The effect of sinomenine in diabetic neuropathic pain mediated by the P2X<Subscript>3</Subscript> receptor in dorsal root ganglia

Type 2 diabetes mellitus (T2DM) accounts for more than 90% of all cases of diabetes mellitus (DM). Diabetic neuropathic pain (DNP) is a common complication of T2DM. Sinomenine is a natural bioactive component extracted from the Sinomenium acutum and has anti-inflammatory effects. The aim of our study was to investigate the effects of sinomenine on DNP mediated by the P2X₃ receptor in dorsal root ganglia (DRG). The mechanical withdrawal threshold (MWT) and thermal withdrawal latency (TWL) in T2DM rats were lower than those of control rats. MWT and TWL in T2DM rats treated with sinomenine were higher compared with those in T2DM rats. The expression levels of the P2X₃ protein and mRNA in T2DM rat DRG were higher compared with those of the control, while those in T2DM rats treated with sinomenine were significantly lower compared with those of the T2DM rats. Sinomenine significantly inhibited P2X₃ agonist ATP-activated currents in HEK293 cells transfected with the P2X₃ receptor. Sinomenine decreased the phosphorylation and activation of P38MAPK in T2DM DRG. Therefore, sinomenine treatment may suppress the up-regulated expression and activation of the P2X₃ receptor and relieve the hyperalgesia potentiated by the activation of P38MAPK in T2DM rats.     

Nanoparticle-encapsulated emodin decreases diabetic neuropathic pain probably via a mechanism involving P2X3 receptor in the dorsal root ganglia

Diabetic peripheral neuropathy (DPN) is the most common complication of diabetes mellitus (DM). More than 90% of all cases of DM belong to type 2 diabetes mellitus (T2DM). Emodin is the main active component of Radix et rhizoma rhei and has anti-bacterial, anti-viral, anti-ulcerogenic, anti-inflammatory, and anti-cancer effects. Nanoparticle encapsulation of drugs is beneficial for drug targeting and bioavailability as well as for lowering drug toxicity side effects. The aim of this study was to investigate the effects of nanoparticle-encapsulated emodin (nano emodin) on diabetic neuropathic pain (DNP) mediated by the Purin 2X3 (P2X3) receptor in the dorsal root ganglia (DRG). Mechanical withdrawal threshold (MWT) and thermal withdrawal latency (TWL) values in T2DM rats were lower than those of control rats. MWT and TWL in T2DM rats treated with nano emodin were higher compared with those in T2DM rats. Expression levels of P2X3 protein and messenger RNA (mRNA) in the DRG of T2DM rats were higher than those of controls, while levels in T2DM rats treated with nano emodin were significantly lower than those of the T2DM rats. Phosphorylation and activation of ERK1/2 in the T2DM DRG were decreased by nano emodin treatment. Nano emodin significantly inhibited currents activated by the P2X3 agonist α,β-meATP in HEK293 cells transfected with the P2X3 receptor. Therefore, nano emodin treatment may relieve DNP by decreasing excitatory transmission mediated by the DRG P2X3 receptor in T2DM rats.     

LncRNA NONRATT021972 involved the pathophysiologic processes mediated by P2X<Subscript>7</Subscript> receptors in stellate ganglia after myocardial ischemic injury

Adenosine triphosphate (ATP) acts on P2X receptors to initiate signal transmission. P2X₇ receptors play a role in the pathophysiological process of myocardial ischemic injury. Long noncoding RNAs (lncRNAs) participate in numerous biological functions independent of protein translation. LncRNAs are implicated in nervous system diseases. This study investigated the effects of NONRATT021972 small interference RNA (siRNA) on the pathophysiologic processes mediated by P2X₇ receptors in stellate ganglia (SG) after myocardial ischemic injury. Our results demonstrated that the expression of NONRATT021972 in SG was significantly higher in the myocardial ischemic (MI) group than in the control group. Treatment of MI rats with NONRATT021972 siRNA, the P2X₇ antagonist brilliant blue G (BBG), or P2X₇ siRNA improved the histology of injured ischemic cardiac tissues and decreased the elevated concentrations of serum myocardial enzymes, creatine kinase (CK), CK isoform MB (CK-MB), lactate dehydrogenase (LDH) and aspartate aminotransferase (AST) compared to the MI rats. NONRATT021972 siRNA, BBG, or P2X₇ siRNA treatment in MI rats decreased the expression levels of P2X₇ immunoreactivity, P2X₇ messenger RNA (mRNA), and P2X₇ protein, interleukin-6 (IL-6), tumor necrosis factor-α (TNF-α), and phosphorylated p38 mitogen-activated protein kinase (p38 MAPK) in the SG compared to MI rats. NONRATT021972 siRNA treatment prevented the pathophysiologic processes mediated by P2X₇ receptors in the SG after myocardial ischemic injury.     

