved on the lateral surface of the left hind paw and the area was disinfected with iodine solution ensuring aseptic conditions. A longitudinal incision following the femoral line was made directly through the biceps, exposing mentioned branches of the sciatic nerve. The common peroneal and the tibial nerves were ligated and transected with two different knots at opposite ends of the stump, using 5-0 mersilk sutures. Individual sutures were used to close the muscle incision while intradermal sutures were used to close the skin, avoiding the reopening of the wound by biting. Anaesthesia was monitored and maintained using 2-4% isoflurane in 0.8 L/min O 2 during the surgical procedure. Respiratory rate and pedal withdrawal reflexes were also monitored every 5 min. After the surgical procedure, rats were singly housed and monitored during a recovery period of 30 min before returning them to their home cages. Enrofloxacin (10 mg/kg) was administrated via subcutaneous (s.c.) injection once a day, prior to surgery and for 5 consecutive days post-surgery, to prevent post-surgical infection. Body weight was monitored once a week. General health and well-being were monitored daily during the total time of the experiment.

Behavioural Testing
All behavioural tests were conducted at least 7 days postsurgery. Each test was consistently performed in the same room under similar environment conditions. EthoVision XT software (Noldus Information Technology, Wageningen, The Netherlands), which allows for continuous event recording and posterior scoring, was used for the analysis of Sucrose Splash test (SS), Open Field test (OF) and Elevated Plus Maze test (EPM). A trained researcher, blind to the experimental conditions, rated sucrose consumption in sucrose preference test, depressionrelated behaviour in the SS test and anxiety-related behaviours in the OF and EPM tests.

Mechanical Allodynia
Von Frey testing was performed to assess mechanical allodynia 7, 14, 21, 28, and 42 days after surgery. Rats were placed in an elevated metal wire grid, divided into six individual compartments (14 × 20 × 25 cm 3 ), permitting the stimulation of the lateral plantar surface of the hind paw. Animals were habituated to the arena for 15 min prior to testing. The test was performed following the up-and-down method described by Dixon (32). Each animal received a maximum of 9 nylon von Frey filament stimulations (Touch Test Sensory Evaluator 58011, Stoelting, IL, USA) per hind paw, starting with the 2 g filament. Each filament was applied once, perpendicular to the lateral plantar surface of the hind paw, the area innervated by the intact sural nerve. The mechanical withdrawal threshold (g) for each paw was calculated using the formula: 10 [log(last filament)+k * 0.3] , where the constant k was determined by the response-pattern (32).

Cold Allodynia
Acetone Drop testing was performed to assess cold allodynia. Animals rested in the arena for 10 min after the von Frey test.
The test was performed following the method described by Choi et al. (33) The animals received a total of 3 acetone stimulations per hind paw. A drop of acetone was applied to the lateral plantar surface of the contralateral or ipsilateral hind paw, using a blunt needle connected to a 1 ml syringe, avoiding touching the skin. During the 1 min stimulation, the latency to the first response and the total number of responses were scored.

Depression-Related Behaviours Sucrose Splash Test
The sucrose splash (SS) test was performed to assess selfgrooming behaviour, which is an ethologically relevant behaviour in rodents (34). A decrease in self-grooming behaviour is indicative of reduced self-care and motivation in rodents, and potentially reflective of anhedonia-like behaviour (35). At postsurgery day 34, animals were placed in a clear Plexiglass box (30 × 30 × 40 cm 3 ) with 30 lux light conditions for 10 min habituation period. After the initial habituation to the arena, 10% sucrose solution was squirted twice, using a spray bottle, on the dorsal fur of the rat. The animal was immediately returned to the arena and observed for another 10 min. A video camera located underneath the arena recorded the test session permitting the scoring of frequency and latency to grooming during the sucrose splash test.

