Your search keyword '"P2X4 receptor"' showing total 313 results

1. Cholesterol metabolites modulate ionotropic P2X4 and P2X7 receptor current in microglia cells

Author

Barraco, Michele, Kudova, Eva, Bucolo, Claudio, Ciranna, Lucia, Sortino, Maria Angela, and Chisari, Mariangela

Published

2025

2. Preparation and preliminary evaluation of a tritium-labeled allosteric P2X4 receptor antagonist.

Author

Nagel, Jessica, Törmäkangas, Olli, Kuokkanen, Katja, El-Tayeb, Ali, Messinger, Josef, Abdelrahman, Aliaa, Bous, Christiane, Schiedel, Anke C., and Müller, Christa E.

Abstract

P2X4 receptors are ATP-gated cation channels that were proposed as novel drug targets due to their role in inflammation and neuropathic pain. Only few potent and selective P2X4 receptor antagonists have been described to date. Labeled tool compounds suitable for P2X4 receptor binding studies are lacking. Here, we present a novel allosteric P2X4 receptor antagonist possessing high potency in the low nanomolar range. We describe its tritium-labeling resulting in the P2X4-selective radiotracer [3H]PSB-OR-2020 with high specific activity (45 Ci/mmol; 1.67 TBq/mmol). A radioligand binding assay was developed using human embryonic kidney (HEK293) cell membranes recombinantly expressing the human P2X4 receptor. Competition binding studies with structurally diverse P2X4 receptor antagonists revealed different allosteric binding sites indicating that the new class of P2X4 receptor antagonists, to which PSB-OR-2020 belongs, interacts with an unprecedented allosteric site. [3H]PSB-OR-2020 may become a useful tool for research on P2X4 receptors and for promoting drug development. [ABSTRACT FROM AUTHOR]

Published

2024

3. The pharmacological blockade of P2X4 receptor as a viable approach to manage visceral pain in a rat model of colitis.

Author

Di Salvo, Clelia, D'Antongiovanni, Vanessa, Benvenuti, Laura, Fornai, Matteo, Valdiserra, Giulia, Natale, Gianfranco, Ryskalin, Larisa, Lucarini, Elena, Mannelli, Lorenzo Di Cesare, Ghelardini, Carla, Colucci, Rocchina, Haskó, György, Pellegrini, Carolina, and Antonioli, Luca

Subjects

*LABORATORY rats, *PURINERGIC receptors, *TIGHT junctions, *NOCICEPTORS, *ABDOMINAL pain, *VISCERAL pain

Abstract

Nowadays, the pharmacological management of visceral hypersensitivity associated with colitis is ineffective. In this context, targeting purinergic P2X4 receptor (P2X4R), which can modulate visceral pain transmission, could represent a promising therapeutic strategy. Herein, we tested the pain-relieving effect of two novel and selective P2X4R antagonists (NC-2600 and NP-1815-PX) in a murine model of DNBS-induced colitis and investigated the mechanisms underlying their effect. Tested drugs and dexamethasone (DEX) were administered orally, two days after colitis induction. Treatment with tested drugs and DEX improved tissue inflammatory parameters (body weight, spleen weight, macroscopic damage, TNF and IL-1β levels) in DNBS-rats. In addition, NC-2600 and NP-1815-PX attenuated visceral pain better than DEX and prevented the reduction of occludin expression. In in vitro studies, treatment of CaCo2 cells with supernatant from THP-1 cells, previously treated with LPS plus ATP, reduced the expression of tight junctions protein. By contrast, CaCo2 cells treated with supernatant from THP-1 cells, previously incubated with tested drugs, counteracted the reduction of tight junctions due to the inhibition of P2X4R/NLRP3/IL-1β axis. In conclusion, these results suggest that the direct and selective inhibition of P2X4R represents a viable approach for the management of visceral pain associated with colitis via NLRP3/IL-1β axis inhibition. [ABSTRACT FROM AUTHOR]

Published

2024

4. Different localization of P2X4 and P2X7 receptors in native mouse lung - lack of evidence for a direct P2X4-P2X7 receptor interaction.

Author

Sierra-Marquez, Juan, Schaller, Lena, Sassenbach, Lukas, Ramírez-Fernández, Antonio, Alt, Philipp, Rissiek, Björn, Zimmer, Béla, Schredelseker, Johann, Hector, Julia, Stähler, Tobias, Koch-Nolte, Friedrich, Staab-Weijnitz, Claudia A., Dietrich, Alexander, Kopp, Robin, and Nicke, Annette

Subjects

KNOCKOUT mice, LUNGS, ALVEOLAR macrophages, TRANSGENIC mice, MICE

Abstract

Introduction: P2X receptors are a family of homo- and heterotrimeric cation channels gated by extracellular ATP. The P2X4 and P2X7 subunits show overlapping expression patterns and have been involved in similar physiological processes, such as pain and inflammation as well as various immune cell functions. While formation of P2X2/P2X3 heterotrimers produces a distinct pharmacological phenotype and has been well established, functional identification of a P2X4/P2X7 heteromer has been difficult and evidence for and against a physical association has been found. Most of this evidence stems, however, from in vitro model systems. Methods: Here, we used a P2X7-EGFP BAC transgenic mouse model as well as P2X4 and P2X7 knock-out mice to re-investigate a P2X4-P2X7 interaction in mouse lung by biochemical and immunohistochemical experiments as well as quantitative expression analysis. Results: No detectable amounts of P2X4 could be co-purified from mouse lung via P2X7-EGFP. In agreement with these findings, immuno-histochemical analysis using a P2X7-specific nanobody revealed only limited overlap in the cellular and subcellular localizations of P2X4 and P2X7 in both the native lung tissue and primary cells. Comparison of P2X4 and P2X7 transcript and protein levels in the respective gene-deficient and wild type mice showed no mutual interrelation between their expression levels in whole lungs. However, a significantly reduced P2rx7 expression was found in alveolar macrophages of P2rx4-/- mice. Discussion: In summary, our detailed analysis of the cellular and subcellular P2X4 and P2X7 localization and expression does not support a physiologically relevant direct association of P2X4 and P2X7 subunits or receptors in vivo. [ABSTRACT FROM AUTHOR]

Published

2024

5. Revealing the Novel Role of Purinergic Receptor P2X4 in Phagocytic Uptake After Ischemic Stroke

Author

Daylin Gamiotea‐Turro, Chunxia G. Cronin, Sanjeev Kumar Yadav, Arun Kumar Yadawa, Mary‐Katherine Cormier, Bruce T. Liang, and Rajkumar Verma

Subjects

ischemic stroke, macrophages, microglia, P2X4 receptor, phagocytosis, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Background Purinergic receptor P2X4 (P2X4R), highly expressed on microglia and macrophages, is activated by ATP released from damaged cells and linked to poststroke inflammation. Previous studies showed that short‐term P2X4R inhibition reduces inflammation and promotes long term recovery, but the mechanism underlying P2X4R and inflammation remains unclear. We hypothesized that P2X4R absence or pharmacological blockade can enhance macrophage phagocytic function by alleviating excessive inflammation after stroke. Methods and Results We divided P2X4R knockout and littermate control mice into 2 groups either naive or mice subjected to ischemic stroke surgery. Additionally, the regular WT mice subjected to ischemic stroke were treated with 5‐(3‐Bromophenyl)‐1,3‐dihydro‐2H‐Benzofuro[3,2‐e]‐1,4‐diazepin‐2‐one BD (a P2X4R inhibitor) or vehicle. We isolated phagocytic cells from mice in each group and assayed phagocytic activity by quantifying uptake of fluorescent beads and bioparticles using flow cytometry or confocal microscopy and by measuring protein expression related to phagocytosis. Short‐term inhibition of P2X4R with with 5‐(3‐Bromophenyl)‐1,3‐dihydro‐2H‐Benzofuro[3,2‐e]‐1,4‐diazepin‐2‐one treatment upregulated ANXA1 (annexinA1). P2X4R absence prevented ATP‐induced decline in phagocytic uptake in macrophages. Microglia or macrophages derived from P2X4R knockout mice showed significantly increased phagocytic activity compared with microglia/macrophages taken from littermate control mice. Cell surface expression of CD36, a scavenger receptor protein, increased after stroke, and was higher in P2X4R knockout mice. Conclusions This study suggests that blockade or absence of P2X4R increases phagocytic uptake of damaged tissue following ischemic stroke. Taken together with previous reports detailing how P2X4R inhibition is protective following stroke, our results demonstrate P2X4R may mediate long‐term resolution after ischemic stroke by enhancing phagocytic clearance.

Published

2024

6. Schwann cells transplantation improves nerve injury and alleviates neuropathic pain in rats

Author

Zhang, Wen-jun, Li, Xi, Liao, Jun-xiang, Hu, Dong-xia, and Huang, Song

Published

2024

7. Different localization of P2X4 and P2X7 receptors in native mouse lung - lack of evidence for a direct P2X4-P2X7 receptor interaction

Author

Juan Sierra-Marquez, Lena Schaller, Lukas Sassenbach, Antonio Ramírez-Fernández, Philipp Alt, Björn Rissiek, Béla Zimmer, Johann Schredelseker, Julia Hector, Tobias Stähler, Friedrich Koch-Nolte, Claudia A. Staab-Weijnitz, Alexander Dietrich, Robin Kopp, and Annette Nicke

Subjects

P2X7 receptor, P2X4 receptor, heteromerization, functional interaction, lung epithelial cells, macrophage, Immunologic diseases. Allergy, RC581-607

Abstract

IntroductionP2X receptors are a family of homo- and heterotrimeric cation channels gated by extracellular ATP. The P2X4 and P2X7 subunits show overlapping expression patterns and have been involved in similar physiological processes, such as pain and inflammation as well as various immune cell functions. While formation of P2X2/P2X3 heterotrimers produces a distinct pharmacological phenotype and has been well established, functional identification of a P2X4/P2X7 heteromer has been difficult and evidence for and against a physical association has been found. Most of this evidence stems, however, from in vitro model systems.MethodsHere, we used a P2X7-EGFP BAC transgenic mouse model as well as P2X4 and P2X7 knock-out mice to re-investigate a P2X4-P2X7 interaction in mouse lung by biochemical and immunohistochemical experiments as well as quantitative expression analysis.ResultsNo detectable amounts of P2X4 could be co-purified from mouse lung via P2X7-EGFP. In agreement with these findings, immuno-histochemical analysis using a P2X7-specific nanobody revealed only limited overlap in the cellular and subcellular localizations of P2X4 and P2X7 in both the native lung tissue and primary cells. Comparison of P2X4 and P2X7 transcript and protein levels in the respective gene-deficient and wild type mice showed no mutual interrelation between their expression levels in whole lungs. However, a significantly reduced P2rx7 expression was found in alveolar macrophages of P2rx4-/- mice.DiscussionIn summary, our detailed analysis of the cellular and subcellular P2X4 and P2X7 localization and expression does not support a physiologically relevant direct association of P2X4 and P2X7 subunits or receptors in vivo.

