Involvement of the serotonergic cerebral system in microwave-induced analgesia in mice of different genotypes

Under conditions of the formalin test, we studied changes in the level of analgesia induced by the action of low-intensity microwaves on the antinociceptive acupuncture point (AP) E36 in mice of strains CBA/CaLac (CBA) and C57BL/6j (C57) and in albino mongrel mice. Measurements were performed under control conditions and with experimentally induced decrease in the serotonin level in the brain (by injections of DL-parachlorophenylalanine, p-CPA). In the latter cases, the duration of the pain behavioral reaction increased despite irradiation of the AP E36. In mongrel, CBA, and C57 mice, the intensity of pain manifestations was 114.4, 29.0, and 21.1% greater, respectively, than in mice of these groups with no injections of p-CPA. These facts show that the serotonergic brain system is profoundly involved in the formation of analgesia after irradiation of the AP by low-intensity microwaves, and this involvement significantly depends on the genotype of the animals. Neirofiziologiya/Neurophysiology, Vol. 38, Nos. 5/6, pp. 495–497, September–December, 2006.     

Microwave-induced and pharmacological suppression of somatic pain under conditions of the formalin test in mice

We examined pain-related behavioral reactions and non-pain behavioral manifestations in mice under conditions of the formalin test. Levels of analgesia induced by i.p. injections of analgin, microwave irradiation of an antinociceptive acupuncture point (AP), E-36, or combined application of the above factors were measured. The duration of the pain behavioral reaction (licking of the injured limb) decreased due to irradiation of the AP with microwaves and to injection of 8.3 mg/kg analgin by 24.3% and 53.8%, on average, respectively. Combination of injection of analgin in a smaller dose (4.2 mg/kg) and microwave irradiation of the AP suppressed manifestations of the pain behavioral reaction by 43.4%. Thus, combination of pharmacologically induced analgesia with the action of microwaves on the antinociceptive AP allows one to significantly decrease the doses of analgesic preparations necessary to provide a full-level analgesic effect; in such a way, side effects of the respective drugs can be weakened. Neirofiziologiya/Neurophysiology, Vol. 38, No. 1, pp. 46–51, January–February, 2006.     

Analgesia induced by combined action of Tramadol and microwave irradiation in somatic pain in mice

In experiments on albino male mice weighing 24 to 32 g, we studied the suppression of the pain reaction induced by injection of formalin into the dorsal surface of the foot, using a combination of injection of tramadol hydrochloride (Tramal) in a dose of 0.42 mg/kg and irradiation of the acupuncture point (AP) E-36 with low-intensity microwaves (frequency 30 to 300 GHz and power rate density 3·10⁻⁹ W/cm²). The combined use of tramadol injection and the action of microwaves on the AP led to a decrease in the duration of the pain reaction (licking of the pain nidus), on average, by 58.2%, as compared with that in the control animal group. The analgesic effect was more strong in the case of such a combination than after isolated injection of tramadol in doses of 0.83 and 0.42 mg/kg (by 14.4 and by 10.0%, respectively) and isolated microwave irradiation of the AP TA E-36 (by 48.7%). The data obtained demonstrate the possibility of effective analgesia using a combination of microwave irradiation of the AP and the pharmacological influence with a significant decrease in the dose of the analgesic. Neirofiziologiya/Neurophysiology, Vol. 38, No. 4, pp. 314–319, July–August, 2006.     

Involvement of the Serotonergic System in Analgesia Induced by the Influence of Low-Intensity Microwaves on an Antipain Acupuncture Point

In experiments on mice, we studied changes in the level of analgesia induced by irradiation of the antipain acupuncture point (AP) E36 by low-intensity microwaves under conditions of modification of the serotonin level in the brain; this level was modified by injection of 300 mg/kg DL-p-chlorophenylalanine (pCPA). The duration of the nociceptive behavioral reaction (licking the limb) caused by injection of the formalin solution into the foot dorsal surface increased 24, 48, and 72 h after pCPA injection by 99.9, 84.4, and 114.4%, as compared with those in animals subjected to microwave irradiation of the AP E36 with no preliminary pCPA injection. It is concluded that the brain serotonergic system is actively involved in the analgesia effects induced by irradiation of the AP by low-intensity microwaves.     