Long noncoding NONRATT021972 siRNA normalized abnormal sympathetic activity mediated by the upregulation of P2X<Subscript>7</Subscript> receptor in superior cervical ganglia after myocardial ischemia

Previous studies showed that the upregulation of the P2X₇ receptor in cervical sympathetic ganglia was involved in myocardial ischemic (MI) injury. The dysregulated expression of long noncoding RNAs (lncRNAs) participates in the onset and progression of many pathological conditions. The aim of this study was to investigate the effects of a small interfering RNA (siRNA) against the NONRATT021972 lncRNA on the abnormal changes of cardiac function mediated by the up-regulation of the P2X₇ receptor in the superior cervical ganglia (SCG) after myocardial ischemia. When the MI rats were treated with NONRATT021972 siRNA, their increased systolic blood pressure (SBP), diastolic blood pressure (DBP), heart rate (HR), low-frequency (LF) power, and LF/HF ratio were reduced to normal levels. However, the decreased high-frequency (HF) power was increased. GAP43 and tyrosine hydroxylase (TH) are markers of nerve sprouting and sympathetic nerve fibers, respectively. We found that the TH/GAP43 value was significantly increased in the MI group. However, it was reduced after the MI rats were treated with NONRATT021972 siRNA. The serum norepinephrine (NE) and epinephrine (EPI) concentrations were decreased in the MI rats that were treated with NONRATT021972 siRNA. Meanwhile, the increased P2X₇ mRNA and protein levels and the increased p-ERK1/2 expression in the SCG were also reduced. NONRATT021972 siRNA treatment inhibited the P2X₇ agonist BzATP-activated currents in HEK293 cells transfected with pEGFP-P2X₇. Our findings suggest that NONRATT021972 siRNA could decrease the upregulation of the P2X₇ receptor and improve the abnormal changes in cardiac function after myocardial ischemia.     

The effects of NONRATT021972 lncRNA siRNA on PC12 neuronal injury mediated by P2X<Subscript>7</Subscript> receptor after exposure to oxygen-glucose deprivation

Adenosine triphosphate (ATP) participates in signal transmission by acting on P2X receptors, and the P2X₇ receptor is involved in the pathophysiological changes of ischemic injury. The PC12 cell line is a popular model system to study sympathetic neuronal function. Long noncoding RNAs (lncRNAs) are highly expressed in the nervous system and serve as regulatory RNAs. In this study, the effects of NONRATT021972 lncRNA siRNA on P2X₇-mediated PC12 neuronal injury after exposure to oxygen-glucose deprivation (OGD) were investigated. Our results showed that the viability of PC12 cells cultured with OGD or the P2X₇ agonist BzATP was significantly decreased. Treatment with NONRATT021972 siRNA reversed the decreased viability of PC12 cells under OGD conditions. The upregulated P2X₇ mRNA and protein levels in PC12 cells under OGD conditions or BzATP treatment were significantly decreased when pretreated with NONRATT021972 siRNA. Moreover, NONRATT021972 siRNA treatment effectively suppressed the increase in [Ca²⁺]_i induced by OGD or P2X₇ agonists (ATP or BzATP) in PC12 cells. Therefore, treatment with NONRATT021972 siRNA may decrease sympathetic neuronal injury induced by ischemia.     