Sucrose Preference Test
The sucrose preference (SP) test assessed the development of anhedonia, categorised as a measure of depression-related behaviours (36). Animals were trained for 4 days prior to testing (37). The sucrose preference test was performed in home-cages with no additional testing occurring during this period. Each home cage was fitted with space for two drinking bottles in opposite sides (right-left). During the first and second day of training, rats were allowed to drink 1% sucrose solution, instead of water, ad libitum during 24 h. During the third and fourth day of training, rats were allowed to drink water ad libitum for 24 h. The position of the drinking bottle changed from the right to the left on the second and fourth training days. The training period acclimatised the rats to drink from both sides of the cage. On the test day, at post-surgery day 28, a bottle with 1% sucrose solution was fitted on the right position, and a bottle with water was fitted on the left position. After 12 h, the position of the drinking bottles was swapped to avoid side preference. The test finished 12 h after the swap when bottles were removed, and animals returned to their drinking regime. During the training and test periods, bottles were weighted before and after any human manipulation. The preference for sucrose solution was calculated and presented as % Sucrose Preference = Sucrose intake Total intake × 100.

Anxiety-Related Behaviours Open Field Test
The Open Field (OF) test was performed for the assessment of locomotor activity and anxiety-related behaviours. Significant reductions in the distance moved and velocity were considered possible alterations in the locomotor activity due to spared nerve injury. In addition, a decrease in frequency or time of rearing activity, or a decrease in the number of entries and duration in the centre zone (45 cm of diameter), were assessed as deficits of exploratory behaviour thus indicative of anxiety-related behaviours (38). The test was performed at postsurgery day 35 in a circular arena consisted of a reflective aluminium floor of 75 cm diameter and reflective aluminium wall of 40 cm height. Animals were placed in the centre of the novel open environment, illuminated with 100 lux. A video camera positioned above the floor of the arena was used to record the behaviours for 5 min, which were scored later on using EthoVision XT.

Elevated Plus Maze Test
The Elevated Plus Maze (EPM) test was performed to assess anxiety-related behaviours, based on the natural avoidance of rodents to height and open spaces (39).

Tissue Collection
Animals were euthanized by live decapitation on postsurgery day 42, after mechanical and cold allodynia behavioural testing. A vaginal swab for the investigation of the oestrus cycle stage was taken from female rats posteuthanasia. The following brain regions: prefrontal cortex (PFC), periaqueductal grey (PAG), ipsilateral/contralateral amygdala and rostro ventromedial medulla (RVM) were gross-dissected on ice-cold metal dissection plates and snapfrozen for post-mortem analysis. Spinal cord was extracted by laminectomy; the dorsal lumbar area was differentiated in ipsilateral and contralateral, and snap-frozen on dry ice for later analysis.

Measurement of Endocannabinoids and Related N-acylethanolamines by Liquid Chromatography Coupled to Tandem Mass Spectrometry (LC-MS/MS)
Quantification of endocannabinoids (AEA, 2-AG) and related N-acylethanolamines (PEA, OEA) levels in brain and spinal cord tissue was carried out following a lipid extraction method described previously (40,41 Mobile phases comprised of Solution A (HPLC-grade water with 0.1% (v/v) formic acid) and Solution B (100% acetonitrile with 0.1% (v/v) formic acid) with a flow rate of 0.2 ml/min, onto a Waters Atlantis T3 HPLC column (3 µm particle size dimension, 100 mm length, 2.1 mm diameter; Waters, UK). Reversed-phase gradient elution was initiated at 2% acetonitrile for the first 3 min, set to 65% acetonitrile at 3.1 min for 1 min and then ramped linearly up to 100% acetonitrile at 8 min and held at 100% acetonitrile until 16 min. At 16.1 min, the gradient returned to initial conditions for a further 12 min re-equilibrating the column before the next injection. Analyte detection was carried out in electrospray-positive ionisation mode on an Agilent 1100 HPLC system coupled to a triple quadrupole 6460 mass spectrometer (Agilent Technologies, Cork, Ireland). Ratiometric quantification was calculated using Agilent Mass-Hunter Quantitative Analysis Software (Agilent Technologies, Cork, Ireland). The amount of analyte in unknown samples was calculated from the analyte/internal standard peak area response ratio using a 10-point calibration curve constructed from a range of concentrations of the non-deuterated form of each analyte and a fixed amount of deuterated internal standard.