Published

2024

8. Structural and Functional Features of the P2X4 Receptor: An Immunological Perspective

Author

Kanellopoulos, Jean M, Almeida-da-Silva, Cássio Luiz Coutinho, Boudinot, Sirje Rüütel, and Ojcius, David M

Subjects

Medical Physiology, Biomedical and Clinical Sciences, Neurosciences, 2.1 Biological and endogenous factors, Animals, Antibodies, Monoclonal, Cell Degranulation, Encephalomyelitis, Autoimmune, Experimental, Ethanol, Humans, Inflammasomes, Inflammation, Mast Cells, Purinergic P2X Receptor Antagonists, Receptors, Antigen, T-Cell, Receptors, Purinergic P2X4, Receptors, Purinergic P2X7, purinergic receptor, innate immunity, inflammasome, NLRP3, ATP, P2X4 receptor, P2X7 receptor, anti-P2X4 mAb, Immunology, Medical Microbiology, Biochemistry and cell biology, Genetics

Abstract

Extracellular nucleotides are important mediators of activation, triggering various responses through plasma membrane P2 and P1 receptors. P2 receptors are further subdivided into ionotropic P2X receptors and G protein-coupled P2Y receptors. P2X4 is an ATP-gated cation channel broadly expressed in most tissues of the body. Within the P2X family, P2X4 has a unique subcellular distribution, being preferentially localized in lysosomes. In these organelles, high ATP concentrations do not trigger P2X4 because of the low pH. However, when the pH increases to 7.4, P2X4 can be stimulated by intra-lysosomal ATP, which is in its active, tetra-anionic form. Elucidation of P2X4, P2X3 and P2X7 structures has shed some light on the functional differences between these purinergic receptors. The potential interaction between P2X4 and P2X7 has been extensively studied. Despite intensive effort, it has not been possible yet to determine whether P2X4 and P2X7 interact as heterotrimers or homotrimers at the plasma membrane. However, several publications have shown that functional interactions between P2X4 and P2X7 do occur. Importantly, these studies indicate that P2X4 potentiates P2X7-dependent activation of inflammasomes, leading to increased release of IL-1β and IL-18. The role of P2X4 in various diseases could be beneficial or deleterious even though the pathophysiological mechanisms involved are still poorly defined. However, in diseases whose physiopathology involves activation of the NLRP3 inflammasome, P2X4 was found to exacerbate severity of disease. The recent production of monoclonal antibodies specific for the human and mouse P2X4, some of which are endowed with agonist or antagonist properties, raises the possibility that they could be used therapeutically. Analysis of single nucleotide polymorphisms of the human P2RX4 gene has uncovered the association of P2RX4 gene variants with susceptibility to several human diseases.

Published

2021

9. ATP release mediated by pannexin-3 is required for plasma cell survival via P2X4 receptors in bone marrow

Author

Paz-López, Sonia

Published

2024

10. Intrathecal Injection of Botulinum Toxin Type A has an Analgesic Effect in Male Rats CCI Model by Inhibiting the Activation of Spinal P2X4R.

Author

Zhou, Wen-ming, Lei, Ze-yuan, Shi, Yong-qiang, Gong, Chao-yang, Kai, Zhang, Wei, Nan, Wang, Lin-na, Zhang, Cheng-jun, and Zhang, Hai-hong

Subjects

*BOTULINUM A toxins, *BOTULINUM toxin, *INTRATHECAL injections, *SCIATIC nerve injuries, *ANIMAL disease models, *PURINERGIC receptors, *CLOSTRIDIUM botulinum

Abstract

Purinergic receptor P2X4 (P2X4R) plays an essential role in neuropathic pain. However, the specific mechanism needs to be clarified. Botulinum toxin type A is a neurotoxin produced by Clostridium botulinum type A. This study found that intrathecal injection of botulinum toxin type A produced an excellent analgesic effect in a rat model of chronic constriction sciatic nerve injury and inhibited the activation of P2X4R, microglia, and astrocytes. The administration of a P2X4R activator can up-regulate the expression of P2X4R and eliminate the analgesic effect of intrathecal injection of botulinum toxin type A. In addition, we found that microglia and astrocytes in the spinal cord of rats injected with botulinum toxin type A were reactivated after administration of the P2X4R activator. Our results suggest that intrathecal injection of botulinum toxin type A has an analgesic effect in a rat model of chronic constriction sciatic nerve injury by inhibiting the activation of P2X4R in the spinal cord. [ABSTRACT FROM AUTHOR]

Published

2023

11. Activation of P2X4 receptors in midbrain cerebrospinal fluid-contacting nucleus leads to mechanical hyperalgesia in chronic constriction injury rats.

Author

Song, Wei, Yong, Yue, Zhou, Yalan, Lu, Liyue, Yu, Guijie, Tang, Wei, Wang, Jian, Guo, Jun, Li, Lili, Zhang, Licai, and Song, Jiangang

Abstract

Neuropathic pain is a refractory pain state, and its mechanism is still not clear. Previous studies have shown that the purine receptor P2X4R expressed on hyperactive microglia in the spinal cord is essential for the occurrence and development of neuropathic pain. The cerebrospinal fluid-contacting nucleus (CSF-contacting nucleus) in the midbrain has been found to play an important role in the descending inhibition system of modulation. However, there have been no studies on P2X4R in the CSF-contacting nucleus involved in neuropathic pain. To investigate whether P2X4R is expressed in the CSF-contacting nucleus and whether its expression in the CSF-contacting nucleus is involved in the regulation of neuropathic pain, we used a model of chronic sciatic nerve ligation injury (CCI) to simulate neuropathic pain conditions. Immunohistochemistry experiments were conducted to identify the expression of P2X4R in the CSF-contacting nuclei in CCI rats, and western blot analysis showed a significant increase in P2X4R levels 7 days after modeling. Then, we packaged a P2rx4 gene-targeting shRNA in scAAV9 to knock down the P2X4R level in the CSF-contacting nucleus, and we found that CCI-induced mechanical hyperalgesia was reversed. In conclusion, P2X4R expressed in the CSF-contacting nucleus is involved in the process of neuropathic pain, and downregulating P2X4R protein in the CSF-contacting nucleus can reverse the occurrence and development of hyperalgesia, which could represent a potent therapeutic strategy for neuropathic pain. [ABSTRACT FROM AUTHOR]

Published

2023

12. Pharmacological modulation of P2X4 in inflammatory bowel diseases: the way towards novel therapeutics?

Author

D'Antongiovanni, Vanessa, Pellegrini, Carolina, Fornai, Matteo, Nemeth, Zoltan H., Haskó, György, and Antonioli, Luca

Subjects

*INFLAMMATORY bowel diseases, *CROHN'S disease, *ULCERATIVE colitis, *THERAPEUTICS, *VISCERAL pain, *PURINERGIC receptors, *ESOPHAGEAL motility disorders

Abstract

Inflammatory bowel diseases (IBDs) are a group of idiopathic, chronic, relapsing, inflammatory conditions, which include ulcerative colitis (UC) and Crohn's disease (CD). These disorders are characterised by intestinal symptoms associated with chronic inflammation of the intestinal mucosa, such as gut dysmotility and visceral pain. Currently, the pharmacological management of IBD patients is far from satisfactory in terms of efficacy and safety, thus spurring the interest of the scientific community to identify novel molecular targets for the management of these disorders. According to recent research, it appears that P2 purinergic receptors, which can regulate the host's response to inflammation, have been identified as potential targets for the treatment of IBDs. In particular, among P2 receptors, the P2X4 receptor subtype has recently captured the attention of the research community owing to its role in shaping immune/inflammatory responses. Based on this evidence, the present review has been conceived to provide a critical appraisal of the available knowledge about the role of P2X4R subtype in the pathophysiological mechanisms underlying IBDs, pointing out its potential as therapeutic target to develop innovative therapeutic strategies aimed at counteracting the inflammatory process, gut dysmotility and visceral hypersensitivity associated with these disorders. [ABSTRACT FROM AUTHOR]

Published

2023

13. Modulation of osteoblast differentiation and function by the P2X4 receptor.

Author

Orriss, Isabel R., Davies, Bethan K., Bourne, Lucie E., and Arnett, Timothy R.

Abstract

Bone cells are known to express multiple P2 receptor subtypes, and the functional effects of receptor activation have been described for many of these. One exception is the P2X4 receptor, which despite strong expression in osteoblasts and osteoclasts, has no defined functional activity. This study used the selective P2X4 receptor antagonists, 5-BDBD and PSB-12062, to investigate the role of this receptor in bone. Both antagonists (≥ 0.1 μM) dose-dependently decreased bone formation by 60–100%. This was accompanied by a ≤ 70% decrease in alkaline phosphatase activity, a ≤ 40% reduction in cell number, and a ≤ 80% increase in the number of adipocytes present in the culture. The analysis of gene expression showed that levels of osteoblast marker genes (e.g. Alpl, Bglap) were decreased in 5-BDBD treated cells. Conversely, expression of the adipogenic transcription factor PPARG was increased 10-fold. In osteoclasts, high doses of both antagonists were associated with a reduction in osteoclast formation and resorptive activity by ≤ 95% and ≤ 90%, respectively. Taken together, these data suggest that the P2X4 receptor plays a role in modulating bone cell function. In particular, it appears to influence osteoblast differentiation favouring the osteogenic lineage over the adipogenic lineage. [ABSTRACT FROM AUTHOR]

Published

2023

14. Purinergic regulation of mast cell function: P2X4 receptor-mediated enhancement of allergic responses

Author

Isao Matsuoka, Kazuki Yoshida, and Masa-aki Ito

Subjects

ATP, P2X4 receptor, Mast cells, Degranulation, Allergic response, Therapeutics. Pharmacology, RM1-950

Abstract

Adenosine triphosphate (ATP) initially attracted attention as a neurotransmitter, with much research conducted on the regulation of neurotransmission in the autonomic and central nervous systems. ATP is also abundant as an energy currency in all living cells and is released into extracellular spaces by various regulated mechanisms. The role of ATP and related purine and pyrimidine nucleotides as extracellular signaling molecules in the regulation of immune cell functions has been reported as evidence for purinergic signaling and has become the focus of attention as therapeutic targets for various diseases. Mast cells (MCs) are distributed in tissues in contact with the outside environment and are the first immune cells to respond to non-microbial environmental antigens. Although extracellular ATP is known as an activator of MCs, the details remain to be investigated. Based on our series of studies, this review describes the unique features of ionotropic P2X4 receptor signals in MC functions. The role of purinergic signaling may exist in combination with various physiological, chemical and physical stimuli. The characteristics of P2X4 receptor-mediated action in MCs described in this article may provide clues to reveal the previously unknown effects induced by purinergic signaling.

