Involvement of the Endocannabinoid System in the Control of Pain and Obesity by Exercise in Rodents: A Systematic Review.

Studies in recent years have shown that the endocannabinoid (eCB) system is activated by exercise and modulates several physiological processes. Thus, the present review aimed to summarize the literature about the involvement of the eCB system in the control of pain, obesity, and metabolism by exercise. MEDLINE, EMBASE, and Web of Science were searched for experimental studies that investigated the presence of the eCB system in animal models of pain and obesity, in which the animals were subjected to different exercise modalities. The primary outcomes were pain, obesity, and metabolism. The databases were searched for articles from their inception up until March 2020. Two independent reviewers extracted the data and assessed the methodological quality of the included studies. Thirteen studies were considered eligible for this review. The results indicated that there was increased expression and levels of cannabinoid receptors and eCBs, respectively, after aerobic and resistance exercise, and that this effect was associated with antinociception. The eCB system was modulated by exercise in obese rats, confirming that it may also be involved in the control of obesity and metabolism when these are modulated by aerobic training. Exercise can be effective in controlling pain, partly through the involvement of the eCB system. In addition, exercise can modulate the imbalance of the eCB system in obesity and metabolic disorders, thus also controlling these pathologies through this signaling system.

Cannabidiol prevents chemotherapy-induced neuropathic pain by modulating spinal TLR4 via endocannabinoid system activation.

OBJECTIVES: This study aimed to investigate the effect of cannabidiol (CBD) on type 4 Toll-like receptors (TLR4), glial cells and pro-inflammatory cytokines during the neuropathic pain induced by the chemotherapy agent paclitaxel (PTX), as well as the involvement of the endocannabinoid system in this process. METHODS: Male C57BL6 mice were subjected to PTX-induced neuropathic pain. To evaluate the involvement of the TLR4, glial cells and cannabinoid CB2 receptor, specific inhibitors or antagonists were intrathecally administered. The western blotting and immunofluorescence assay was performed to evaluate the spinal expression of TLR4, microglia, astrocytes and cannabinoid CB2 receptor. The levels of spinal pro-inflammatory cytokines and endocannabinoids were determined by enzyme-linked immunosorbent assay and liquid chromatography-mass spectrometry analysis, respectively. KEY FINDINGS: CBD prevented PTX-induced neuropathic pain, and the cannabinoid CB2 receptor antagonist AM630 reversed this effect. In addition, CBD treatment inhibited the spinal expression of TLR4 and Iba1 in mice with neuropathic pain. CBD also increased spinal levels of endocannabinoids anandamide and 2-arachidonoylglycerol, and reduced levels of cytokines in mice with neuropathic pain. CONCLUSIONS: CBD was efficient in preventing PTX-induced neuropathic pain, and this effect may involve inhibition of the TLR4 on microglia spinal with activation of the endocannabinoid system.

Investigation of the effects of therapeutic ultrasound or photobiomodulation and the role of spinal glial cells in osteoarthritis-induced nociception in mice.

Pain is the most common symptom of osteoarthritis, and spinal glia is known to contribute to this symptom. Therapeutic ultrasound and laser therapy have been used to effectively treat osteoarthritis, with few adverse effects. Thus, this study aimed to investigate the effects of ultrasound and photobiomodulation on the symptoms and evaluate the participation of spinal glia in osteoarthritis-induced nociception in mice. Male Swiss mice were subjected to osteoarthritis induction with a 0.1-mg intra-articular injection of monosodium iodoacetate. Additionally, the mice received chronic ultrasound or photobiomodulation treatment for 21 days or a single treatment at day 14. Nociception was evaluated using von Frey filaments, and osteoarthritis symptoms were assessed by analysis of gait, joint temperature, and knee joint diameter. The role of spinal microglia and astrocytes on nociception was evaluated via an intrathecal injection of minocycline or fluorocitrate, and the spinal release of IL-1ß and TNF-α was assessed by ELISA after chronic treatment with ultrasound or photobiomodulation. Our data showed that both single and chronic treatment with ultrasound or photobiomodulation attenuated the osteoarthritis-induced nociception. No differences in gait, knee joint temperature, or knee joint diameter were found. The intrathecal injection of minocycline and fluorocitrate decreased the osteoarthritis-induced nociception. There was an increase in the spinal levels of TNF-α, which was reverted by chronic ultrasound and laser treatments. These results suggest that osteoarthritis induces nociception and glial activation via spinal release of TNF-α and that the chronic treatment with ultrasound or photobiomodulation decreased nociception and TNF-α release.