Sensory–sympathetic coupling in superior cervical ganglia after myocardial ischemic injury facilitates sympathoexcitatory action via P2X7 receptor

P2X receptors participate in cardiovascular regulation and disease. After myocardial ischemic injury, sensory–sympathetic coupling between rat cervical DRG nerves and superior cervical ganglia (SCG) facilitated sympathoexcitatory action via P2X₇ receptor. The results showed that after myocardial ischemic injury, the systolic blood pressure, heart rate, serum cardiac enzymes, IL-6, and TNF-α were increased, while the levels of P2X₇ mRNA and protein in SCG were also upregulated. However, these alterations diminished after treatment of myocardial ischemic (MI) rats with the P2X₇ antagonist oxATP. After siRNA P2X₇ in MI rats, the systolic blood pressure, heart rate, serum cardiac enzymes, the expression levels of the satellite glial cell (SGC) or P2X₇ were significantly lower than those in MI group. The phosphorylation of ERK 1/2 in SCG participated in the molecular mechanism of the sympathoexcitatory action induced by the myocardial ischemic injury. Retrograde tracing test revealed the sprouting of CGRP or SP sensory nerves (the markers of sensory afferent fibers) from DRG to SCG neurons. The upregulated P2X₇ receptor promoted the activation of SGCs in SCG, resulting in the formation of sensory–sympathetic coupling which facilitated the sympathoexcitatory action. P2X₇ antagonist oxATP could inhibit the activation of SGCs and interrupt the formation of sensory–sympathetic coupling in SCG after the myocardial ischemic injury. Our findings may benefit the treatment of coronary heart disease and other cardiovascular diseases.     

Analgesic effect of electroacupuncture on chronic neuropathic pain mediated by P2X3 receptors in rat dorsal root ganglion neurons

Adenosine 5'-triphosphate disodium (ATP) gated P2X receptors, especially the subtype P2X(3), play a key role in transmission of pain signals in neuropathic pain, ATP has been documented to play a significant role in the progression of pain signals, suggesting that control of these pathways through electroacupuncture (EA) is potentially an effective treatment for chronic neuropathic pain. EA has been accepted to effectively manage chronic pain by applying the stimulating current to acupoints through acupuncture needles. To determine the significance of EA on neuropathic pain mediated by P2X(3) receptors in the dorsal root ganglion (DRG) neurons, mechanical withdrawal threshold (MWT) and thermal withdrawal latency (TWL) were recorded, and the expression of P2X(3) receptors in the DRG neurons was assessed by immunohistochemistry (IHC) and in situ hybridization (ISH). In addition, the currents which were evoked in DRG neurons isolated from rats following chronic constriction injury (CCI) by the P2X(3) receptors agonists i.e. ATP and α,β-methylen-ATP (α,β-meATP) were examined through the experimental use of whole cell patch clamp recording. The present study demonstrates that EA treatment can increase the MWT and TWL values and decrease the expression of P2X(3) receptors in DRG neurons in CCI rats. Simultaneously, EA treatment attenuates the ATP and α,β-meATP evoked currents. EA may be expected to induce an apparent induce analgesic effect by decreasing expression and inhibiting P2X(3) receptors in DRG neurons of CCI rats. There is a similar effect on analgesic effect between rats with contralateral EA and those with ipsilateral EA.     

Vatalanib decrease the positive interaction of VEGF receptor-2 and P2X(2/3) receptor in chronic constriction injury rats