Published

2022

15. P2X4 receptor modulates gut inflammation and favours microbial homeostasis in colitis.

Author

Zhong, Peijie, Wu, Hang, Ma, Yuanqiao, Xu, Xiaoxiao, Jiang, Yizhuo, Jin, Chaolei, Zhu, Qiaozhen, Liu, Xinlei, Suo, Zhimin, and Wang, Junpeng

Subjects

*INFLAMMATORY bowel diseases, *COLITIS, *CROHN'S disease, *INTESTINAL diseases, *ULCERATIVE colitis, *GABA receptors

Abstract

Background: Inflammatory bowel disease (IBD) is a non‐specific chronic inflammatory disease of the intestine. In addition to genetic susceptibility, environmental factors and dysregulated host immunity, the gut microbiota is implicated in the pathogenesis of Crohn's disease (CD) or ulcerative colitis (UC), the two primary types of IBD. The P2X4 receptor has been demonstrated to have a crucial role in preventing infection, inflammation, and organ damage. However, it remains unclear whether the P2X4 receptor affects IBD and the underlying mechanisms. Methods: Colitis was induced in mice administrated with dextran sodium sulphate (DSS). 16S rDNA sequencing was used to analyze the gut microbiota in knockout and wild‐type mice. Clinical and histopathological parameters were monitored throughout the disease progression. Results: Gene Expression Omnibus analysis showed the downregulation of P2RX4 (P2rx4) expression in colonic tissues from patients or mice with IBD. However, its expression at the protein levels was upregulated on day 4 or 6 and then downregulated on day 7 in C57BL/6 mice treated with DSS. Gene ablation of P2rx4 aggravated DSS‐induced colitis accompanying gut microbiota dysbiosis in mice. Moreover, P2X4 receptor‐positive modulator ivermectin alleviated colitis and corrected dysregulated microbiota in wild‐type C57BL/6 mice. Further antibiotic‐treated gut microbiota depletion, cohousing experiment, and fecal microbiota transplantation proved that gut microbiota dysbiosis was associated with the aggravation of colitis in the mouse model initiated by P2rx4. Conclusions: Our findings elaborate on an unrevealed etiopathophysiological mechanism by which microbiota dysbiosis induced by the P2X4 receptor influences the development of colitis, indicating that the P2X4 receptor represents a promising target for treating patients with CD and UC. [ABSTRACT FROM AUTHOR]

Published

2023

16. Neuronal P2X4 receptor may contribute to peripheral inflammatory pain in rat spinal dorsal horn.

Author

Ducza, László, Gajtkó, Andrea, Hegedűs, Krisztina, Bakk, Erzsébet, Kis, Gréta, Gaál, Botond, Takács, Roland, Szücs, Péter, Matesz, Klára, and Holló, Krisztina

Subjects

DORSAL root ganglia, GRAY matter (Nerve tissue), WESTERN immunoblotting, GANGLIA, GENE expression, EXPERIMENTAL arthritis

Abstract

Objective: Intense inflammation may result in pain, which manifests as spinal central sensitization. There is growing evidence that purinergic signaling plays a pivotal role in the orchestration of pain processing. Over the last decade the ionotropic P2X purino receptor 4 (P2X4) got into spotlight in neuropathic disorders, however its precise spinal expression was scantily characterized during inflammatory pain. Thus, we intended to analyze the receptor distribution within spinal dorsal horn and lumbar dorsal root ganglia (DRG) of rats suffering in inflammatory pain induced by complete Freund adjuvant (CFA). Methods: CFA-induced peripheral inflammation was validated by mechanical and thermal behavioral tests. In order to ensure about the putative alteration of spinal P2X4 receptor gene expression qPCR reactions were designed, followed by immunoperoxidase and Western blot experiments to assess changes at a protein level. Colocalization of P2X4 with neuronal and glial markers was investigated by double immunofluorescent labelings, which were subsequently analyzed with IMARIS software. Transmission electronmicroscopy was applied to study the ultrastructural localization of the receptor. Concurrently, in lumbar DRG cells similar methodology has been carried out to complete our observations. Results: The figures of mechanical and thermal behavioral tests proved the establishment of CFA-induced inflammatory pain. We observed significant enhancement of P2X4 transcript level within the spinal dorsal horn 3 days upon CFA administration. Elevation of P2X4 immunoreactivity within Rexed lamina I-II of the spinal gray matter was synchronous with mRNA expression, and confirmed by protein blotting. According to IMARIS analysis the robust protein increase was mainly detected on primary afferent axonterminals and GFAP-labelled astrocyte membrane compartments, but not on postsynaptic dendrites was also validated ultrastructurally within the spinal dorsal horn. Furthermore, lumbar DRG analysis demonstrated that peptidergic and non-peptidergic nociceptive subsets of ganglia cells were also abundantly positive for P2X4 receptor in CFA model. Conclusion: Here we provide novel evidence about involvement of neuronal and glial P2X4 receptor in the establishment of inflammatory pain. [ABSTRACT FROM AUTHOR]

Published

2023

17. Long non-coding RNA MSTRG.81401 short hairpin RNA relieves diabetic neuropathic pain and behaviors of depression by inhibiting P2X4 receptor expression in type 2 diabetic rats.

Author

Sun, Mengyun, Zhang, Mingming, Yin, Haoming, Tu, Hongcheng, Wen, Yuqing, Wei, Xingyu, shen, Wenhao, Huang, Ruoyu, Xiong, Wei, Li, Guodong, and Gao, Yun

Abstract

Patients with diabetic neuropathic pain (DNP) experience immense physical and mental suffering, which is comorbid with other mental disorders, including major depressive disorder (MDD). P2X4 receptor, one of the purinergic receptors, is a significant mediator of DNP and MDD. The present study aimed to identify the roles and mechanisms of MSTRG.81401, a long non-coding RNA (lncRNA), in alleviating DNP and MDD-like behaviors in type 2 diabetic rats. After administration with MSTRG.81401 short hairpin RNA (shRNA), the model + MSTRG.81401 shRNA group demonstrated increased mechanical withdrawal threshold, thermal withdrawal latency, open-field test, and sucrose preference test; however, immobility time on the forced swimming test decreased. MSTRG.81401 shRNA administration significantly decreased the expression of the P2X4 receptor, tumor necrosis factor-α, and interleukin-1β in the hippocampus and spinal cord in the model + MSTRG.81401 shRNA group. Simultaneously, MSTRG.81401 shRNA administration downregulated phosphorylation of ERK1/2 in the hippocampus and spinal cord. Thus, lncRNA MSTRG.81401 shRNA can alleviate DNP and MDD-like behaviors in type 2 diabetic rats and may downregulate the expression of P2X4 receptors in the hippocampus and spinal cord of rats. [ABSTRACT FROM AUTHOR]

Published

2023

18. Cross Talk on P2X4 Purinergic Receptors and Neuropathic Pain

Author

Ameenudeen, Shabnam and Srinivasan, Hemalatha

Published

2023

19. Neuronal P2X4 receptor may contribute to peripheral inflammatory pain in rat spinal dorsal horn

Author

László Ducza, Andrea Gajtkó, Krisztina Hegedűs, Erzsébet Bakk, Gréta Kis, Botond Gaál, Roland Takács, Péter Szücs, Klára Matesz, and Krisztina Holló

Subjects

inflammatory pain, spinal dorsal horn, P2X4 receptor, central sensitization, primary afferents, glial cells, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

ObjectiveIntense inflammation may result in pain, which manifests as spinal central sensitization. There is growing evidence that purinergic signaling plays a pivotal role in the orchestration of pain processing. Over the last decade the ionotropic P2X purino receptor 4 (P2X4) got into spotlight in neuropathic disorders, however its precise spinal expression was scantily characterized during inflammatory pain. Thus, we intended to analyze the receptor distribution within spinal dorsal horn and lumbar dorsal root ganglia (DRG) of rats suffering in inflammatory pain induced by complete Freund adjuvant (CFA).MethodsCFA-induced peripheral inflammation was validated by mechanical and thermal behavioral tests. In order to ensure about the putative alteration of spinal P2X4 receptor gene expression qPCR reactions were designed, followed by immunoperoxidase and Western blot experiments to assess changes at a protein level. Colocalization of P2X4 with neuronal and glial markers was investigated by double immunofluorescent labelings, which were subsequently analyzed with IMARIS software. Transmission electronmicroscopy was applied to study the ultrastructural localization of the receptor. Concurrently, in lumbar DRG cells similar methodology has been carried out to complete our observations.ResultsThe figures of mechanical and thermal behavioral tests proved the establishment of CFA-induced inflammatory pain. We observed significant enhancement of P2X4 transcript level within the spinal dorsal horn 3 days upon CFA administration. Elevation of P2X4 immunoreactivity within Rexed lamina I-II of the spinal gray matter was synchronous with mRNA expression, and confirmed by protein blotting. According to IMARIS analysis the robust protein increase was mainly detected on primary afferent axonterminals and GFAP-labelled astrocyte membrane compartments, but not on postsynaptic dendrites was also validated ultrastructurally within the spinal dorsal horn. Furthermore, lumbar DRG analysis demonstrated that peptidergic and non-peptidergic nociceptive subsets of ganglia cells were also abundantly positive for P2X4 receptor in CFA model.ConclusionHere we provide novel evidence about involvement of neuronal and glial P2X4 receptor in the establishment of inflammatory pain.

Published

2023

20. Imperatorin Improves Obesity-Induced Cardiac Sympathetic Nerve Injury Mediated by P2X4 Receptor in Stellate Sympathetic Ganglion.

Author

Zhang, Mingming, Wen, Yuqing, Liang, Peiwen, Yang, Changsen, Tu, Hongcheng, Wei, Jingyi, Du, Junpei, Zhan, Ting, Liang, Shangdong, Li, Guodong, and Gao, Yun

Subjects

*STELLATE ganglion, *INNERVATION of the heart, *NERVOUS system injuries, *SYMPATHETIC nervous system, *MOLECULAR docking

Abstract

Obesity can activate the inflammatory signal pathway, induce in the body a state of chronic inflammation, and increase the excitability of the sympathetic nervous system, which may induce sympathetic neuropathic injury. The stellate sympathetic ganglia (SG) can express the P2X4 receptor, and the abnormal expression of the P2X4 receptor is related to inflammation. Imperatorin (IMP) is a kind of furan coumarin plant which has anti-inflammatory effects. This project aimed to investigate whether IMP can affect the expression of P2X4 receptors in the SG of obese rats to display a protective effect from high-fat-triggered cardiac sympathetic neuropathic injury. Molecular docking through homology modelling revealed that IMP had good affinity for the P2X4 receptor. Our results showed that compared with the normal group, the administration of IMP or P2X4 shRNA decreased sympathetic excitement; reduced the serum levels of triglyceride, total cholesterol, and lactate dehydrogenase; downregulated the expression of P2X4 receptors in SG; and inhibited the expression of inflammatory factors in the SG and serum of obese rats significantly. In addition, the expression of factors associated with the cell pyroptosis GSDMD, caspase-1, NLRP-3, and IL-18 in obese rats were significantly higher than those of the normal rats, and such effects were decreased after treatment with IMP or P2X4 shRNA. Furthermore, IMP significantly reduced the ATP-activated currents in HEK293 cells transfected with P2X4 receptor. Thus, the P2X4 receptor may be a key target for the treatment of obesity-induced cardiac sympathetic excitement. IMP can improve obesity-induced cardiac sympathetic excitement, and its mechanism of action may be related to the inhibition of P2X4 receptor expression and activity in the SG, suppression of cellular pyroptosis in the SG, and reduction of inflammatory factor levels. [ABSTRACT FROM AUTHOR]

Published

2023

21. β1 Integrin induces adhesion and migration of human Th17 cells via Pyk2‐dependent activation of P2X4 receptor.