Resistance Exercise and Whey Protein Supplementation Reduce Mechanical Allodynia and Spinal Microglia Activation After Acute Muscle Trauma in Rats.

Muscle injury caused by direct trauma to the skeletal muscle is among the main musculoskeletal disorders. Non-pharmacological treatments have been effective in controlling muscle injury-induced pain; however, there are just a few studies in the literature investigating this response. Thus, the present study aimed to evaluate the effect of a resistance exercise training protocol combined or not with whey protein supplementation on mechanical allodynia induced by muscle injury. In addition, we also investigated the involvement of spinal glial cells in this process. For this purpose, male Wistar rats underwent a muscle injury model induced by direct trauma to the gastrocnemius muscle. Mechanical allodynia was measured by a digital von Frey algesimeter test. To evaluate the effect of exercise and/or supplementation on mechanical allodynia, the animals practiced exercises three times a week for 14 days and received supplementation daily for 14 days, respectively. Moreover, the effect of both the participation of spinal glial cells in the muscle injury and the resistance exercise training and/or whey protein supplementation on these cells was also investigated by the Western blot assay. The results demonstrated that resistance exercise training and whey protein supplementation, combined or alone, reduced mechanical allodynia. These treatments also reduced the number of interstitial cells and pro-inflammatory cytokine IL-6 levels in the injured muscle. It was also found that spinal microglia and astrocytes are involved in muscle injury, and that resistance exercise training combined with whey protein supplementation inhibits spinal microglia activation. The results suggest that both resistance exercise training and whey protein supplementation may be effective non-pharmacological treatments to control pain in the muscle after injury induced by acute trauma.

Preclinical evaluation of methotrexate-loaded polyelectrolyte complexes and thermosensitive hydrogels as treatment for rheumatoid arthritis.

This work proposes new methotrexate (MTX) loaded drug delivery systems (DDS) to treat rheumatoid arthritis via the intra-articular route: a poloxamer based thermosensitive hydrogel (MTX-HG), oligochitosan and hypromellose phthalate-based polyelectrolyte complexes (MTX-PEC) and their association (MTX-PEC-HG). MTX-PEC showed 470 ± 166 nm particle size, 0.298 ± 0.108 polydispersity index, +26 ± 2 mV and 74.3 ± 5.8% MTX efficiency entrapment and particle formation was confirmed by infrared spectroscopy and thermal analysis. MTX-HG and MTX-PEC-HG gelled at 36.7°C. MTX drug release profile was prolonged for MTX-HG and MTX-PEC-HG, and faster for MTX-PEC and free MTX. The in vivo effect of the MTX-DDSs systems was evaluated in induced arthritis rats as single intra-articular dose. The assessed parameters were the mechanical nociceptive threshold, the plasmatic IL-1ß level and histological analysis of the tibiofemoral joint. MTX-HG and MTX-PEC-HG performance were similar to free MTX and worse than oral MTX, used as positive control. All DDSs showed some irritative effect, for which further studies are required. MTX-PEC was the best treatment on recovering cartilage damage and decreasing allodynia. Thus, MTX-PEC demonstrated potential to treat rheumatoid arthritis, with the possibility of decreasing the systemic exposure to the drug.

Mucoadhesive nanostructured lipid carriers as a cannabidiol nasal delivery system for the treatment of neuropathic pain.