Neuropathic pain can arise from a lesion affecting the peripheral nervous system. Selective P2X(3) and P2X(2/3) receptors' antagonists effectively reduce neuropathic pain. VEGF inhibitors are effective for pain relief. The present study investigated the effects of Vatalanib (VEGF receptor-2 (VEGFR-2) inhibitor) on the neuropathic pain to address the interaction of VEGFR-2 and P2X(2/3) receptor in dorsal root ganglia of chronic constriction injury (CCI) rats. Neuropathic pain symptoms following CCI are similar to most peripheral lesions as assessed by the Neuropathic Pain Symptom Inventory. Sprague-Dawley rats were randomly divided into sham group, CCI group and CCI rats treated with Vatalanib group. Mechanical withdrawal threshold and thermal withdrawal latency were measured. Co-expression of VEGFR-2 and P2X(2) or P2X(3) in L4-6 dorsal root ganglia (DRG) was detected by double-label immunofluorescence. The modulation effect of VEGF on P2X(2/3) receptor agonist-activated currents in freshly isolated DRG neurons of rats both of sham and CCI rats was recorded by whole-cell patch-clamp technique. The mechanical withdrawal threshold (MWT) and thermal withdrawal latency (TWL) in CCI group were lower than those in sham group (p<0.05). MWT and TWL in CCI rats treated with Vatalanib group were increased compared with those in CCI group (p<0.05). VEGFR-2 and P2X(2) or P2X(3) receptors were co-expressed in the cytoplasm and surface membranes of DRG. The co-expression of VEGFR-2 and P2X(2) or P2X(3) receptor in CCI group exhibited more intense staining than those in sham group and CCI rats treated with Vatalanib group, respectively. VEGF enhanced the amplitude of ATP and α,β-meATP -activated currents of both sham and CCI rats. Increment effects of VEGF on ATP and α,β-meATP -activated currents in CCI rats were higher than those in sham rats. Both ATP (100 μM) and α,β-meATP (10 μM)- activated currents enhanced by VEGF ( 1nM) were significantly blocked by Vatalanib (1 μM, an inhibitor of VEGF receptors). The stain values of VEGFR-2, P2X(2) and P2X(3) protein expression in L4/5 DRG of CCI treated with Vatalanib group were significantly decreased compared with those in CCI group (p<0.01). Vatalanib can alleviate chronic neuropathic pain by decreasing the activation of VEGF on VEGFR-2 and the positive interaction between the up-regulated VEGFR-2 and P2X(2/3) receptors in the neuropathic pain signaling.     

P2X<Subscript>7</Subscript> receptor and klotho expressions in diabetic nephropathy progression

Diabetes mellitus is characterized by increased levels of reactive oxygen species (ROS), leading to high levels of adenosine triphosphate (ATP) and the activation of purinergic receptors (P2X₇), which results in cell death. Klotho was recently described as a modulator of oxidative stress and as having anti-apoptotic properties, among others. However, the roles of P2X₇ and klotho in the progression of diabetic nephropathy are still unclear. In this context, the aim of the present study was to characterize P2X₇ and klotho in several stages of diabetes in rats. Diabetes was induced in Wistar rats by streptozotocin, while the control group rats received the drug vehicle. From the 1st to 8th weeks after the diabetes induction, the animals were placed in metabolic cages on the 1st day of each week for 24 h to analyze metabolic parameters and for the urine collection. Then, blood samples and the kidneys were collected for biochemical analysis, including Western blotting and qPCR for P2X₇ and klotho. Diabetic rats presented a progressive loss of renal function, with reduced nitric oxide and increased lipid peroxidation. The P2X₇ and klotho expressions were similar up to the 4th week; then, P2X₇ expression increased in diabetes mellitus (DM), but klotho expression presented an opposite behavior, until the 8th week. Our data show an inverse correlation between P2X₇ and klotho expressions through the development of DM, which suggests that the management of these molecules could be useful for controlling the progression of this disease and diabetic nephropathy.     