Author

Hamoudi, Chakib, Muheidli, Abbas, and Aoudjit, Fawzi

Subjects

*T helper cells, *FIBRONECTINS, *FOCAL adhesion kinase, *INTEGRINS, *CELL receptors, *CELL migration, *EXTRACELLULAR matrix proteins, *CELL migration inhibition, *BACTERIAL adhesion

Abstract

Integrin‐mediated T‐cell adhesion and migration is a crucial step in immune response and autoimmune diseases. However, the underlying signalling mechanisms are not fully elucidated. In this study, we examined the implication of purinergic signalling, which has been associated with T‐cell activation, in the adhesion and migration of human Th17 cells across fibronectin, a major matrix protein associated with inflammatory diseases. We showed that the adhesion of human Th17 cells to fibronectin induces, via β1 integrin, a sustained release of adenosine triphosphate (ATP) from the mitochondria through the pannexin‐1 hemichannels. Inhibition of ATP release or its degradation with apyrase impaired the capacity of the cells to attach and migrate across fibronectin. Inhibition studies identified a major role for the purinergic receptor P2X4 in T‐cell adhesion and migration but not for P2X7 or P2Y11 receptors. Blockade of P2X4 but not P2X7 or P2Y11 receptors reduced cell adhesion and migration by inhibiting activation of β1 integrins, which is essential for ligand binding. Furthermore, we found that β1 integrin‐induced ATP release, P2X4 receptor transactivation, cell adhesion and migration were dependent on the focal adhesion kinase Pyk2 but not FAK. Finally, P2X4 receptor inhibition also blocked fibronectin‐induced Pyk2 activation suggesting the existence of a positive feedback loop of activation between β1 integrin/Pyk2 and P2X4 purinergic signalling pathways. Our findings uncovered an unrecognized link between β1 integrin and P2X4 receptor signalling pathways for promoting T‐cell adhesion and migration across the extracellular matrix. [ABSTRACT FROM AUTHOR]

Published

2023

22. Purinergic Receptors P2X7 and P2X4 as Markers of Disease Progression in the rd10 Mouse Model of Inherited Retinal Dystrophy.

Author

Martínez-Gil, Natalia, Kutsyr, Oksana, Noailles, Agustina, Fernández-Sánchez, Laura, Vidal, Lorena, Sánchez-Sáez, Xavier, Sánchez-Castillo, Carla, Lax, Pedro, Cuenca, Nicolás, García, Antonio G., and Maneu, Victoria

Subjects

*PURINERGIC receptors, *RETINAL degeneration, *DISEASE progression, *MACULAR degeneration, *LABORATORY mice, *ANIMAL disease models

Abstract

The purinergic receptor P2X7 (P2X7R) is implicated in all neurodegenerative diseases of the central nervous system. It is also involved in the retinal degeneration associated with glaucoma, age-related macular degeneration, and diabetic retinopathy, and its overexpression in the retina is evident in these disorders. Retinitis pigmentosa is a progressive degenerative disease that ultimately leads to blindness. Here, we investigated the expression of P2X7R during disease progression in the rd10 mouse model of RP. As the purinergic receptor P2X4 is widely co-expressed with P2X7R, we also studied its expression in the retina of rd10 mice. The expression of P2X7R and P2X4R was examined by immunohistochemistry, flow cytometry, and western blotting. In addition, we analyzed retinal functionality by electroretinographic recordings of visual responses and optomotor tests and retinal morphology. We found that the expression of P2X7R and P2X4R increased in rd10 mice concomitant with disease progression, but with different cellular localization. Our findings suggest that P2X7R and P2X4R might play an important role in RP progression, which should be further analyzed for the pharmacological treatment of inherited retinal dystrophies. [ABSTRACT FROM AUTHOR]

Published

2022

23. Pinocembrin Inhibits P2X4 Receptor–Mediated Pyroptosis in Hippocampus to Alleviate the Behaviours of Chronic Pain and Depression Comorbidity in Rats.

Author

Yang, Runan, Yang, Jingjian, Li, Zijing, Su, Ruichen, Zou, Lifang, Li, Lin, Xu, Xiumei, Li, Guilin, Liu, Shuangmei, Liang, Shangdong, and Xu, Changshui

Abstract

Neuroinflammation is critical to the comorbidity of chronic pain and depression. Pyroptosis is an inflammatory cell death that is different from apoptosis. Activation of the P2X4 receptor leads to inflammation and is involved in chronic pain and depression. Pinocembrin (5,7-dihydroxyflavanone) is a natural flavonoid compound with anti-inflammatory, antioxidant and neuroprotective effects. In this study, an animal model of chronic pain and depression comorbidity was used to explore the therapeutic effect of pinocembrin in P2X4-mediated pyroptosis. The results showed that nociceptive behaviours and depression-like behaviours were obvious in the model rats induced by chronic constrictive injury (CCI) and chronic unpredictable mild stimulus (CUMS). In the model rats, the mRNA and protein levels of the P2X4 receptor in the hippocampus were increased, and the coexpression of P2X4 and the astrocyte marker glial fibrillary acidic protein (GFAP) in the hippocampus was increased. The protein content of connexion 43 (Cx43), NOD-like receptor protein 3 (NLRP3), apoptosis-associated speck-like protein containing a caspase recruitment domain (ASC) and caspase-1 was increased. The serum content of IL-1β and the mRNA and protein expression of IL-1β were increased. The protein content of p-P38MAPK was increased. After treatment with pinocembrin in the model rats, these behavioural changes were improved, and the mRNA and protein levels of the above indicators were decreased. The results of molecular docking confirmed that the affinity of pinocembrin and the P2X4 receptor was − 7.8 (kcal/mol). At the same time, pinocembrin inhibited the ATP release and Ca2+ signal release in primary astrocytes and ATP-activated current of HEK293 cells transfected with the pcDNA3.0-EGFP-hP2X4 plasmid. Therefore, pinocembrin relieved nociceptive and depression-like behaviours in rats with chronic pain and depression comorbidity by inhibiting P2X4 receptor–mediated pyroptosis in the hippocampus. The mechanism of pinocembrin in treating rats with chronic pain and depression comorbidity. GJ stands for gap junction, and Cx43 is mainly expressed in astrocytes. [ABSTRACT FROM AUTHOR]

Published

2022

24. Piperazine-based P2X4 receptor antagonists.

Author

Erlitz KS, Siutkina AI, Prinz AK, Koch O, Kalinin DV, and Junker A

Subjects

Structure-Activity Relationship, Humans, Molecular Structure, Piperazine pharmacology, Piperazine chemistry, Piperazine chemical synthesis, Animals, Dose-Response Relationship, Drug, Purinergic P2X Receptor Antagonists pharmacology, Purinergic P2X Receptor Antagonists chemical synthesis, Purinergic P2X Receptor Antagonists chemistry, Piperazines pharmacology, Piperazines chemical synthesis, Piperazines chemistry, Receptors, Purinergic P2X4 metabolism

Abstract

The P2X4 receptor (P2X4R), a ligand-gated ion channel activated by ATP, plays a critical role in neuroinflammation, chronic pain, and cancer progression, making it a promising therapeutic target. In this study, we explored the design and synthesis of piperazine-based P2X4R antagonists, building on the structural framework of paroxetine. A series of over 35 compounds were synthesized to investigate structure-activity relationships (SARs) in a Ca²⁺-flux assay for P2X4R antagonistic activity. Several compounds outperformed paroxetine in terms of antagonistic P2X4R potency. Further studies on absorption, distribution, metabolism, excretion properties revealed that increased lipophilicity often correlated with high plasma protein binding and decreased metabolic stability, particularly in compounds with a naphthalene-2-yloxy group. Although promising SARs were observed, further optimization is needed to enhance antagonistic P2X4R receptor activity. This work provides important insights into the development of piperazine-based P2X4R antagonists and lays the foundation for future therapeutic advancements targeting P2X4R-related diseases., (© 2024 The Author(s). Archiv der Pharmazie published by Wiley‐VCH GmbH on behalf of Deutsche Pharmazeutische Gesellschaft.)

Published

2025

25. Short- and long-term administration of buprenorphine improved gene expression of P2X4 and GABAA receptors in the hippocampus of methamphetamine rats

Author

Shima Roshani, Homeira Hatami Nemati, Reihaneh Sadeghian, and Hana Azizi Khoshsirat

Subjects

Buprenorphine, P2X4 receptor, γ-Amino-butyric acid A, Hippocampus, Methamphetamine, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

P2X4 receptors modulate synaptic transmission and communication among neurons in the CNS. An increased level of neuronal P2X4 is associated with altered memory in the hippocampal region. Additionally, some evidence suggests that P2X receptors downregulate the GABAA receptors. In the microglia of drug users, methamphetamine (METH) modifies the expression of certain genes. Therefore, the alterations of P2X4 and GABAA gene expression on memory following treatment with/without buprenorphine (BUP) in METH rats were evaluated. Seventy-seven rats were allocated into eleven groups at random (n = 7). Control, METH (10 mg/kg), BUP (6 and 10 mg/kg) for 5 days, BUP (6 and 10 mg/kg) for 14 days, METH (10 mg/kg) + BUP (6 and 10 mg/kg) for 5 days, METH + BUP (6 and 10 mg/kg) for 14 days and withdrawal group. They received their treatments intraperitoneally. After memory assessment, the animals were decapitated, and the gene expression of P2X4 and GABAA receptors in the hippocampus was assayed using RT-PCR. The memory and P2X4 and GABAA receptor gene expression in METH rats were reduced compared to the control group. The administration of all the different BUP doses increased gene expression in (BUP 6 or 10 mg/kg. 5 days and BUP.10 mg/kg.14 days) + METH groups compared to METH rats. These results demonstrated that METH toxicity severely decreased the level of P2X4 gene expression. Meanwhile, treatment of BUP led to increasing levels of the mentioned gene. Therefore, the potential role of P2X4 and GABAA receptor genes in modulating METH addiction is addressed.