Suppression of nociceptive reactions in mice under low-intensity microwave irradiation of acupuncture points

We studied nociceptive responses to subcutaneous injections of formalin and electrical stimulation of the limbs in control mice and in mice whose acupuncture points (AP) were subjected to low-intensity microwave irradiation. In the latter animals, nociceptive reactions were significantly weaker than those in the control mice. The analgesic effect depended on what AP was selected and irradiated and on the duration and timing of microwave irradiation. In different experimental series, the duration of a formalin injection-induced nociceptive behavioral reaction decreased by 23.3–59.6%. The threshold of vocalization responses to stimulation on an electrified floor increased by 25.8±28.0%. The results demonstrate that a technique of analgesia by influencing the AP with microwave irradiation of a nonthermal intensity is rather effective.     

Combination of pharmacological analgesics and microwave irradiation of an acupuncture point for suppression of visceral pain in mice: Role of the opioid and serotonergic cerebral systems

We studied suppression of pain-related reactions induced in mice by i.p. injection of 0.08 ml of a 2% solution of acetic acid using pharmacological analgesics (analgin and tramadol) combined with low-intensity microwave irradiation of an acupuncture point (AP) E-36 (frequency 30 to 300 GHz and power rate density 3·10⁻⁹ W/cm²). The respective effects were also observed under conditions of suppression of the functions of opioid and serotonergic cerebral systems using injections of, respectively, naloxone and DL-p-chlorophenylalanine (p-CPA). We found that antinociceptive effects provided by analgesics used in a 50% mean single dose in the combination with microwave irradiation of the AP were significantly more intense than those induced by isolated injection of analgesics used in both 50% and full mean single doses and isolated microwave irradiation of the AP E-36. After injections of naloxone, analgesic effects caused by the combined action of analgin and microwave irradiation of the AP were considerably smaller. At the same time, after injection of p-CPA, analgesic effects, provided by the combination of injection of pharmacological agents and microwave irradiation of the AP, weakened in the case of use of both analgesics. This was manifested in a significant increase in the total duration of pain-related behavioral reactions. Therefore, the studied analgesic effects observed in the examined animal groups are realized due to the involvement of the opioid and serotonergic cerebral systems. Neirofiziologiya/Neurophysiology, Vol. 39, No. 6, pp. 468–477, November–December, 2007.     

Gabapentin Effects on PKC-ERK1/2 Signaling in the Spinal Cord of Rats with Formalin-Induced Visceral Inflammatory Pain

Currently, the clinical management of visceral pain remains unsatisfactory for many patients suffering from this disease. While preliminary animal studies have suggested the effectiveness of gabapentin in successfully treating visceral pain, the mechanism underlying its analgesic effect remains unclear. Evidence from other studies has demonstrated the involvement of protein kinase C (PKC) and extracellular signal-regulated kinase1/2 (ERK1/2) in the pathogenesis of visceral inflammatory pain. In this study, we tested the hypothesis that gabapentin produces analgesia for visceral inflammatory pain through its inhibitory effect on the PKC-ERK1/2 signaling pathway. Intracolonic injections of formalin were performed in rats to produce colitis pain. Our results showed that visceral pain behaviors in these rats decreased after intraperitoneal injection of gabapentin. These behaviors were also reduced by intrathecal injections of the PKC inhibitor, H-7, and the ERK1/2 inhibitor, PD98059. Neuronal firing of wide dynamic range neurons in L6–S1 of the rat spinal cord dorsal horn were significantly increased after intracolonic injection of formalin. This increased firing rate was inhibited by intraperitoneal injection of gabapentin and both the individual and combined intrathecal application of H-7 and PD98059. Western blot analysis also revealed that PKC membrane translocation and ERK1/2 phosphorylation increased significantly following formalin injection, confirming the recruitment of PKC and ERK1/2 during visceral inflammatory pain. These effects were also significantly reduced by intraperitoneal injection of gabapentin. Therefore, we concluded that the analgesic effect of gabapentin on visceral inflammatory pain is mediated through suppression of PKC and ERK1/2 signaling pathways. Furthermore, we found that the PKC inhibitor, H-7, significantly diminished ERK1/2 phosphorylation levels, implicating the involvement of PKC and ERK1/2 in the same signaling pathway. Thus, our results suggest a novel mechanism of gabapentin-mediated analgesia for visceral inflammatory pain through a PKC-ERK1/2 signaling pathway that may be a future therapeutic target for the treatment of visceral inflammatory pain.     