沉默信息调节因子2在瑞芬太尼诱发的大鼠切口痛觉过敏中的作用及其机制研究

摘要 目的：探讨沉默信息调节因子2（Sirt2）在瑞芬太尼诱发的大鼠切口痛觉过敏中的作用及其机制。方法：18只SD大鼠采用随机数字表法分为I组（切口组,n=6）,RI组（瑞芬太尼+切口组,n=6）和RI+Sirt2过表达组（瑞芬太尼+切口+Sirt2过表达组,n=6）。I组在大鼠足底制作切口痛模型的同时在腹部注射等容量生理盐水30 min,RI组和RI+Sirt2过表达组在足底进行切口痛模型制作的同时并泵注瑞芬太尼30 min,RI+Sirt2过表达组在脊髓水平提前1周注射Sirt2过表达慢病毒处理。各组大鼠分别于泵注瑞芬太尼或生理盐水术前24 h,泵注结束后2 h、6 h、24 h和48 h测定机械刺激缩足反应阈值（MWT）及热缩足潜伏期（TWL）。行为学测试结束后处死大鼠,取L_3-5脊髓节段,采用蛋白免疫印迹（Western blot）法检测Sirt2表达,超氧化物歧化酶2（SOD2）活性采用酶联免疫吸附法（ELISA）法测定,超氧阴离子水平和NADPH氧化酶活性采用化学发光法测定。结果：各组大鼠MWT和TWL的时间效应（F=683.602,624.033,均P<0.001）和组别×时间交互效应显著（F=9.142,4.550,均P<0.001）,说明MWT和TWL有随时间变化的趋势并且时间因素的作用有随组别的不同而不同,组间比较差异有统计学意义（F=93.157,25.176,均P<0.001）。与I组比较,RI组T_1-4时MWT降低,TWL缩短（P<0.05）;RI+Sirt2过表达组T₂、T₄时间点MWT降低,T_2-4时间点TWL缩短（P<0.05）。与RI组比较,RI+Sirt2过表达组T_3-4时间点MWT升高,T_2-4时间点TWL延长（P<0.05）。三组大鼠Sirt2蛋白表达比较差异有统计学意义（F=265.643,P<0.001）;与I组比较,RI组和RI+Sirt2过表达组术后48 h脊髓组织Sirt2表达水平减少（P<0.05）;与RI组比较,RI+Sirt2过表达组术后48 h脊髓组织Sirt2表达水平增加（P<0.05）。三组大鼠脊髓组织SOD2活性、NADPH氧化酶活性、超氧化物阴离子表达比较差异有统计学意义（F=13.543,14.813,19.675,均P<0.001）;与I组比较,RI组和RI+Sirt2过表达组术后48 h脊髓组织SOD2活性水平降低,NADPH氧化酶活性和超氧化物阴离子水平增加（P<0.05）;与RI组比较,RI+Sirt2过表达组术后48 h脊髓组织SOD2活性水平增加,NADPH氧化酶活性和超氧化物阴离子减低（P<0.05）。结论：Sirt2通过调节氧化应激水平参与瑞芬太尼诱发切口痛大鼠痛觉过敏过程。     

Estrogen altered visceromotor reflex and P2X3 mRNA expression in a rat model of colitis

P2X₃ and P2X_2/3 receptors are expressed in peripheral tissues and dorsal root ganglia (DRG) and participate in peripheral pain. However, the mechanisms underlying P2X receptor-mediated nociception at different ovarial hormone levels has not been examined. In this study, 24 female rats were randomly divided into sham-operated (sham), ovariectomized (OVX), estrogen-treated, and estrogen–progesterone-treated groups with colitis. In each group, the visceromotor reflex (VMR) to colorectal distension was tested and the DRG were harvested for a real-time PCR analysis of P2X₃ and P2X₂ receptor mRNA. In OVX rats with colitis we found that the VMR to colorectal distension and P2X₃ receptor mRNA in DRG were both significantly decreased. Estrogen replacement reversed the decrease. However, neither the VMR nor the P2X₃ mRNA level in DRG from OVX colitis rats was reversed by the complex of estrogen and progesterone. Patch-clamp recording showed that in colitis rats, estradiol rapidly potentiated the sustained and transient currents evoked by ATP to 336 ± 49% and 122 ± 12% of controls, respectively, in a subpopulation of DRG neurons, which were blocked by ICI 182, 780, an antagonist of the estrogen receptor. Whereas progesterone rapidly inhibited the transient currents induced by ATP to 67 ± 10% of control and had no effect on the sustained currents evoked by the same agonist. These results indicate that P2X₃ receptors are likely to be an important contributor to the altered colonic functions in colitis rats, where the underlying mechanisms are closely related to endogenous estrogen modulation.     