Published

2022

26. 6-Furopyridine Hexamethylene Amiloride Is a Non-Selective P2X7 Receptor Antagonist.

Author

Cuthbertson, Peter, Elhage, Amal, Al-Rifai, Dena, Sophocleous, Reece A., Turner, Ross J., Aboelela, Ashraf, Majed, Hiwa, Bujaroski, Richard S., Jalilian, Iman, Kelso, Michael J., Watson, Debbie, Buckley, Benjamin J., and Sluyter, Ronald

Subjects

*AMILORIDE, *CYCLOHEXANE, *CHEMICAL libraries, *T cells, *LEUCOCYTES

Abstract

P2X7 is an extracellular adenosine 5′-triphopshate (ATP)-gated cation channel present on leukocytes, where its activation induces pro-inflammatory cytokine release and ectodomain shedding of cell surface molecules. Human P2X7 can be partially inhibited by amiloride and its derivatives at micromolar concentrations. This study aimed to screen a library of compounds derived from amiloride or its derivative 5-(N,N-hexamethylene) amiloride (HMA) to identify a potential P2X7 antagonist. 6-Furopyridine HMA (6-FPHMA) was identified as a novel P2X7 antagonist and was characterized further. 6-FPHMA impaired ATP-induced dye uptake into human RPMI8226 multiple myeloma cells and human P2X7-HEK293 cells, in a concentration-dependent, non-competitive manner. Likewise, 6-FPHMA blocked ATP-induced Ca2+ fluxes in human P2X7-HEK293 cells in a concentration-dependent, non-competitive manner. 6-FPHMA inhibited ATP-induced dye uptake into human T cells, and interleukin-1β release within human blood and CD23 shedding from RPMI8226 cells. 6-FPHMA also impaired ATP-induced dye uptake into murine P2X7- and canine P2X7-HEK293 cells. However, 6-FPHMA impaired ATP-induced Ca2+ fluxes in human P2X4-HEK293 cells and non-transfected HEK293 cells, which express native P2Y1, P2Y2 and P2Y4. In conclusion, 6-FPHMA inhibits P2X7 from multiple species. Its poor selectivity excludes its use as a specific P2X7 antagonist, but further study of amiloride derivatives as P2 receptor antagonists is warranted. [ABSTRACT FROM AUTHOR]

Published

2022

27. The P2X4 Receptor: Cellular and Molecular Characteristics of a Promising Neuroinflammatory Target.

Author

Sophocleous, Reece Andrew, Ooi, Lezanne, and Sluyter, Ronald

Subjects

*CELL communication, *ADENOSINES, *CELL receptors, *NEUROLOGICAL disorders, *HUMAN physiology, *CELL physiology

Abstract

The adenosine 5′-triphosphate-gated P2X4 receptor channel is a promising target in neuroinflammatory disorders, but the ability to effectively target these receptors in models of neuroinflammation has presented a constant challenge. As such, the exact role of P2X4 receptors and their cell signalling mechanisms in human physiology and pathophysiology still requires further elucidation. To this end, research into the molecular mechanisms of P2X4 receptor activation, modulation, and inhibition has continued to gain momentum in an attempt to further describe the role of P2X4 receptors in neuroinflammation and other disease settings. Here we provide an overview of the current understanding of the P2X4 receptor, including its expression and function in cells involved in neuroinflammatory signalling. We discuss the pharmacology of P2X4 receptors and provide an overview of P2X4-targeting molecules, including agonists, positive allosteric modulators, and antagonists. Finally, we discuss the use of P2X4 receptor modulators and antagonists in models of neuroinflammatory cell signalling and disease. [ABSTRACT FROM AUTHOR]

Published

2022

28. Catestatin enhances ATP-induced activation of glial cells mediated by purinergic receptor P2X4.

Author

Du, Errong, Wang, Anhui, Fan, Rongping, Rong, Lilou, Yang, Runan, Xing, Juping, Shi, Xiangchao, Qiao, Bao, Yu, Ruoyang, and Xu, Changshui

Abstract

The activation of glial cells and its possible mechanism play an extremely important role in understanding the pathophysiological process of some clinical diseases, and catestatin (CST) is involved in regulating this activation. In this project, we found that CST could enhance the activation of satellite glial cells (SGCs) and microglial cells and that the expression of P2X4 was increased; the co-expression of the P2X4 receptor with glial fibrillary acidic protein (GFAP) and the P2X4 receptor with CD11b was also increased significantly in glial cells of the ATP + CST group, and TNF-α and IL-1β also showed a rising trend; the expression of phosphorylated ERK1/2 was also increased in the ATP + CST group. In summary, we conclude that CST could enhance ATP-induced activation of SGCs and microglial cells mediated by the P2X4 receptor and that the ERK1/2 signaling pathway may be involved in this activation process. [ABSTRACT FROM AUTHOR]

Published

2022

29. Minocycline attenuates experimental subarachnoid hemorrhage in rats

Author

Li Jingbo, Chen Shuda, Fan Jing, Zhang Gao, and Ren Reng

Subjects

subarachnoid hemorrhage, minocycline, microglia, p2x4 receptor, early brain injury, Biology (General), QH301-705.5

Abstract

The aim of this study was to evaluate the therapeutic effect of minocycline on treating experimental subarachnoid hemorrhage (SAH) in rats and to explore its possible molecular mechanism.

Published

2019

30. Contribution of P2X4 receptor in pain associated with rheumatoid arthritis: a review.

Author

Khir, Nurul Ajilah Mohamed, Noh, Ain' Sabreena Mohd, Shafin, Nazlahshaniza, and Ismail, Che Aishah Nazariah

Abstract

Pain is the most common symptom reported by patients with rheumatoid arthritis (RA) even after the resolution of chronic joint inflammation. It is believed that RA-associated pain is not solely due to inflammation, but could also be attributed to aberrant modifications to the central nervous system. The P2X4 receptor (P2X4R) is an ATP-activated purinergic receptor that plays a significant role in the transmission of information in the nervous system and pain. The involvement of P2X4R during the pathogenesis of chronic inflammatory pain and neuropathic pain is well-established. The attenuation of this receptor alleviates disease pathogenesis and related symptoms, including hyperalgesia and allodynia. Although some studies have revealed the contribution of P2X4R in promoting joint inflammation in RA, how it implicates pain associated with RA at peripheral and central nervous systems is still lacking. In this review, the possible contributions of P2X4R in the nervous system and how it implicates pain transmission and responses were examined. [ABSTRACT FROM AUTHOR]

Published

2021

31. Structural and Functional Features of the P2X4 Receptor: An Immunological Perspective

Author

Jean M. Kanellopoulos, Cássio Luiz Coutinho Almeida-da-Silva, Sirje Rüütel Boudinot, and David M. Ojcius

Subjects

P2X4 receptor, P2X7 receptor, purinergic receptor, innate immunity, inflammasome, NLRP3, Immunologic diseases. Allergy, RC581-607

Abstract

Extracellular nucleotides are important mediators of activation, triggering various responses through plasma membrane P2 and P1 receptors. P2 receptors are further subdivided into ionotropic P2X receptors and G protein-coupled P2Y receptors. P2X4 is an ATP-gated cation channel broadly expressed in most tissues of the body. Within the P2X family, P2X4 has a unique subcellular distribution, being preferentially localized in lysosomes. In these organelles, high ATP concentrations do not trigger P2X4 because of the low pH. However, when the pH increases to 7.4, P2X4 can be stimulated by intra-lysosomal ATP, which is in its active, tetra-anionic form. Elucidation of P2X4, P2X3 and P2X7 structures has shed some light on the functional differences between these purinergic receptors. The potential interaction between P2X4 and P2X7 has been extensively studied. Despite intensive effort, it has not been possible yet to determine whether P2X4 and P2X7 interact as heterotrimers or homotrimers at the plasma membrane. However, several publications have shown that functional interactions between P2X4 and P2X7 do occur. Importantly, these studies indicate that P2X4 potentiates P2X7-dependent activation of inflammasomes, leading to increased release of IL-1β and IL-18. The role of P2X4 in various diseases could be beneficial or deleterious even though the pathophysiological mechanisms involved are still poorly defined. However, in diseases whose physiopathology involves activation of the NLRP3 inflammasome, P2X4 was found to exacerbate severity of disease. The recent production of monoclonal antibodies specific for the human and mouse P2X4, some of which are endowed with agonist or antagonist properties, raises the possibility that they could be used therapeutically. Analysis of single nucleotide polymorphisms of the human P2RX4 gene has uncovered the association of P2RX4 gene variants with susceptibility to several human diseases.

Published

2021

32. Analysis of binding residues in monoclonal antibody with high affinity for the head domain of the rat P2X4 receptor.

Author

Igawa, Tatsuhiro, Kishikawa, Shuhei, Abe, Yoshito, Tsuda, Makoto, Inoue, Kazuhide, and Ueda, Tadashi

Subjects

*SITE-specific mutagenesis, *RATS, *BINDING sites, *MONOCLONAL antibodies, *NEURALGIA

Abstract

P2X4 receptor is known to be involved in neuropathic pain. In order to detect the expression of P2X4 receptor on microglia at the time of onset of neuropathic pain, one approach consists on the preparation of the monoclonal antibodies with both selective binding and high affinity. We have recently established a monoclonal antibody (named 12-10H) which had high affinity to rat P2X4 receptor expressed in 1321N1 cells. The dissociation constants of the complex between the monoclonal antibodies obtained so far and the head domain (HD) in the rat P2X4 receptor were in the nanomolar range. To improve the affinity by rational mutations, we need to know the precious location of the binding site in these monoclonal antibodies. Here, we have analysed and identified the binding residues in the monoclonal antibody (12-10H) with high affinity for the HD of the rat P2X4 receptor by site-directed mutagenesis. [ABSTRACT FROM AUTHOR]

Published

2021

33. Structural and Functional Features of the P2X4 Receptor: An Immunological Perspective.

Author

Kanellopoulos, Jean M., Almeida-da-Silva, Cássio Luiz Coutinho, Rüütel Boudinot, Sirje, and Ojcius, David M.

