Cancer pain is difficult to treat as it appears to be driven simultaneously by inflammatory, neuropathic and tumorigenic mechanisms. I have reported on multiple occasions publication referencing use of our Pain and Inflammation Research Antibodies in studying bone cancer pain.
I would like to alert you to the latest reference:
Timothy K. Y. Kaan, Ping K. Yip, Sital Patel, Meirion Davies, Fabien Marchand, Debra A. Cockayne, Philip A. Nunn, Anthony H. Dickenson, Anthony P. D. W. Ford, Yu Zhong, Marzia Malcangio, and Stephen B. McMahon Systemic blockade of P2X3 and P2X2/3 receptors attenuates bone cancer pain behaviour in rats. Brain, September 2010; 133: 2549 - 2564.
......Slides were then incubated with rabbit anti-P2X3 (1:2000, Neuromics) and sheep anti-calcitonin gene-related peptide (1:1000, Biomol...anti-beta-III-tubulin (1:4000, Promega) and guinea pig anti-P2X3 (1:100, Neuromics). The next day, after three washes with phosphate-buffered......
Summary: Pain remains an area of considerable unmet clinical need, and this is particularly true of pain associated with bone metastases, in part because existing analgesic drugs show only limited efficacy in many patients and in part because of the adverse side effects associated with these agents. An important issue is that the nature and roles of the algogens produced in bone that drive pain-signalling systems remain unknown. Here, we tested the hypothesis that adenosine triphosphate is one such key mediator through actions on P2X3 and P2X2/3 receptors, which are expressed selectively on primary afferent nocioceptors, including those innervating the bone. Using a well-established rat model of bone cancer pain, AF-353, a recently described potent and selective P2X3 and P2X2/3 receptor antagonist, was administered orally to rats and found to produce highly significant prevention and reversal of bone cancer pain behaviour. This attenuation occurred without apparent modification of the disease, since bone destruction induced by rat MRMT-1 carcinoma cells was not significantly altered by AF-353. Using in vivo electrophysiology, evidence for a central site of action was provided by dose-dependent reductions in electrical, mechanical and thermal stimuli-evoked dorsal horn neuronal hyperexcitability following direct AF-353 administration onto the spinal cord of bone cancer animals. A peripheral site of action was also suggested by studies on the extracellular release of adenosine triphosphate from MRMT-1 carcinoma cells. Moreover, elevated phosphorylated-extracellular signal-regulated kinase expression in dorsal root ganglion neurons, induced by co-cultured MRMT-1 carcinoma cells, was significantly reduced in the presence of AF-353. These data suggest that blockade of P2X3 and P2X2/3 receptors on both the peripheral and central terminals of nocioceptors contributes to analgesic efficacy in a model of bone cancer pain. Thus, systemic P2X3 and P2X2/3 receptor antagonists with central nervous system penetration may offer a promising therapeutic tool in treating bone cancer pain.
All Purinergic Receptors
Neurotransmission Research Antibodies
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