Effect of electroacupuncture on P2X3 receptor regulation in the peripheral and central nervous systems of rats with visceral pain caused by irritable bowel syndrome

The aim of this study is to investigate the role of the purinergic receptor P2X₃ in the peripheral and central nervous systems during acupuncture treatment for the visceral pain of irritable bowel syndrome (IBS). A total of 24 8-day-old Sprague–Dawley (SD) neonatal male rats (SPF grade) were stimulated using colorectal distention (CRD) when the rats were awake. The modeling lasted for 2 weeks with one stimulation per day. After 6 weeks, the rats were randomly divided into three groups of eight each: (1) the normal group (NG, n = 8); (2) the model group (MG, n = 8); and (3) the model + electroacupuncture group (EA, n = 8) that received electroacupuncture at a needling depth of 5 mm at the Shangjuxu (ST37, bilateral) and Tianshu (ST25, bilateral) acupoints. The parameters of the Han’s acupoint nerve stimulator (HANS) were as follows: sparse-dense wave with a frequency of 2/100 Hz, current of 2 mA, 20 min/stimulation, and one stimulation per day; the treatment was provided for seven consecutive days. At the sixth week after the treatment, the abdominal withdrawal reflex (AWR) score was determined; immunofluorescence and immunohistochemistry were used to measure the expression of the P2X₃ receptor in myenteric plexus neurons, prefrontal cortex, and anterior cingulate cortex; and, a real-time PCR assay was performed to measure the expression of P2X₃ messenger RNA (mRNA) in the dorsal root ganglion (DRG) and spinal cord. After stimulation with CRD, the expression levels of the P2X₃ receptor in the inter-colonic myenteric plexus, DRG, spinal cord, prefrontal cortex, and anterior cingulate cortex were upregulated, and the sensitivity of the rats to IBS visceral pain was increased. Electroacupuncture (EA) could downregulate the expression of the P2X₃ receptor and ease the sensitivity to visceral pain. The P2X₃ receptor plays an important role in IBS visceral pain. The different levels of P2X₃ in the peripheral enteric nervous system and central nervous system mediate the effects of the EA treatment of the visceral hyperalgesia of IBS.     

Reduced P2x<Subscript>2</Subscript> receptor-mediated regulation of endocochlear potential in the ageing mouse cochlea

Extracellular adenosine triphosphate (ATP) has profound effects on the cochlea, including an effect on the regulation of the endocochlear potential (EP). Noise-induced release of ATP into the endolymph activates a shunt conductance mediated by P2X₂ receptors in tissues lining the endolymphatic compartment, which reduces the EP and, consequentially, hearing sensitivity. This may be a mechanism of adaptation or protection from high sound levels. As inaction of such a process could contribute to hearing loss, this study examined whether the action of ATP on EP changes with age and noise exposure in the mouse. The EP and the endolymphatic compartment resistance (CoPR) were measured in mice (CBA/CaJ) aged between 3 and 15 months. The EP and CoPR declined slightly with age with an associated small, but significant, reduction in auditory brainstem response thresholds. ATP (100–1,000 μM) microinjected into the endolymphatic compartment caused a dose-dependent decline in EP correlated to a similar decrease in CoPR. This was blocked by pyridoxal-phosphate-6-azophenyl-2′,4′-disulfonate, consistent with a P2X₂ receptor-mediated shunt conductance. There was no substantial difference in the ATP response with age. Noise exposure (octave-band noise 80–100 decibels sound pressure level (dBSPL), 48 h) in young animals induced an upregulation of the P2X₂ receptor expression in the organ of Corti and spiral limbus, most noticeably with the 90-dB exposure. This did not occur in the aged animals except following exposure at 90 dBSPL. The EP response to ATP was muted in the noise-exposed aged animals except following the 90-dB exposure. These findings provide some evidence that the adaptive response of the cochlea to noise may be reduced in older animals, and it is speculated that this could increase their susceptibility to noise-induced injury.     