Statistical Analysis
IBM SPSS Statistics 26.0 statistical software (Chicago, USA) was used for the statistical analysis of data. Normality and homogeneity were assessed by Kolmogorov-Smirnov comparisons and Levene's test, respectively. Parametric statistical analysis was performed in normally distributed datasets, using two-way ANOVA (factors: sex and surgery) followed by Tukey HSD (Honest Significant Difference) post-hoc test for pairwise comparisons. Three-way ANOVA (factors: sex, surgery and side) was used to analyse levels of endogenous cannabinoid ligands in lateralised regions of the central nervous system: amygdala and spinal cord. Non-parametric datasets were analysed using Kruskal-Wallis test followed by Mann-Whitney U post-hoc test with Bonferroni-Holm corrections. The influence of oestrus cycle on mechanical and cold allodynia, was analysed as categorical binary variable (high-low) using a binomial logistic regression with surgery and stage of the oestrus cycle as independent variables. All data are expressed as group means ± standard error of the mean (± SEM) for presentation/readability purposes and considered significant when p < 0.05.

Spared Nerve Injury Induced Sexual-Dimorphic Development of Mechanical Allodynia in Sprague-Dawley Rats
Significant differences between experimental groups were observed for mechanical allodynia, measured as paw withdrawal thresholds (PWT), of the ipsilateral hind paw (Figure 1A Figure 1A). Interestingly, female-SNI rats showed lower ipsilateral PWT compared to their male counterparts from post-surgery day 14 ( Figure 1A). This sex-dependent effect on mechanical hypersensitivity was also observed in the contralateral PWT of SNI rats (Figure 1B), however, no significant reduction of the contralateral PWT was observed in SNI groups compared to their Sham counterparts ( Figure 1B). No significant effect of the oestrus cycle was observed within female experimental groups. show a reduction of the latency to the first response in maleand female-SNI animals, compared to Sham counterparts. In addition, we observed a robust reduction of the latency to the first response in female-SNI compared to male-SNI groups from PSD21 (Figure 2A), suggesting higher nociceptive sensitivity in female compared to male animals following SNI. No significant differences were observed in following analysis of data for the contralateral hind paw (Figure 2B).

Spared Nerve Injury Induced Sexual-Dimorphic Development of Cold Allodynia in Sprague-Dawley Rats
Significant differences between experimental groups were also observed in the number of responses to acetone stimulation in the ipsilateral hind paw of male and female rats  (Figure 2C). In addition, an increased number of responses in female-SNI rats was observed at PSD7, an effect not observed in male-SNI groups until post-surgery day PSD21 (Figure 2C), suggesting earlier onset of cold allodynia in female-SNI groups. As previously observed, female-SNI rats exhibited a higher number of responses than male-SNI rats from PSD21. No significant differences were observed in the contralateral hind paw (Figure 2D).
The oestrus cycle did not alter the latency to the first response or the frequency of responses within the female groups.

Spared Nerve Injury Did Not Induce Depression-Related Behaviours in Sprague-Dawley Rats of Either Sex
No main effects were observed in the frequency (Figure 3A) or duration (Figure 3B) of grooming behaviour, during sucrose splash test. Moreover, preference for 1% sucrose solution did not differ between groups on post-surgery day 34 ( Figure 3C).

Spared Nerve Injury Did Not Induce Anxiety-Related Behaviours but Decreased Vertical Activity in Male Sprague-Dawley Rats
In the open field, no main effects were observed in the horizontal locomotor activity, distance moved ( Figure 4A) and velocity (Figure 4B), or in the anxiety-related behaviours, number of entries ( Figure 4C) and time (Figure 4D) (Figures 4E,F), an effect that was not observed in female animals.
Spinal cord levels of AEA, 2-AG, PEA or OEA did not differ between groups (Figure 7).