Effects of systemically administered monoamine reuptake blocking agents on patterns of buspirone-induced analgesia in rats

We have recently shown the serotonin 5-HT1A receptor agonist buspirone to produce analgesia in several pain tests in rats. As a 5-HT1A agonist, buspirone may change serotonergic (5-HT) tone to alter the balance of central monoaminergic (MA) systems that function in analgesia. MA-reuptake blocking drugs have been shown to produce analgesia, both when given alone and in combination with a variety of other agents, presumably via their action upon MA neurochemistry. The present study was undertaken to examine the effect of systemic administration of the 5-HT-reuptake blocker amitriptyline (AMI: 10 mg/kg), NE-reuptake blocker desipramine (DMI: 10 mg/kg) or DA-reuptake blocker GBR-12909 (7.5 mg/kg) on patterns of analgesia produced by buspirone (1-5 mg/kg) in thermal and mechanical pain tests in rats. Neither reuptake blocking agents or buspirone, when administered alone or in combination, produced overt changes in motor activity at the doses tested. AMI alone was not analgesic in either thermal or mechanical pain tests. In both assays, AMI reduced the analgesic action of buspirone, with greater effects seen in the thermal test. When administered alone, DMI produced significant analgesia against thermal and mechanical pain. DMI significantly attenuated the analgesic action of all doses of buspirone in both pain tests. Alone, GBR-12909 did not affect nociception in thermal or mechanical tests. GBR-12909 decreased buspirone-induced analgesia at all doses in the thermal test, while having no effect on buspirone-induced analgesia against mechanical pain. These results demonstrate that facilitation of 5-HT, NE and DA function with reuptake blocking drugs did not enhance the analgesic action of buspirone. These data indicate against the adjuvant use of reuptake blocking compounds and buspirone as analgesics. Furthermore, such findings may suggest other possible non-MA substrates of buspirone-induced analgesia.     

家兔隔核中去甲肾上腺素对皮肤与内脏痛阈的影响

本工作以电刺激内脏大神经或耳尖部皮肤测定清醒家兔内脏痛阈或皮肤痛阈,以探讨隔核去甲肾上腺素在内脏镇痛和皮肤镇痛中的作用以及与中脑导水管周围灰质(PAG)中内阿片肽系统的关系。实验观察到,双侧隔核内微量注射α受体激动剂可乐宁(10μg/2μl)或α受体阻断剂酚妥拉明(10μg/2μl)对内脏痛阈无明显影响。注入β受体激动剂异丙肾上腺素(1μg/2μl)使内脏痛阐明显升高;而注入β受体阻断剂心得安(1Cμg/2μl)则内脏痛阈明显降低。隔核内注入酚妥拉明(10μg/2μl)或心得安(10μg/2μl)均可使皮肤痛阈明显提高。提示,隔核内NA通过β受体调制内脏痛;通过α受体和β受体调制皮肤痛。隔核内注入异丙肾上腺素(1μg/2μl)明显地镇内脏痛,此作用可被PAG内注射纳洛酮(1μg/2μl)或注射抗亮啡肽抗血清(1:20,000)所减弱;但可使PAG内亮啡肽样物质释放量增加。这提示,隔核内NA的镇内脏痛作用与PAG的内阿片肽系统有关;其中亮非肽在这一过程中具有重要作用。     

Possible mechanisms of analgesic effects of low-intensity microwave radiation

Based on a review of published data and results of our own experiments, we discuss possible mechanisms of analgesic effects of low-intensity microwaves. We hypothesize that the effects of microwave irradiation can be to a considerable extent mediated by the influence on the acupuncture points, which are tentatively considered receptor structures of the electromagnetic sensory system in humans and animals.     