Subjects

G protein coupled receptors, PURINERGIC receptors, SINGLE nucleotide polymorphisms, MONOCLONAL antibodies, GENES

Abstract

Extracellular nucleotides are important mediators of activation, triggering various responses through plasma membrane P2 and P1 receptors. P2 receptors are further subdivided into ionotropic P2X receptors and G protein-coupled P2Y receptors. P2X4 is an ATP-gated cation channel broadly expressed in most tissues of the body. Within the P2X family, P2X4 has a unique subcellular distribution, being preferentially localized in lysosomes. In these organelles, high ATP concentrations do not trigger P2X4 because of the low pH. However, when the pH increases to 7.4, P2X4 can be stimulated by intra-lysosomal ATP, which is in its active, tetra-anionic form. Elucidation of P2X4, P2X3 and P2X7 structures has shed some light on the functional differences between these purinergic receptors. The potential interaction between P2X4 and P2X7 has been extensively studied. Despite intensive effort, it has not been possible yet to determine whether P2X4 and P2X7 interact as heterotrimers or homotrimers at the plasma membrane. However, several publications have shown that functional interactions between P2X4 and P2X7 do occur. Importantly, these studies indicate that P2X4 potentiates P2X7-dependent activation of inflammasomes, leading to increased release of IL-1β and IL-18. The role of P2X4 in various diseases could be beneficial or deleterious even though the pathophysiological mechanisms involved are still poorly defined. However, in diseases whose physiopathology involves activation of the NLRP3 inflammasome, P2X4 was found to exacerbate severity of disease. The recent production of monoclonal antibodies specific for the human and mouse P2X4, some of which are endowed with agonist or antagonist properties, raises the possibility that they could be used therapeutically. Analysis of single nucleotide polymorphisms of the human P2RX4 gene has uncovered the association of P2RX4 gene variants with susceptibility to several human diseases. [ABSTRACT FROM AUTHOR]

Published

2021

34. Effect of the conditioned medium of mesenchymal stem cells on the expression levels of P2X4 and P2X7 purinergic receptors in the spinal cord of rats with neuropathic pain.

Author

Masoodifar, Mahsa, Hajihashemi, Saeed, Pazhoohan, Saeed, Nazemi, Samad, and Mojadadi, Mohammad-Shafi

Abstract

Recent studies have shown that mesenchymal stem cells (MSCs) and their conditioned medium (CM) have potential therapeutic effects in animal models of neuropathic pain (NP). However, the mechanisms underlying these effects are not fully understood. Because of the leading involvement of purinergic receptors in the pathogenesis of NP, this study aimed to investigate the effect of MSCs-CM on the expression levels of P2X4 and P2X7 receptors in a rat model of NP induced by chronic constriction injury (CCI) of the sciatic nerve. CM was prepared from the rats' bone marrow–derived MSCs culture. After that, NP rats were treated by intraperitoneal injection of CM, or Dulbecco's modified Eagle's medium (DMEM) 1 day before and 7 and 11 days after CCI surgery. The NP status was assessed in the treated animals using behavioral tests, including mechanical allodynia and thermal hyperalgesia, on days − 1, 3, 6, 9, 12, and 15 of the study. At the end of the study (Day 15), the animals were sacrificed, and the relative gene expression of P2X4 and P2X7 receptors were measured in the spinal cord using quantitative real-time PCR. The results demonstrated that in the CM-treated NP rats, mechanical allodynia and thermal hyperalgesia were significantly reduced compared with the DMEM-treated group. In addition, the expression levels of P2X4 and P2X7 receptors were noticeably prevented in the CM-treated group than the control group. These findings indicate that the antinociceptive effects of CM in the NP rats are partly mediated through preventing the upregulation of P2X4 and P2X7 receptors in the spinal cord. [ABSTRACT FROM AUTHOR]

Published

2021

35. Modulation of osteoblast differentiation and function by the P2X4 receptor

Author

Orriss, Isabel R., Davies, Bethan K., Bourne, Lucie E., and Arnett, Timothy R.

Published

2022

36. Astragalin Alleviates Neuropathic Pain by Suppressing P2X4-Mediated Signaling in the Dorsal Root Ganglia of Rats

Author

Mengke Wang, Xia Cai, Yueying Wang, Shizhen Li, Na Wang, Rui Sun, Jingming Xing, Shangdong Liang, and Shuangmei Liu

Subjects

neuropathic pain, P2X4 receptor, astragalin, chronic constriction injury, satellite glial cells, dorsal root ganglia, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Neurologic damage often leads to neuropathic pain, for which there are no effective treatments owing to its complex pathogenesis. The purinergic receptor P2X4 is closely associated with neuropathic pain. Astragalin (AST), a compound that is used in traditional Chinese medicine, has protective effects against allergic dermatitis and neuronal injury, but its mechanism of action is not well understood. The present study investigated whether AST can alleviate neuropathic pain in a rat model established by chronic constriction injury (CCI) to the sciatic nerve. The model rats exhibited pain behavior and showed increased expression of P2X4 and the activated satellite glial cell (SGC) marker glial fibrillary acidic protein in dorsal root ganglia (DRG). AST treatment partly abrogated the upregulation of P2X4, inhibited SGC activation, and alleviated pain behavior in CCI rats; it also suppressed ATP-activated currents in HEK293 cells overexpressing P2X4. These data demonstrate that AST relieves neuropathic pain by inhibiting P2X4 and SGC activation in DRG, highlighting its therapeutic potential for clinical pain management.

Published

2021

37. Function of P2X4 Receptors Is Directly Modulated by a 1:1 Stoichiometric Interaction With 5-HT3A Receptors

Author

Paola Soto, Pablo S. Gaete, Christian Fuentes, Benjamin Lozano, Pamela A. Naulin, Xavier F. Figueroa, and Nelson Patricio Barrera

Subjects

receptor-receptor interaction, atomic force microscopy, stoichiometry, P2X4 receptor, 5-HT3A receptor, intracellular Ca2+, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Interacting receptors at the neuronal plasma membrane represent an additional regulatory mode for intracellular transduction pathways. P2X4 receptor triggers fast neurotransmission responses via a transient increase in intracellular Ca2+ levels. It has been proposed that the P2X4 receptor interacts with the 5-HT3A receptor in hippocampal neurons, but their binding stoichiometry and the role of P2X4 receptor activation by ATP on this crosstalking system remains unknown. Via pull-down assays, total internal reflection fluorescence (TIRF) microscopy measurements of the receptors colocalization and expression at the plasma membrane, and atomic force microscopy (AFM) imaging, we have demonstrated that P2X4/5-HT3A receptor complexes can interact with each other in a 1:1 stoichiometric manner that is preserved after ATP binding. Also, macromolecular docking followed by 100 ns molecular dynamics (MD) simulations suggested that the interaction energy of the P2X4 receptor with 5-HT3A receptor is similar at the holo and the apo state of the P2X4 receptor, and the interacting 5-HT3A receptor decreased the ATP binding energy of P2X4 receptor. Finally, the P2X4 receptor-dependent Ca2+ mobilization is inhibited by the 5-HT3A interacting receptor. Altogether, these findings provide novel molecular insights into the allosteric regulation of P2X4/5-HT3A receptor complex in lipid bilayers of living cells via stoichiometric association, rather than accumulation or unspecific clustering of complexes.

Published

2020

38. Neural stem cell transplantation inhibits glial cell proliferation and P2X receptor-mediated neuropathic pain in spinal cord injury rats

Author

Xiao-Jing Du, Yue-Xia Chen, Zun-Cheng Zheng, Nan Wang, Xiao-Yu Wang, and Fan-E Kong

Subjects

nerve regeneration, cell transplantation, sensory nerve function, glial fibrillary acidic protein, neurofilament, P2X4 receptor, P2X7 receptor, microglial cells, perception threshold, hind limb function, glial hyperplasia, neural regeneration, Neurology. Diseases of the nervous system, RC346-429

Abstract

P2X4 and P2X7 receptors play an important role in neuropathic pain after spinal cord injury. Regulation of P2X4 and P2X7 receptors can obviously reduce pain hypersensitivity after injury. To investigate the role of neural stem cell transplantation on P2X receptor-mediated neuropathic pain and explore related mechanisms, a rat model of spinal cord injury was prepared using the free-falling heavy body method with spinal cord segment 10 as the center. Neural stem cells were injected into the injured spinal cord segment using a micro-syringe. Expression levels of P2X4 and P2X7 receptors, neurofilament protein, and glial fibrillary acidic protein were determined by immunohistochemistry and western blot assay. In addition, sensory function was quantitatively assessed by current perception threshold. The Basso-Beattie-Bresnahan locomotor rating scale was used to assess neuropathological pain. The results showed that 4 weeks after neural stem cell transplantation, expression of neurofilament protein in the injured segment was markedly increased, while expression of glial fibrillary acidic protein and P2X4 and P2X7 receptors was decreased. At this time point, motor and sensory functions of rats were obviously improved, and neuropathic pain was alleviated. These findings demonstrated that neural stem cell transplantation reduced overexpression of P2X4 and P2X7 receptors, activated locomotor and sensory function reconstruction, and played an important role in neuropathic pain regulation after spinal cord injury. Therefore, neural stem cell transplantation is one potential option for relieving neuropathic pain mediated by P2X receptors.

Published

2019

39. Synergistic Cytokine Production by ATP and PGE2 via P2X4 and EP3 Receptors in Mouse Bone-Marrow-Derived Mast Cells

Author

Kosuke Obayashi, Kazuki Yoshida, Masa-aki Ito, Tetsuya Mori, Kimiko Yamamoto, Toshiyashu Imai, and Isao Matsuoka

Subjects

ATP, bone-marrow-derived mast cells, prostaglandin E2, P2X4 receptor, EP3 receptor, Cytology, QH573-671

Abstract

ATP is an important intercellular messenger in the extracellular space. In mast cells (MCs), ATP stimulates the ionotropic P2X4 receptor (P2X4R), resulting in enhanced degranulation and exacerbation of acute allergic reactions. In this study, we investigate whether ATP regulates inflammatory cytokine production in MCs. Gene expression was analyzed by quantitative RT-PCR, and cytokine production was measured using ELISA. The stimulation of mouse bone-marrow-derived MCs (BMMCs) with ATP alone had little effect on cytokine secretion. However, the co-stimulation with prostaglandin (PG) E2 resulted in a marked increase in the secretion of various cytokines, such as tumor necrosis factor-α, interleukin (IL)-6, and IL-13, accompanied by an increase in their mRNA levels. The effects of ATP were inhibited by P2X4R antagonists and diminished in BMMCs derived from P2X4R-deficient mice, suggesting that P2X4R mediated the reaction. The effects of PGE2 were mimicked by an EP3 receptor (EP3R) agonist and blocked by an EP3R antagonist. The synergistic cytokine mRNA elevations induced by ATP and PGE2 were blocked by nuclear factor-κB and Ca2+-calcineurin signaling inhibitors. Altogether, these results suggest that combining P2X4R and EP3R signaling enhances acute degranulation and the subsequent cytokine secretion, exacerbating allergic inflammation.