Quercetin relieved diabetic neuropathic pain by inhibiting upregulated P2X4 receptor in dorsal root ganglia

The upregulation of nociceptive ion channels expressed in dorsal root ganglia (DRG) contributes to the development and retaining of diabetic pain symptoms. The flavonoid quercetin (3,3′,4′,5,7-pentahydroxyflavone) is a component extracted from various fruits and vegetables and exerts anti-inflammatory, analgesic, anticarcinogenic, antiulcer, and antihypertensive effects. However, the exact mechanism underlying quercetin's analgesic action remains poorly understood. The aim of this study was to investigate the effects of quercetin on diabetic neuropathic pain related to the P2X₄ receptor in the DRG of type 2 diabetic rat model. Our data showed that both mechanical withdrawal threshold and thermal withdrawal latency in diabetic rats treated with quercetin were higher compared with those in untreated diabetic rats. The expression levels of P2X₄ messenger RNA and protein in the DRG of diabetic rats were increased compared with the control rats, while quercetin treatment significantly inhibited such enhanced P2X₄ expression in diabetic rats. The satellite glial cells (SGCs) enwrap the neuronal soma in the DRG. Quercetin treatment also lowered the elevated coexpression of P2X₄ and glial fibrillary acidic protein (a marker of SGCs) and decreased the upregulation of phosphorylated p38 mitogen-activated protein kinase (p38MAPK) in the DRG of diabetic rats. Quercetin significantly reduced the P2X₄ agonist adenosine triphosphate-activated currents in HEK293 cells transfected with P2X₄ receptors. Thus, our data demonstrate that quercetin may decrease the upregulation of the P2X₄ receptor in DRG SGCs, and consequently inhibit P2X₄ receptor-mediated p38MAPK activation to relieve the mechanical and thermal hyperalgesia in diabetic rats.     

Distribution of P2Y<Subscript>2</Subscript> receptors in the guinea pig enteric nervous system and its coexistence with P2X<Subscript>2</Subscript> and P2X<Subscript>3</Subscript> receptors,neuropeptide Y,nitric oxide synthase and calretinin

The distribution of P2Y₂ receptor-immunoreactive (ir) neurons and fibers and coexistence of P2Y₂ with P2X₂ and P2X₃ receptors, neuropeptide Y (NPY), calretinin (CR), calbindin (CB) and nitric oxide synthase (NOS) was investigated with immunostaining methods. The results showed that P2Y₂-ir neurons and fibers were distributed widely in myenteric and submucous plexuses of the guinea pig stomach corpus, jejunum, ileum and colon. The typical morphology of P2Y₂-ir neurons was a long process with strong positive staining on the same side of the cell body. The P2Y₂-ir neurons could be Dogiel type 1. About 40–60% P2X₃-ir neurons were immunoreactive for P2Y₂ in the myenteric plexus and all the P2X₃-ir neurons expressed the P2Y₂ receptor in the submucosal plexus; almost all the NPY-ir neurons and the majority of CR-ir neurons were also immunoreactive for P2Y₂, especially in the myenteric plexus of the small intestine; no P2Y₂-ir neurons were immunoreactive for P2X₂ receptors, CB and NOS. It is shown for the first time that S type/Dogiel type 1 neurons with fast P2X and slow P2Y receptor-mediated depolarizations could be those neurons expressing both P2Y₂-ir and P2X₃-ir and that they are widely distributed in myenteric and submucosal plexuses of guinea pig gut.     

姜黄素对糖尿病大鼠疼痛过敏的影响

目的：神经病理性痛是糖尿病最常见的并发症之一,本课题旨在探讨姜黄素对糖尿病大鼠痛觉过敏的影响及其分子机制。方法：30只雄性SD大鼠随机分为对照组、糖尿病组和姜黄素治疗纽,模型纽和姜黄素治疗组利用腹腔注射链脲佐菌素（Streptozotocin,STZ）制备大鼠糖尿病模型,定期检测大鼠血糖、饮食、体重等变化,治疗组于STZ注射2wk后定期灌服姜黄素,分别在2wk和4wk后检测各组大鼠热痛敏和机械痛敏反应,在第4wk利用ELISA分别检测各组大鼠脊髓背角TNF-α表达变化。结果：STZ注射组大鼠2周后出现血糖〉14mol／L,并且该模型具有高血糖、体重增长缓慢、多饮多食多尿的特点,符合Ⅰ型糖尿病特征,痛行为测试结果显示糖尿病大鼠出现痛觉过敏,经过给予姜黄素灌服治疗后,痛觉过敏有所减轻,ELISA分析结果表明糖尿病大鼠脊髓背角TNF-α表达升高,经过姜黄素治疗后TNF-α表达有所下降。结论：成功制备STZ-型糖尿病大鼠模型,经过姜黄素治疗可以减轻糖尿病引起的疼痛过敏,姜黄素对糖尿病疼痛的治疗作用可能是通过降低大鼠脊髓背角TNF-α表达实现的。     