Effects of microwaves on membranes of hematopoietic cells in their structural and functional organization

The role of cell membranes in stimulating and inhibiting the effects of microwaves was investigated in experiments carried out with a suspension of murine bone marrow cells irradiated with microwaves in vitro [f = 2.45 GHz, CW, specific absorption rate (SAR) = 12 W/kg]. Results obtained by means of a structural probe, 2.4-TNS, indicate that no structural changes occur in the region of the protein-lipid interphase under conditions of short-term irradiation with microwaves that induced temperatures in the range 36–45°C (exposure time 315 and 525 s, respectively). Investigation of one functional parameter—the ability to produce hematopoietic colonies in the spleen after transplantation of the bone marrow irradiated in vitro by microwaves—indicated the possibility of affecting stimulatory and inhibitory effects of microwaves by using a blocker of cell receptors, Trimepranol. The role of microwaves as a physical factor interfering in the process of cell proliferation at the level of receptor regulation is discussed. © 1993 Wiley-Liss, Inc.     

Ligand-specific recycling profiles determine distinct potential for chronic analgesic tolerance of delta-opioid receptor (DOPr) agonists

δ-opioid receptor (DOPr) agonists have analgesic efficacy in chronic pain models but development of tolerance limits their use for long-term pain management. Although agonist potential for inducing acute analgesic tolerance has been associated with distinct patterns of DOPr internalization, the association between trafficking and chronic tolerance remains ill-defined. In a rat model of streptozotocin (STZ)-induced diabetic neuropathy, deltorphin II and TIPP produced sustained analgesia  following daily (intrathecal) i.t. injections over six days, whereas similar treatment with SNC-80 or SB235863 led to progressive tolerance and loss of the analgesic response. Trafficking assays in murine neuron cultures showed no association between the magnitude of ligand-induced sequestration and development of chronic tolerance. Instead, ligands that supported DOPr recycling were also the ones producing sustained analgesia over 6-day treatment. Moreover, endosomal endothelin-converting enzyme 2 (ECE2) blocker 663444 prevented DOPr recycling by deltorphin II and TIPP and precipitated tolerance by these ligands. In conclusion, agonists, which support DOPr recycling, avoid development of analgesic tolerance over repeated administration.     

Effect of centimeter microwaves on the antibody production in mice

The effect of low-intensity microwaves (8.15-18 GHz, 0.3 or 1 microW/cm2, 1.5 h daily for 30 days) on antibody production in healthy male NMRI mice after immunization with affinity-purified carboanhydrase isolated from bovine erythrocytes with and without Freund's adjuvant was studied. It was found that exposure to microwaves leads to an increase in the concentration of antibodies in blood plasma, the stimulating effect being more pronounced in the primary immune response. It is assumed that the effect of enhancement of the immune response by the action of centimeter microwaves can be used in the adjuvant therapy.     

Quantitative automated microscopy (QuAM) elucidates growth factor specific signalling in pain sensitization

Background

Hydrogen sulphide (H₂S) is a gaseous neuro-mediator that exerts analgesic effects in rodent models of visceral pain by activating K_ATP channels. A body of evidence support the notion that K_ATP channels interact with endogenous opioids. Whether H₂S-induced analgesia involves opioid receptors is unknown.

Methods

The perception of painful sensation induced by colorectal distension (CRD) in conscious rats was measured by assessing the abdominal withdrawal reflex. The contribution of opioid receptors to H₂S-induced analgesia was investigated by administering rats with selective μ, κ and δ opioid receptor antagonists and antisenses. To investigate whether H₂S causes μ opioid receptor (MOR) transactivation, the neuronal like cells SKNMCs were challenged with H₂S in the presence of MOR agonist (DAMGO) or antagonist (CTAP). MOR activation and phosphorylation, its association to β arrestin and internalization were measured.

Results

H₂S exerted a potent analgesic effects on CRD-induced pain. H₂S-induced analgesia required the activation of the opioid system. By pharmacological and molecular analyses, a robust inhibition of H₂S-induced analgesia was observed in response to central administration of CTAP and MOR antisense, while κ and δ receptors were less involved. H₂S caused MOR transactivation and internalization in SKNMCs by a mechanism that required AKT phosphorylation. MOR transactivation was inhibited by LY294002, a PI3K inhibitor, and glibenclamide, a K_ATP channels blocker.