The therapeutic potential of cannabidiol (CBD) has been explored to treat several pathologies, including those in which pain is prevalent. However, the oral bioavailability of CBD is low owing to its high lipophilicity and extensive first-pass metabolism. Considering the ability of the nasal route to prevent liver metabolism and increase brain bioavailability, we developed nanostructured lipid carriers (NLCs) for the nasal administration of CBD. We prepared particles with a positively charged surface, employing stearic acid, oleic acid, Span 20Ⓡ, and cetylpyridinium chloride to obtain mucoadhesive formulations. Characterisation of the CBD-NLC dispersions showed uniform nano-sized particles with diameters smaller than 200 nm, and high drug encapsulation. The mucoadhesion of cationic particles has been related to interactions with negatively charged mucin. Next, we added in-situ gelling polymers to the CBD-NLC dispersion to obtain a CBD-NLC-gel. A thermo-reversible in-situ forming gel was prepared by the addition of PluronicsⓇ. CBD-NLC-gel was characterised by its gelation temperature, rheological behaviour, and mucoadhesion. Both formulations, CBD-NLC and CBD-NLC-gel, showed high mucoadhesion, as assessed by the flow-through method and similar in vitro drug release profiles. The in vivo evaluation showed that CBD-NLC dispersion (without gel), administered intranasally, produced a more significant and lasting antinociceptive effect in animals with neuropathic pain than the oral or nasal administration of CBD solution. However, the nasal administration of CBD-NLC-gel did not lessen mechanical allodynia. These findings demonstrate that in-situ gelling hydrogels are not suitable vehicles for highly lipophilic drugs such as CBD, while cationic CBD-NLC dispersions are promising formulations for the nasal administration of CBD.

Participation of CXCL1 in the glial cells during neuropathic pain.

Neuropathic pain is a chronic pain characterized by injury to the central or peripheral nervous system and that most often causes disability in individuals. Among the mechanisms involved in central sensitization during neuropathic pain are cytokines and chemokines released by spinal glial cells; however, these mechanisms are not well elucidated. Thus, the present study aimed to investigate the involvement of Chemokine (C-X-C motif) ligand 1 (CXCL1) and glial cells in this process. Male Wistar rats weighing 220-240 g were used and underwent a neuropathic pain model induced by chronic constriction injury (CCI). To investigate the involvement of CXCL1, chemokine receptor type 2 (CXCR2), mitogen-activated protein kinases (MAPK) p38, and microglia and astrocytes, the following drugs were used: SB225002, an CXCR2 antagonist; SML0543, a MAPK p38 inhibitor; minocycline, a microglia inhibitor; fluorocitrate, an astrocytes inhibitor; and recombinant CXCL1. The microglia, astrocytes, CXCL1, and MAPK p38 protein levels was evaluated by a Western blot assay. Furthermore, an immunofluorescence assay was performed to localize microglia and astrocytes immunoreactivity in the spinal cord. The results demonstrated that both CCI and CXCL1 induced nociception, and this effect was reversed by SB225002. In addition, minocycline, fluorocitrate, and SML0543 reversed the mechanical allodynia induced by CCI. Furthermore, there was an increase of spinal CXCL1 and microglial marker Iba1 protein levels , which was reversed by SB225002. This antagonist also reduced the Iba1 immunoreactivity in spinal cord. Thus, the present study suggests that the CXCL1 chemokine participates in neuropathic pain through CXCR2 activation in spinal microglia.

Benefí­cios da atividade fí­sica em idosos do projeto de extensão Vida Ativa/UNATI / Benefits of physical activity in the elderly of the extension project Active Life/UNATI