DISCUSSION
Despite the high incidence of neuropathic pain in the world population, the neurobiology underlying chronic neuropathic pain is still poorly understood. The higher incidence of neuropathies in women compared to men, focus the attention on sex as a crucial factor for the understanding of the mechanisms associated with this disease. Nevertheless, more than 80% of preclinical investigations exclude females as subjects, leaving "sex" out of the pain research equation (4).
The study presented herein compares long-term development of mechanical and cold allodynia, following peripheral nerve injury, between sexes. The development of these nociceptive behaviours is common in animal models of neuropathic pain (42,43) and are well-known features of neuropathic pain symptomatology in patients following peripheral nerve damage, independently of the origin of the lesion (44,45). Spared Nerve Injury induced mechanical and cold allodynia in adult male and female Sprague-Dawley rats. Decreases in the ipsilateral paw withdrawal threshold, for mechanical allodynia, was progressively observed from post-surgery day 7. Unexpectedly, a delay in the development of significant mechanical allodynia was observed in rats of both sexes. Use of antibiotics immediately after the surgery may be responsible for this altered nociceptive perception through selective actions and disruption of gut bacteria (46). Several animal models with altered motility and nociceptive perception, have provided evidence of gut microbiota and enteric neurons communication (47). The enteric nervous system plays a key role in nociceptive processes, as it comprises primary afferent neurons projecting to the dorsal horn in the spinal cord (48). Therefore, administration of enrofloxacin (5 mg/kg) to avoid infections during the surgical procedure, and the following 5 days, may be contributing to the observed delay in the development of allodynia. Nevertheless, robust sensitivity to mechanical stimuli was described in male-and female-SNI rats at day 42 post-surgery.
Changes were also observed in sham sensitivity to mechanical stimulation compared to baseline; an effect previously reported in sham controls for different peripheral nerve injury models (49)(50)(51). Changes observed in Sham groups may be related to the possible sensitisation of the hind paws to testing over time. As previously described, repetitive low-intensity stimulation with von Frey filaments of the hind paw in non-operated rats was associated with progressive decrease in mechanical withdrawal thresholds (52).
A robust cold allodynia response was detected in female-SNI groups 1 week after surgery, an effect not observed in male-SNI groups; suggesting an earlier onset of this pain-related behaviour in female rats. The sensitivity to mechanical and cold allodynia was significantly greater in male-and female-SNI rats compared to their Sham controls, confirming that peripheral nerve injury induced the expected pain-related phenotype. Furthermore, female-SNI groups not only experienced an earlier onset but a greater sensitivity to mechanical and cold stimuli than their corresponding male counterparts, supporting the presence of sexual dimorphism in nociceptive behaviour. Studies on sex differences during nociceptive processing have focused their attention on receptor and ion channel alterations at neural membranes, disruption of nociceptive signal transmission within the nervous system or pathological synapse formation between neighbouring neurons (53). In addition, the molecular and behavioural variations induced by the oestrous cycle has progressed from being considered as a reason for not using female rodents in research, to focus the attention for the better understanding of sexual dimorphism in the field of pain research (54)(55)(56). In fact, it has been demonstrated that variations between stages of the oestrus cycle can affect nociceptive perception in females (55,56). In the present study, a binomial logistic regression was used to analyse if the stage of the oestrus cycle was a predictor of the nociceptive behaviour exhibited by females. However, no significant correlation was found, suggesting that the stage of the oestrus cycle did not influence pain-related behaviours in the current study.
SNI has been proven useful to model co-morbid mood disorders that have been described in more than the 50% of patients suffering from chronic pain (57)(58)(59)(60)(61). A recent study from Wang and colleagues has demonstrated longterm SNI-induced depression-related behaviours (14 and    56 days following SNI surgery) in the sucrose preference and the forced swim tests (62). In the current experiment, SNI did not induce depression-related behaviours in either male or female animals 28 and 34 days after the surgery. A non-significant reduction of the preference for sucrose consumption was observed in female-SNI groups (Figure 3A), although further investigation at later time points may be warranted.
Impairments of locomotor activity were not observed in either male or female rats following SNI surgery on the ipsilateral limb. Animal weight was a factor considered during the investigation of this parameter, with no further implication in either sex.