Published

2022

40. Catestatin Enhances Neuropathic Pain Mediated by P2X4 Receptor of Dorsal Root Ganglia in a Rat Model of Chronic Constriction Injury

Author

Zeyu Deng, Congcong Li, Errong Du, Chenglong Liu, Bihan Xia, Huiyu Chen, Qiqing He, and Changshui Xu

Subjects

Neuropathic pain, Catestatin, P2X4 receptor, Dorsal root ganglia, Satellite glial cells, Proinfammatory cytokines, Mitogenactivated protein kinase, Nuclear factor-κB, Physiology, QP1-981, Biochemistry, QD415-436

Abstract

Background/Aims: Neuropathic pain (NPP) is the consequence of a number of central nervous system injuries or diseases. Previous studies have shown that NPP is mediated by P2X4 receptors that are expressed on satellite glial cells (SGCs) of dorsal root ganglia (DRG). Catestatin (CST), a neuroendocrine multifunctional peptide, may be involved in the pathogenesis of NPP. Here, we studied the mechanism through which CST affects NPP. Methods: We made rat models of chronic constriction injury (CCI) that simulate neuropathic pain. Rat behavioral changes were estimated by measuring the degree of hyperalgesia as assessed by the mechanical withdrawal threshold (MWT) and the thermal withdrawal latency (TWL). P2X4 mRNA expression was detected by quantitative real-time reverse transcription-polymerase chain reaction. P2X4 protein level and related signal pathways were assessed by western blot. Additionally, double-labeled immunofluorescence was employed to visualize the correspondence between the P2X4 receptor and glial fibrillary acidic protein. An enzyme-linked immunosorbent assay was performed to determine the concentration of CST and inflammatory factors. Results: CST led to lower MWT and TWL and increased P2X4 mRNA and protein expression on the SGCs of model rats. Further, CST upregulated the expression of phosphor-p38 and phosphor-ERK 1/2 on the SGCs of CCI rats. However, the expression level of phosphor-JNK and phosphor-p65 did not obviously change. Conclusion: Taken together, CST might boost NPP by enhancing the sensitivity of P2X4 receptors in the DRG of rats, which would provide us a novel perspective and research direction to explore new therapeutic targets for NPP.

Published

2018

41. P2X4 receptor controls microglia activation and favors remyelination in autoimmune encephalitis

Author

Alazne Zabala, Nuria Vazquez‐Villoldo, Björn Rissiek, Jon Gejo, Abraham Martin, Aitor Palomino, Alberto Perez‐Samartín, Krishna R Pulagam, Marco Lukowiak, Estibaliz Capetillo‐Zarate, Jordi Llop, Tim Magnus, Friedrich Koch‐Nolte, Francois Rassendren, Carlos Matute, and María Domercq

Subjects

microglia, myelin phagocytosis, P2X4 receptor, remyelination, Medicine (General), R5-920, Genetics, QH426-470

Abstract

Abstract Microglia survey the brain microenvironment for signals of injury or infection and are essential for the initiation and resolution of pathogen‐ or tissue damage‐induced inflammation. Understanding the mechanism of microglia responses during pathology is hence vital to promote regenerative responses. Here, we analyzed the role of purinergic receptor P2X4 (P2X4R) in microglia/macrophages during autoimmune inflammation. Blockade of P2X4R signaling exacerbated clinical signs in the experimental autoimmune encephalomyelitis (EAE) model and also favored microglia activation to a pro‐inflammatory phenotype and inhibited myelin phagocytosis. Moreover, P2X4R blockade in microglia halted oligodendrocyte differentiation in vitro and remyelination after lysolecithin‐induced demyelination. Conversely, potentiation of P2X4R signaling by the allosteric modulator ivermectin (IVM) favored a switch in microglia to an anti‐inflammatory phenotype, potentiated myelin phagocytosis, promoted the remyelination response, and ameliorated clinical signs of EAE. Our results provide evidence that P2X4Rs modulate microglia/macrophage inflammatory responses and identify IVM as a potential candidate among currently used drugs to promote the repair of myelin damage.

Published

2018

42. In Silico Analysis of FDA Drugs as P2X4 Modulators for the Treatment of Alcohol Use Disorder.

Author

Reyes‐Espinosa, Francisco, Nieto‐Pescador, María G., Bocanegra‐García, Virgilio, Lozano‐Guzmán, Eduardo, and Rivera, Gildardo

Subjects

ALCOHOLISM, DRUG analysis, RATTUS norvegicus, MICE, ZEBRA danio embryos, MOLECULAR docking

Abstract

Recent studies have shown the potential application of ivermectins in the treatment of alcohol use disorder (AUD). Ivermectin is a positive allosteric modulator (PAM) of P2X4R and this molecule exerts its action in the transmembrane region (known as the TM region) of trimeric channel structure (the pocket formed by Asp331, Met336, Trp46, Trp50, and Tyr42). The aim of this study is to identify FDA drugs with potential PAM properties, by exploring the P2X4Rs from four organisms (Danio rerio, Mus musculus, Rattus norvegicus, and Homo sapiens). The in silico study consists of carrying out the molecular docking of 1656 FDA‐approved drugs on the structure of P2X4R, using the commercially available compounds from the ZINC15 database for virtual screening. To strengthen the reliability of the results, two docking protocols were used involving the use of two programs, Autodock 4.2 and Autodock Vina. Nine FDA drugs with potential PAM properties were identified. In addition, eight molecules with potential negative allosteric modulator (NAM) action, and 13 molecules with potential allosteric modulator (AM) action were identified. The FDA drugs identified in this study with PAM, NAM, and AM action, shared in the P2X4Rs of the four organisms, can provide a guideline to proceed with research concerning new drugs for the study and treatment of AUD. [ABSTRACT FROM AUTHOR]

Published

2020

43. Distinct shear-induced Ca2+ signaling in the left and right atrial myocytes: Role of P2 receptor context.

Author

Le, Qui Anh, Kim, Joon-Chul, Kim, Kyeong-Hee, Van Vu, Anh Thi, and Woo, Sun-Hee

Subjects

*MUSCLE cells, *CHEMILUMINESCENCE assay, *HEART beat, *SHEARING force, *SHEAR waves, *RYANODINE receptors

Abstract

Atrial myocytes are continuously exposed to shear stress during cardiac cycles. Previous reports have shown that shear stress induces two different types of global Ca2+ signaling in atrial myocytes–longitudinal Ca2+ waves (L-waves) and action potential-involved transverse waves (T-waves), and suggested an underlying role of the autocrine activation of P2 receptors. We explored the correlations between ATP release and Ca2+ wave generation in atrial myocytes and investigated why the cells develop two Ca2+-wave types during the same shear force. We examined whether ATP release correlates with different shear-stress (~16 dyn/cm2)-mediated Ca2+ signaling by simultaneous measurement of local Ca2+ and ATP release in individual atrial myocytes using two-dimensional confocal imaging and sniffer patch techniques, respectively. Functional P2X7-receptor-expressing HEK293 cells were established as sniffer cells, which generated currents in real time in response to ATP released from a closely positioned atrial myocyte. Both shear-stress-induced L- and T-waves were preceded by sniffer currents with no difference in the current magnitude. Left atrial (LA) myocytes had two- to three-fold larger sniffer currents than right atrial (RA) cells, as was confirmed by ATP chemiluminescence assay. Shear-stress-induced ATP release was eliminated by connexin (Cx) 43 hemichannel inhibition using La3+, Gap19, or knock-down of Cx43 expression. The level of phosphorylated Cx43 at Ser386 (p-Cx43Ser368), but not total Cx43, was higher in LA versus RA myocytes. Most LA cells (~70%) developed L-waves, whereas most RA myocytes (~80%) presented T-waves. Shear-stress-induced T-waves were completely removed by inhibition of P2X4R, which were most abundant in rat atrial cells. Expression of P2X4R was higher in RA than LA myocytes, whereas expression of P2Y1R, the mediator of L-waves, was higher in LA than RA myocytes. ATP release mainly triggers L-waves in LA myocytes and T-waves in RA myocytes under the same shear force, partly because of the differential expression of P2Y1R and P2X4R between LA and RA myocytes. Higher ATP release in LA myocytes under shear stress may not contribute to determination of the wave pattern. • Atrial myocytes are exposed to fluid shear stress during cardiac cycles. • Shear stress induces longitudinal (L) or action-potential-involved (T) Ca2+ waves. • "Sniffer patch" with Ca2+ imaging revealed that ATP release precedes these waves. • Left atrial cells with higher P2Y1 receptor levels had more L-waves and ATP release. • P2X4 receptor mediates T-waves and is more abundant in right atrium vs left atrium. [ABSTRACT FROM AUTHOR]

Published

2020

44. Function of P2X4 Receptors Is Directly Modulated by a 1:1 Stoichiometric Interaction With 5-HT3A Receptors.

Author

Soto, Paola, Gaete, Pablo S., Fuentes, Christian, Lozano, Benjamin, Naulin, Pamela A., Figueroa, Xavier F., and Barrera, Nelson Patricio

Subjects

ALLOSTERIC regulation, ATOMIC force microscopy, BILAYER lipid membranes, CELL membranes, BINDING energy, STOICHIOMETRY, PURINERGIC receptors

Abstract

Interacting receptors at the neuronal plasma membrane represent an additional regulatory mode for intracellular transduction pathways. P2X4 receptor triggers fast neurotransmission responses via a transient increase in intracellular Ca2+ levels. It has been proposed that the P2X4 receptor interacts with the 5-HT3A receptor in hippocampal neurons, but their binding stoichiometry and the role of P2X4 receptor activation by ATP on this crosstalking system remains unknown. Via pull-down assays, total internal reflection fluorescence (TIRF) microscopy measurements of the receptors colocalization and expression at the plasma membrane, and atomic force microscopy (AFM) imaging, we have demonstrated that P2X4/5-HT3A receptor complexes can interact with each other in a 1:1 stoichiometric manner that is preserved after ATP binding. Also, macromolecular docking followed by 100 ns molecular dynamics (MD) simulations suggested that the interaction energy of the P2X4 receptor with 5-HT3A receptor is similar at the holo and the apo state of the P2X4 receptor, and the interacting 5-HT3A receptor decreased the ATP binding energy of P2X4 receptor. Finally, the P2X4 receptor-dependent Ca2+ mobilization is inhibited by the 5-HT3A interacting receptor. Altogether, these findings provide novel molecular insights into the allosteric regulation of P2X4/5-HT3A receptor complex in lipid bilayers of living cells via stoichiometric association, rather than accumulation or unspecific clustering of complexes. [ABSTRACT FROM AUTHOR]

Published

2020

45. Deficiency of purinergic P2X4 receptor alleviates experimental autoimmune hepatitis in mice.

Author

Liu, Zejin, Sun, Mengyang, Liu, Wenhua, Feng, Fangyu, Li, Xinyu, Jin, Chaolei, Zhang, Yijie, and Wang, Junpeng

Subjects

*AUTOIMMUNE hepatitis, *PURINERGIC receptors, *ASPARTATE aminotransferase, *GLUTATHIONE peroxidase, *HEPATIC fibrosis, *APOPTOSIS, *ALANINE aminotransferase