Objetivo: Verificar os efeitos da atividade física na força muscular respiratória, função motora, sintomas depressivos, qualidade de vida e imagem corporal em idosos do projeto de extensão Vida Ativa/UNATI. Métodos: Sete indivíduos, ambos os sexos, com idade média de 68,14 ± 4,38 foram submetidos a avaliações e reavaliações de força muscular respiratória (PiMáx e PeMáx), função motora (FPP-D/E, TUG, SPPB, EEB), sintomas depressivos (GDS-15), qualidade de vida (SF-36) e imagem corporal (IPCg) após 10 intervenções com atividades físicas, duas vezes na semana, por uma hora. Resultados: Houve aumento significativo em SPPB (p = 0,01); aumento não significativo da média dos valores de PiMáx (p = 0,07) e diminuição de PeMáx (p = 0,65); manutenção em FPP-D/E (p = 1); diminuição em TUG (p = 0,48); aumento EEB (p = 0,08); diminuição em GDS-15 (p = 0,36); em SF-36, obteve-se aumento em alguns domínios, como Capacidade Funcional (p = 0,79), Estado Geral de Saúde (p = 0,20), Vitalidade (p = 0,25) e Saúde Mental (p = 0,36), manutenção em Aspectos Emocionais (p = -), e diminuição em Aspectos Físicos (p = 0,66), Dor (p = 0,28) e Aspectos Sociais (p = 0,14); aumento em IPCg (p = 0,61). Conclusão: Foi observada manutenção ou melhora de quase todos os aspectos analisados. (AU)

Aim: To verify the effects of physical activity on respiratory muscle strength, motor function, depression symptoms, quality of life and body image in the aging process in elderly participants of Active Life/UNATI extension project. Methods: Seven individuals of both sexes, mean age 68.14 ± 4.38 years, were included in the study. Initially, evaluations were performed and then reassessments of respiratory muscle strength (Pimax and Pemax), motor function (FPP-D/E, TUG, SPPB, BSE), depressive symptoms (GDS-15), quality of life and body image (IPCg) were performed after 10 interventions with physical activities, twice a week, lasting one hour. Results: We observed a significant increase in SPPB (p=0.01); non-significant increase of mean values of Pimax (p = 0.07) and decrease of Pemax (p = 0.65); maintenance in FPP-D/E (p = 1); decrease in TUG (p = 0.48); increase in EEB (p = 0.08); decrease in GDS-15 (p = 0.36); in SF36, an increase was obtained in some areas, such as Functional Capacity (p = 0.79), General Health Status (p = 0.20), Vitality (p = 0.25) and Mental Health (p = 0.36), maintenance in Emotional Aspects (p= -), and decrease in Physical Aspects (0.66), Pain (p = 0.28) and Social Aspects (p = 0.14); increase in IPCg (p = 0.61). Conclusion: The proposed protocol of physical activity promoted maintenance or improvement of almost all aspects analyzed. (AU)

Opioidergic effects of transcutaneous electrical nerve stimulation on pain and inflammatory edema in a rat model of ankle sprain / Efeitos de opioidérgico da estimulação elétrica nervosa transcutânea sobre a dor e edema inflamatório em um modelo de entorse de tornozelo em ratos / Efectos opioidergicos de la estimulación nerviosa eléctrica transcutánea sobre el dolor y el edema inflamatorio en un modelo de rata con esguince de tobillo

ABSTRACT Although transcutaneous electrical nerve stimulation (TENS) has been proposed to modulate pain and the mechanisms underlying analgesia remain poorly understood, evidence of anti-inflammatory effect is more limited. The purpose of this study was to examine the opioidergic mechanisms of TENS effects in two different frequencies on pain and inflammatory edema in the ankle sprain model in rats. Threshold to mechanical stimulation was utilized to examine the changes produced by intraperitoneal injection of non-selective opioid antagonist naloxone on the antihyperalgesic effect induced by a 20-min period of 2Hz or 100Hz TENS in the ankle sprain model, produced by manually overextending the lateral ligaments. Ankle sprain induced a long-lasting reduction in paw withdrawn latency (PWL) after 30 minutes for up to 24 hours in sham TENS (SH-TENS) treated rats. The reduced PWL after the induction of ankle sprain was restored partially at 0,1,2,3 and 6, but not 24 hours, after the termination of 2 Hz-TENS (LF-TENS). In 100Hz (HF-TENS) the reduction in PWL was shorter than LF-TENS and both LF and HF effects were fully blocked in naloxone-treated rats. LF- and HF-TENS treated rats did not reach the elevation of edema and presented a progressive edema reduction for over 24 hours when compared to SH-TENS group. Both effects were reduced by naloxone. TENS-induced antihyperalgesic and anti-edematous effects observed in ankle sprain model were mediated by the endogenous opioid system.