Conclusions

This study provides pharmacological and molecular evidence that antinociception exerted by H₂S in a rodent model of visceral pain is modulated by the transactivation of MOR. This observation provides support for development of new pharmacological approaches to visceral pain.     

Roles of different neurochemical systems in mechanisms underlying the antinociceptive effect of extrahigh-frequency electromagnetic radiation

We studied the effect of low-intensity extrahigh-frequency (EHF) electromagnetic radiation (EMR) on the duration of a pain behavioral reaction in rats under conditions of experimental induction of tonic pain (formalin test). The antinociceptive effect of EHF irradiation was modulated by suppression of the activity of a few neurochemical systems resulting from the blockade of receptors of opioid peptides, α-and β-adrenoreceptors, receptors of dopamine and melatonin, as well as from inhibition of serotonin synthesis. We demonstrated that all the respective neurochemical systems are to a certain extent involved in the mechanisms underlying the analgesic action of EHF EMR. Within an early phase of pain stress, functioning of the opioidergic and noradrenergic systems and the effects of melatonin play leading roles, while the activity of the serotonergic system plays such a role within the second (tonic) phase. Neirofiziologiya/Neurophysiology, Vol. 39, No. 2, pp. 165–173, March–April, 2007.     

Antinociceptive effects of low-intensity extrahigh-frequency electromagnetic radiation

We studied the effect of low-intensity extrahigh-frequency (EHF) electromagnetic radiation (EMR) on changes of behavior phenomena in rats observed under conditions of experimentally induced tonic somatic, visceral, and acute thermal pain. Preliminary irradiation of the animals with EHF EMR was found to exert clear antinociceptive effects. Decreases in the intensity of pain reactions were observed under conditions of both single and repeated irradiation sessions. Neirofiziologiya/Neurophysiology, Vol. 38, No. 4, pp. 331–341, July–August, 2006.     

Millimeter-Wave Effects on Candida Albicans Cells

In preliminary measurements, Candida albicans cultures exposed to 1 kHz square-wave-modulated microwaves at 72 GHz exhibited a significantly reduced number of colony-forming units in comparison with nonirradiated controls. To study whether the same effect could also be caused by continuous-wave (CW) irradiation, sedimented cells were exposed to either 1 kHz square-wave-modulated or CW microwaves at 72 GHz, with the same peak power. CW-exposed cells showed a higher growth rate (about 25%), whereas a reduction of about 15% was seen in cells exposed to square-wave-modulated microwaves in comparison with sham-exposed controls.     

Postoperative analgesia: a comparison of intravenous on-demand fentanyl with epidural bupivacaine.

In a randomised trial postoperative pain relief was provided by either epidural injections of bupivacaine or an infusion of fentanyl adjusted by the patient to achieve adequate pain relief. Both techniques produced satisfactory analgesia without respiratory depression after peripheral arterial surgery. The technique of infusing intravenously a potent analgesic in a dose adjusted by the patient appears to offer several advantages in postoperative care.     

Immunocorrective effect of low intensity radiation of ultrahigh frequency on carcinogenesis in mice

The effect of low-intensity centimeter electromagnetic waves (8.15-18 GHz, 1 microW/cm2, 1.5 h daily, 20 days) on the production of tumor necrosis factor, intreleukin-2, and interleukin-3 and the expression of the heat shock protein 72 in healthy and tumor-bearing mice was measured. A significant increase in tumor necrosis factor production and a slight reduction of interleukin-2 concentration were observed after exposure to microwaves; we consider these effects as adaptive response. The interleukin-3 production in healthy mice was not affected by microwaves. Low-intensity centimeter waves induced antitumoral resistance in tumor-bearing mice. Thus, exposure of tumor-bearing mice led to a significant rise in the tumor necrosis factor production and the normalization of both interleukin-2 and interleukin-3 concentration. We assume that the significant immunomodulating effect of low-density centimeter microwaves can be used for immunocorrection and suppression of tumor growth.