Abstract

[Display omitted] Purinergic P2X4 receptor (P2X4R) has been shown to have immunomodulatory properties in infection, inflammation, and organ damage including liver regeneration and fibrosis. However, the mechanisms and pathophysiology associated with P2X4R during acute liver injury remain unknown. We used P2X4R−/− mice to explore the role of P2X4R in three different models of acute liver injury caused by concanavalin A (ConA), carbon tetrachloride, and acetaminophen. ConA treatment results in an increased expression of P2X4R in the liver of mice, which was positively correlated with higher levels of aspartate aminotransferase and alanine aminotransferase in the serum. However, P2X4R gene ablation significantly reduced the severity of acute hepatitis in mice caused by ConA, but not by carbon tetrachloride or acetaminophen. The protective benefits against immune-mediated acute hepatitis were achieved via modulating inflammation (Interleukin (IL)-1β, IL-6, IL-17A, interferon-γ, tumor necrosis factor-α), oxidative stress (malondialdehyde, superoxide dismutase, glutathione peroxidase, and catalase), apoptosis markers (Bax, Bcl-2, and Caspase-3), autophagy biomarkers (LC3, Beclin-1, and p62), and nucleotide oligomerization domain-like receptor protein 3 (NLRP3) inflammasome-activated pyroptosis markers (NLRP3, Gasdermin D, Caspase-1, ASC, IL-1β). Additionally, administration of P2X4R antagonist (5-BDBD) or agonist (cytidine 5′-triphosphate) either improved or worsened ConA-induced autoimmune hepatitis, respectively. This study is the first to reveal that the absence of the P2X4 receptor may mitigate immune-mediated liver damage, potentially by restraining inflammation, oxidation, and programmed cell death mechanisms. And highlight P2X4 receptor is essential for ConA-induced acute hepatitis. [ABSTRACT FROM AUTHOR]

Published

2024

46. The Research for the Mechanism of Chronically Intractable Pain Based on the Functions of Microglia as Brain Immunocompetent Cell

Author

Inoue, Kazuhide, Tsuda, Makoto, Miyasaka, Masayuki, editor, and Takatsu, Kiyoshi, editor

Published

2016

47. Reduced P2X receptor levels are associated with antidepressant effect in the learned helplessness model

Author

Deidiane Elisa Ribeiro, Plinio C. Casarotto, Laura Staquini, Maria Augusta Pinto e Silva, Caroline Biojone, Gregers Wegener, and Samia Joca

Subjects

P2X7 receptor, P2X4 receptor, Learned helplessness, Brilliant blue G, Imipramine, Medicine, Biology (General), QH301-705.5

Abstract

Purinergic receptors, especially P2RX, are associated to the severity of symptoms in patients suffering from depressive and bipolar disorders, and genetic deletion or pharmacological blockade of P2RX7 induces antidepressant-like effect in preclinical models. However, there is scarce evidence about the alterations in P2RX7 or P2RX4 levels and in behavioral consequences induced by previous exposure to stress, a major risk factor for depression in humans. In the present study, we evaluated the effect of imipramine (IMI) on P2RX7 and P2RX4 levels in dorsal and ventral hippocampus as well as in the frontal cortex of rats submitted to the pretest session of learned helplessness (LH) paradigm. Repeated, but not acute administration of IMI (15 mg/kg ip) reduced the levels of both P2RX7 and P2RX4 in the ventral, but not in dorsal hippocampus or frontal cortex. In addition, we tested the effect of P2RX7/P2RX4 antagonist brilliant blue G (BBG: 25 or 50 mg/kg ip) on the LH paradigm. We observed that repeated (7 days) but not acute (1 day) treatment with BBG (50 mg) reduced the number of failures to escape the shocks in the test session, a parameter mimicked by the same regimen of IMI treatment. Taken together, our data indicates that pharmacological blockade or decrease in the expression of P2RX7 is associated to the antidepressant-like behavior observed in the LH paradigm after repeated drug administration.

Published

2019

48. The Ionotropic P2X4 Receptor has Unique Properties in the Heart by Mediating the Negative Chronotropic Effect of ATP While Increasing the Ventricular Inotropy

Author

Bruno Bragança, Sílvia Nogueira-Marques, Fátima Ferreirinha, Ana Patrícia Fontes-Sousa, and Paulo Correia-de-Sá

Subjects

ATP, P2X4 receptor, Na+/Ca2+ exchanger, sinoartrial node, spontaneously beating atria, paced right ventricle, Therapeutics. Pharmacology, RM1-950

Abstract

Background: Mounting evidence indicate that reducing the sinoatrial node (SAN) activity may be a useful therapeutic strategy to control of heart failure. Purines, like ATP and its metabolite adenosine, consistently reduce the SAN spontaneous activity leading to negative cardiac chronotropy, with variable effects on the force of myocardial contraction (inotropy). Apart from adenosine A1 receptors, the human SAN expresses high levels of ATP-sensitive ionotropic P2X4 receptors (P2X4R), yet their cardiac role is unexplored.Methods: Here, we investigated the activity of P2 purinoceptors on isolated spontaneously beating atria (chronotropy) and on 2 Hz-paced right ventricular (RV, inotropy) strips from Wistar rats.Results: ATP (pEC50 = 4.05) and its stable analogue ATPγS (pEC50 = 4.69) concentration-dependently reduced atrial chronotropy. Inhibition of ATP breakdown into adenosine by NTPDases with POM-1 failed to modify ATP-induced negative chronotropy. The effect of ATP on atrial rate was attenuated by a broad-spectrum P2 antagonist, PPADS, as well as by 5-BDBD, which selectively blocks the P2X4R subtype; however, no effect was observed upon blocking the A1 receptor with DPCPX. The P2X4R positive allosteric modulator, ivermectin, increased the negative chronotropic response of ATP. Likewise, CTP, a P2X agonist that does not generate adenosine, replicated the P2X4R-mediated negative chronotropism of ATP. Inhibition of the Na+/Ca2+ exchanger (NCX) with KB-R7943 and ORM-10103, but not blockage of the HCN channel with ZD7288, mimicked the effect of the P2X4R blocker, 5-BDBD. In paced RV strips, ATP caused a mild negative inotropic effect, which magnitude was 2 to 3-fold increased by 5-BDBD and KB-R7943. Immunofluorescence confocal microscopy studies confirm that cardiomyocytes of the rat SAN and RV co-express P2X4R and NCX1 proteins.Conclusions: Data suggest that activation of ATP-sensitive P2X4R slows down heart rate by reducing the SAN activity while increasing the magnitude of ventricular contractions. The mechanism underlying the dual effect of ATP in the heart may involve inhibition of intracellular Ca2+-extrusion by bolstering NCX function in the reverse mode. Thus, targeting the P2X4R activation may create novel well-tolerated heart-rate lowering drugs with potential benefits in patients with deteriorated ventricular function.

Published

2019

49. Involvement of purinergic 2X4 receptor in glycoprotein 120‐induced pyroptosis in dorsal root ganglia.

Author

Zhao, Shanhong, Zhou, Yanhong, Fan, Yang, Gong, Yingxin, Yang, Jingjian, Yang, Runan, Li, Lin, Zou, Lifang, Xu, Xiumei, Li, Guilin, Liu, Shuangmei, Zhang, Chunping, Li, Guodong, and Liang, Shangdong

Subjects

*DORSAL root ganglia, *PURINERGIC receptors, *SATELLITE cells, *NEUROGLIA, *APOPTOSIS, *NLRP3 protein

Abstract

Pyroptosis is a type of programmed cell death, displaying caspase‐1‐dependent and pro‐inflammatory features. Purinergic 2X4 (P2X4) receptor activation in response to high‐adenosine triphosphate release can induce inflammation. Envelope glycoprotein 120 (gp120) of human immunodeficiency virus type 1 is considered one of the primary pathogens leading to neuronal injury. In this study, we investigated the possible role of P2X4 receptor activation in gp120‐triggered pyroptosis in cultured satellite glial cells (SGCs) of rat dorsal root ganglia (DRG). MTS assay, TdT‐mediated dUTP Nick‐end labeling assay, real‐time RT‐PCR, and western blotting et al. methods were used. The results indicated that the expression of P2X4 receptor in SGCs of DRG was up‐regulated upon cultured with gp120 for 24 h. The highest decrease in viability of SGCs due to gp120 treatment was accompanied by marked increases of positive pyroptosis cells and cellular lactate dehydrogenase release, elevated levels of interleukin‐1β, interleukin‐18, active caspase‐1 and NOD‐like receptor family, pyrin domain containing 1, and enhanced phosphorylation of p38MAPK. These abnormal changes because of gp120 were significantly inhibited and cell viability was markedly improved when SGCs of DRG were treated with short hairpin RNAs targeting P2X4 receptor. Our data suggest that silencing of P2X4 receptor may act effectively against gp120‐induced pyroptosis mediated by the activation of NOD‐like receptor family, pyrin domain containing 1 inflammasome and caspase‐1 signaling in SGCs of DRG. [ABSTRACT FROM AUTHOR]

Published

2019

50. Reduced P2X receptor levels are associated with antidepressant effect in the learned helplessness model.

Author

Ribeiro, Deidiane Elisa, Casarotto, Plinio C., Staquini, Laura, Pinto e Silva, Maria Augusta, Biojone, Caroline, Wegener, Gregers, and Joca, Samia

Subjects

PURINERGIC receptors, ANIMAL models in research, BIPOLAR disorder, MENTAL depression, ANTIDEPRESSANTS, DRUG administration, SPRAGUE Dawley rats

Abstract

Purinergic receptors, especially P2RX, are associated to the severity of symptoms in patients suffering from depressive and bipolar disorders, and genetic deletion or pharmacological blockade of P2RX7 induces antidepressant-like effect in preclinical models. However, there is scarce evidence about the alterations in P2RX7 or P2RX4 levels and in behavioral consequences induced by previous exposure to stress, a major risk factor for depression in humans. In the present study, we evaluated the effect of imipramine (IMI) on P2RX7 and P2RX4 levels in dorsal and ventral hippocampus as well as in the frontal cortex of rats submitted to the pretest session of learned helplessness (LH) paradigm. Repeated, but not acute administration of IMI (15 mg/kg ip) reduced the levels of both P2RX7 and P2RX4 in the ventral, but not in dorsal hippocampus or frontal cortex. In addition, we tested the effect of P2RX7/P2RX4 antagonist brilliant blue G (BBG: 25 or 50 mg/kg ip) on the LH paradigm. We observed that repeated (7 days) but not acute (1 day) treatment with BBG (50 mg) reduced the number of failures to escape the shocks in the test session, a parameter mimicked by the same regimen of IMI treatment. Taken together, our data indicates that pharmacological blockade or decrease in the expression of P2RX7 is associated to the antidepressant-like behavior observed in the LH paradigm after repeated drug administration. [ABSTRACT FROM AUTHOR]

Published

2019