P2X<Subscript>2</Subscript> and P2X<Subscript>3</Subscript> purinoceptors in the rat enteric nervous system

Adenosine 5-triphosphate receptors are known to be involved in fast excitatory postsynaptic currents in myenteric neurons of the digestive tract. In the present study, the distribution of P2X₂ and P2X₃ receptor mRNA was examined by in situ hybridisation while P2X₂ and P2X₃ receptor protein was localised by immunohistochemical methods. In addition, P2X₂ and P2X₃ receptors were colocalised with calbindin and calretinin in the myenteric and submucosal plexus. P2X₂- and P2X₃-immunoreactive neurons were found in the myenteric and submucosal plexuses throughout the entire length of the rat digestive tract from the stomach to the colon. Approximately 60%, 70% and 50% of the ganglion cells in the myenteric plexus of the gastric corpus, ileum and distal colon, and 56% and 45% in the submucosal plexus of the ileum and distal colon, respectively, showed positive immunoreactivity to the P2X₂ receptor. Approximately 10%, 2% and 15% of the ganglion cells in the myenteric plexus of the gastric corpus, ileum and distal colon, and 62% and 40% in the submucosal plexus of the ileum and distal colon, respectively, showed positive immunoreactivity to the P2X₃ receptor. Double-labelling studies showed that about 10–25% of the neurons with P2X₂ immunoreactivity in myenteric plexus and 30–50% in the submucosal plexus were found to express calbindin or calretinin. About 80% of the neurons with P2X₃ receptor immunoreactivity in the myenteric plexus and about 40% in the submucosal plexus expressed calretinin. Approximately 30–75% of the neurons with P2X₃ receptor immunoreactivity in the submucosal plexus expressed calbindin, while none of them were found to express calbindin in the myenteric plexus.     

Localisation of P2Y<Subscript>1</Subscript> and P2Y<Subscript>4</Subscript> receptors in dorsal root,nodose and trigeminal ganglia of the rat

The presence and distribution of P2Y (nucleotide) receptor subtypes in rat sensory neurons has been investigated. RT-PCR showed that P2Y₁, P2Y₂, P2Y₄ and P2Y₆ receptor mRNA is expressed in sensory ganglia [dorsal root ganglion (DRG), nodose ganglion (NG) and trigeminal ganglion (TG)]. The regional and cellular distribution of P2Y₁ and P2Y₄ receptor proteins in these ganglia was investigated using immunohistochemistry. P2Y₁ polyclonal antibodies stained over 80% of the sensory neurons, particularly the small-diameter (neurofilament-negative) neurons. The P2Y₄ receptor antibody stained more medium- and large- (neurofilament-positive) diameter neurons than small-diameter neurons. P2Y₁ and P2Y₄ receptor immunoreactivity (P2Y₁-IR and P2Y₄-IR) was often coexpressed with P2X₃ receptor immunoreactivity (P2X₃-IR) in subpopulations of neurons. Double immunohistochemistry showed that 73–84% of P2X₃ receptor-positive neurons also stained for the P2Y₁ receptor in DRG, TG and NG while only 25–35% also stained for the P2Y₄ receptor. Subpopulations of P2Y₁-IR neurons were coexpressed with NF200, CGRP and IB₄; most P2Y₄-IR neurons were coexpressed with NF200, while only a few neurons were coexpressed with CGRP (10–20%) or with IB₄ (1–2%). The results suggest that P2Y as well as P2X receptor subtypes contribute to purinergic signalling in sensory ganglia.