SNI altered exploratory behaviour during the open field test. Male-SNI groups exhibited a significant reduction of frequency and duration of rearing activity, compared to Sham control groups. This effect was not observed in female-SNI rats, suggesting differential effects of SNI on this pain-related behaviour between the sexes. SNI did not affect the performance of either male or female rats in the elevated plus maze test. Some pre-clinical studies have observed anxiety-related behaviours following peripheral neuropathy, with the majority only showing positive manifestations at least 4 weeks after neuropathy induction (43,63,64). The analyses of depression-and anxiety-associated behaviours, within this study, were conducted at early postneuropathy induction stages in which nociceptive chronicity may not yet be well-established. This finding corroborates the importance of time for the detection of emotional disorders following chronic pain, previously observed in the literature (15,43,65).
The expression of the ECS throughout the descending pain pathway (66) and its role in the modulation of glutamatergic and GABAergic neurotransmission during nociceptive processing (67) is well-established. Activation of CB 1 receptors activates the descending inhibitory pathway through the inhibition of GABA release in the periaqueductal grey and rostral ventromedial medulla (17,68), which bidirectionally modulate spinal cord dorsal horn excitability for nociceptive transmission. Despite the reported evidence of the ECS in the modulation of nociceptive processing (66,69) and the presence of sex differences within the ECS (23, 70), we did not observe changes in the levels of endocannabinoid ligands in the descending pain pathway. However, our results are not sufficient to discard the possibility of alterations in endocannabinoid tone at other time points following SNI-surgery. Evidence suggests that longer periods post-SNI induction may be needed for the establishment of endocannabinoid alterations associated with a more robust nociceptive phenotype (71). For instance, Petrosino et al. (72) only observed an increase of AEA and 2-AG levels in the PAG, RVM and spinal cord following chronic constriction injury in male animals, when they expressed high levels of hyperalgesia and mechanical allodynia (72). Considering our behavioural results, it is conceivable that a later time point is required to observe the highest levels of mechanical and cold allodynia and associated increases in AEA and 2-AG levels.
It is also possible, that chronic neuropathic pain induced alterations of the levels of endocannabinoid ligands in specific small sub-nuclei of the descending pain pathway. It has been previously observed that subregions of the same brain area can play distinctive roles in pain neurotransmission and related emotional modulation (18). However, the use of grossdissected tissue would not have allowed us to observe these subnuclei-dependent effects. Furthermore, as different models of chronic pain have shown, the antinociceptive effects of the endocannabinoid system seem to rely on the activation of both CB 1 and CB 2 receptors in females, but only on the activation of CB 1 receptor in males (70) highlighting the importance of receptor mechanisms in addition to considerations of endogenous ligand levels.
In conclusion, the current study describes sexual dimorphism in the development of mechanical and cold allodynia following peripheral nerve injury. Females exhibited an earlier onset and a greater sensitivity to mechanical and cold allodynia than males, following SNI; suggesting sex differences in the mechanisms underlying nociceptive processing. These results, together with the clinical evidence of a higher incidence of neuropathies in women compared to men, further point to the need to consider "sex" as a crucial factor to improve the understanding of pain neurobiology. Although the sex differences in nociceptive perception observed were not associated with alterations in the levels of endogenous cannabinoid ligands in spinal cord or the supraspinal regions involved in the descending inhibitory pain pathway at the time points tested, further studies are required to investigate the plasticity and potential involvement of the ECS in the sexual dimorphism associated with peripheral neuropathy over longer periods post-injury.

DATA AVAILABILITY STATEMENT
The raw data supporting the conclusions of this article will be made available by the authors, without undue reservation.

ETHICS STATEMENT
The animal study was reviewed and approved by Animal Care Research Ethics Committee of the National University or Ireland, Galway and the Health Products Regulatory Authority in the Republic of Ireland.

AUTHOR CONTRIBUTIONS
DF and ÁL-B developed the experimental design, reviewed, and edited the manuscript. LB and ÁL-B carried out the in vivo study and related data analysis. LB carried the ex vivo assays, related data analysis and wrote the first draught of the manuscript. All authors contributed to the article and approved the submitted version.