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1.
Br J Pharmacol ; 173(8): 1253-67, 2016 Apr.
Article in English | MEDLINE | ID: mdl-26804983

ABSTRACT

Chronic pain negatively impacts the quality of life in a variety of patient populations. The current therapeutic repertoire is inadequate in managing patient pain and warrants the development of new therapeutics. Adenosine and its four cognate receptors (A1 , A2A , A2B and A3 ) have important roles in physiological and pathophysiological states, including chronic pain. Preclinical and clinical studies have revealed that while adenosine and agonists of the A1 and A2A receptors have antinociceptive properties, their therapeutic utility is limited by adverse cardiovascular side effects. In contrast, our understanding of the A3 receptor is only in its infancy, but exciting preclinical observations of A3 receptor antinociception, which have been bolstered by clinical trials of A3 receptor agonists in other disease states, suggest pain relief without cardiovascular side effects and with sufficient tolerability. Our goal herein is to briefly discuss adenosine and its receptors in the context of pathological pain and to consider the current data regarding A3 receptor-mediated antinociception. We will highlight recent findings regarding the impact of the A3 receptor on pain pathways and examine the current state of selective A3 receptor agonists used for these studies. The adenosine-to-A3 receptor pathway represents an important endogenous system that can be targeted to provide safe, effective pain relief from chronic pain.


Subject(s)
Adenosine A3 Receptor Agonists/pharmacology , Analgesics, Non-Narcotic/pharmacology , Chronic Pain/drug therapy , Receptor, Adenosine A3/metabolism , Adenosine A3 Receptor Agonists/chemistry , Analgesics, Non-Narcotic/chemistry , Chronic Pain/metabolism , Humans
2.
Neurosci Lett ; 557 Pt A: 52-9, 2013 Dec 17.
Article in English | MEDLINE | ID: mdl-24076008

ABSTRACT

Cancerous cells can originate in a number of different tissues such as prostate, breast and lung, but often go undetected and are non-painful. Many types of cancers have a propensity to metastasize to the bone microenvironment first. Tumor burden within the bone causes excruciating breakthrough pain with properties of ongoing pain that is inadequately managed with current analgesics. Part of this failure is due to the poor understanding of the etiology of cancer pain. Animal models of cancer-induced bone pain (CIBP) have revealed that the neurochemistry of cancer has features distinctive from other chronic pain states. For example, preclinical models of metastatic cancer often result in the positive modulation of neurotrophins, such as NGF and BDNF, that can lead to nociceptive sensitization. Preclinical cancer models also demonstrate nociceptive neuronal expression of acid-sensing receptors, such as ASIC1 and TRPV1, which respond to cancer-induced acidity within the bone. CIBP is correlated with a significant increase in pro-inflammatory mediators acting peripherally and centrally, contributing to neuronal hypersensitive states. Finally, cancer cells generate high levels of oxidative molecules that are thought to increase extracellular glutamate concentrations, thus activating primary afferent neurons. Knowledge of the unique neuro-molecular profile of cancer pain will ultimately lead to the development of novel and superior therapeutics for CIBP.


Subject(s)
Bone Neoplasms/complications , Pain/etiology , Pain/metabolism , Acid Sensing Ion Channels/metabolism , Animals , Bone Neoplasms/metabolism , Bone Neoplasms/secondary , Cytokines/metabolism , Disease Models, Animal , Humans , Mice , Nerve Growth Factors/metabolism , Oxidative Stress/physiology , Rats
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