RESUMO Embora estimulação elétrica nervosa transcutânea (TENS) tem sido proposta para modular a dor e os mecanismos subjacentes a analgesia permanecem mal compreendidos, evidências do efeito anti-inflamatório são mais limitadas. O objetivo deste estudo foi examinar os mecanismos opioidérgicos de efeitos de TENS em duas frequências diferentes sobre dor e edema inflamatório no modelo de entorse de tornozelo em ratos. Limiar de estimulação mecânica foi utilizado para examinar as alterações produzidas pela injeção intraperitoneal de naloxona, um antagonista opioide não-seletivo, sobre o efeito anti-hiperalgésico induzido por um período de 20 min de 2Hz ou 100Hz de TENS no modelo de entorse de tornozelo, produzido ultrapassando manualmente os ligamentos laterais. Entorse de tornozelo induziu uma redução duradoura na latência de retirada da pata (PWL) depois de 30 minutos até 24 horas em ratos tratados para TENS "simulada" (SH-TENS). A PWL reduzida após a indução de entorse de tornozelo foi restaurada parcialmente em 0,1,2,3 e 6, mas não em 24 horas, após o término do 2 Hz-TENS (LF-TENS). Em 100Hz (HF-TENS) a redução de PWL foi menor do que LF-TENS e tanto os efeitos HF e LF foram totalmente bloqueados em ratos tratados com naloxona. Ratos tratados com LF- e HF-TENS não alcançou a elevação do edema e apresentaram uma redução progressiva do edema por mais de 24 horas, quando comparado ao grupo SH-TENS. Ambos os efeitos foram reduzidos pela naloxona. Efeitos anti-hiperalgésicos induzidos por TENS e efeitos antiedematosos observados no modelo de entorse de tornozelo foram mediados pelo sistema de opioides endógenos.

RESUMEN Aunque la estimulación nerviosa eléctrica transcutánea (TENS) ha sido propuesta para modular el dolor y los mecanismos subyacentes a la analgesia sigue siendo mal entendida, la evidencia del efecto antiinflamatorio es limitada. El propósito de este estudio fue examinar los mecanismos opioidérgicos de los efectos de la TENS en dos frecuencias diferentes sobre el dolor y el edema inflamatorio en un modelo de ratas con esguince de tobillo. Se utilizó el umbral a la estimulación mecánica para examinar los cambios producidos por inyección intraperitoneal del antagonista opiáceo no selectivo naloxona sobre el efecto antihiperalgésico inducido por un período de 20 minutos de 2Hz o 100Hz TENS en el modelo con esguince de tobillo, producido por sobrecarga manual de los ligamentos laterales. El esguince de tobillo indujo una reducción de larga duración en latencia de la pata retraída (PWL) después de 30 minutos por hasta 24 horas en simulación de la TENS (SH-TENS) para las ratas tratadas. El PWL reducido después de la inducción del esguince de tobillo fue restaurado parcialmente en 0,1,2,3 y 6, pero no por 24 horas, después de la terminación de 2 Hz-TENS (LF-TENS). La reducción en PWL fue menor que LF-TENS en 100Hz (HF-TENS) y tanto los efectos de LF como de HF fueron completamente bloqueados en ratas tratadas con naloxona. Las ratas tratadas con LF- y HF-TENS no alcanzaron la elevación del edema y presentaron una reducción progresiva del edema durante más de 24 horas en comparación con el grupo SH-TENS. Ambos efectos fueron reducidos por la naloxona. Efectos antihiperalgésicos y antiedematosos TENS-inducidos observados en el modelo con esguince de tobillo fueron mediados por el sistema opioide endógeno.