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Query: UMLS:C0279530 (
bone cancer
)
1,036
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The purinergic
P2X7 receptor
is implicated in both neuropathic and inflammatory pain, and has been suggested as a possible target in pain treatment. However, the specific role of the
P2X7 receptor
in
bone cancer
pain is unknown. We demonstrated that BALB/cJ
P2X7 receptor
knockout (P2X7R KO) mice were susceptible to
bone cancer
pain and moreover had an earlier onset of pain-related behaviours compared with cancer-bearing, wild-type mice. Furthermore, acute treatment with the selective
P2X7 receptor
antagonist, A-438079, failed to alleviate pain-related behaviours in models of
bone cancer
pain with and without astrocyte activation (BALB/cJ or C3H mice inoculated with 4T1 mammary cancer cells or NCTC 2472 osteosarcoma cells, respectively), suggesting that astrocytic
P2X7
receptors play a negligible role in
bone cancer
pain. The results support the hypothesis that
bone cancer
pain is a separate pain state compared with those of neuropathic and inflammatory pain. However, the recent discovery of a
P2X7 receptor
splice variant expressed in the knockout mice used for this study complicates the interpretation of the results. The
P2X7
splice variant receptor was detected in the spinal cord but not in osteoclasts of the P2X7R KO mouse. Further experiments are needed to elucidate the exact role of the
P2X7
receptors in
bone cancer
pain.
...
PMID:P2X7 receptor-deficient mice are susceptible to bone cancer pain. 2151 29
Modulation of tumor microenvironment by different mediators is central in determining neoplastic formation and progression. Among these molecules extracellular ATP is emerging as a good candidate in promoting cell growth, neovascularization, tumor-host interactions, and metastatization. This paper summarizes recent findings on expression and function of
P2X7 receptor
for extracellular ATP in primary and metastatic bone cancers. Search of mRNA expression microchip databases and literature analysis demonstrate a high expression of
P2X7
in primary bone tumors as well as in other malignancies such as multiple myeloma, neuroblastoma, breast, and prostate cancer. Evidence that
P2X7
triggers NFATc1, PI3K/Akt, ROCK, and VEGF pathways in osteoblasts promoting either primary tumor development or osteoblastic lesions is also reported. Moreover,
P2X7 receptor
is involved in osteoclast differentiation, RANKL expression, matrix metalloproteases and cathepsin secretion thus promoting bone resorption and osteolytic lesions. Taken together these data point to a pivotal role for the
P2X7 receptor
in
bone cancer
biology.
...
PMID:P2X7 Receptor Function in Bone-Related Cancer. 2297 Apr 9
Patients with
bone cancer
commonly experience bone pain that is severe, intolerable, and difficult to manage. The rostral ventromedial medulla (RVM) plays an important role in the development of chronic pain via descending facilitation of spinal nociception. The compelling evidence shows that glial
P2X7 receptor
(P2X7R) is involved in the induction and maintenance of chronic pain syndromes. The present study explored the mechanism of glial activation and P2X7R expression underlying the induction of
bone cancer
pain. The results demonstrated that microglia and astrocytes in the RVM were markedly activated in
bone cancer
rats, and the expression of P2X7R was significantly upregulated. Injection of Brilliant Blue G (BBG), an inhibitor of P2X7R, into the RVM significantly alleviated pain behaviors of cancer rats, which was supported by intra-RVM injection of RNA interference targeting the P2X7R in the RVM. It is suggested that activation of microglia-expressed P2X7R in the RVM contributes to
bone cancer
pain. Given that 5-HT in the RVM is involved in modulating spinal nociception, changes in 5-HT and Fos expression were addressed in the spinal cord. Inhibition of P2X7R by BBG or small-interference RNA targeting
P2X7
in the RVM markedly reduced 5-HT level and Fos expression in the spinal cord. The data clearly suggest that the activation of microglial P2X7R in the RVM contributes to the development of
bone cancer
pain via upregulation of spinal 5HT levels by the descending pain facilitatory system.
...
PMID:Involvement of RVM-expressed P2X7 receptor in bone cancer pain: mechanism of descending facilitation. 2444 11
The role of the
P2X7 receptor
(P2X7R) is being explored with intensive interest in the context of normal bone physiology, bone-related diseases and, to an extent,
bone cancer
. In this review, we cover the current understanding of P2X7R regulation of bone cell formation, function and survival. We will discuss how the P2X7R drives lineage commitment of undifferentiated bone cell progenitors, the vital role of P2X7R activation in bone mineralisation and its relatively unexplored role in osteocyte function. We also review how P2X7R activation is imperative for osteoclast formation and its role in bone resorption via orchestrating osteoclast apoptosis. Variations in the gene for the P2X7R (P2RX7) have implications for P2X7R-mediated processes and we review the relevance of these genetic variations in bone physiology. Finally, we highlight how targeting P2X7R may have therapeutic potential in bone disease and cancer.
...
PMID:P2X7 receptors: role in bone cell formation and function. 2559 82
Accumulating evidence suggests that activation of spinal microglia contributes to the development of inflammatory and neuropathic pain. However, the role of spinal microglia in the maintenance of chronic pain remains controversial.
Bone cancer
pain shares features of inflammatory and neuropathic pain, but the temporal activation of microglia and astrocytes in this model is not well defined. Here, we report an unconventional role of spinal microglia in the maintenance of advanced-phase
bone cancer
pain in a female rat model.
Bone cancer
elicited delayed and persistent microglial activation in the spinal dorsal horn on days 14 and 21, but not on day 7. In contrast,
bone cancer
induced rapid and persistent astrocytic activation on days 7-21. Spinal inhibition of microglia by minocycline at 14 d effectively reduced
bone cancer
-induced allodynia and hyperalgesia. However, pretreatment of minocycline in the first week did not affect the development of cancer pain.
Bone cancer
increased ATP levels in CSF, and upregulated
P2X7 receptor
, phosphorylated p38, and IL-18 in spinal microglia. Spinal inhibition of
P2X7
/p-38/IL-18 pathway reduced advanced-phase
bone cancer
pain and suppressed hyperactivity of spinal wide dynamic range (WDR) neurons. IL-18 induced allodynia and hyperalgesia after intrathecal injection, elicited mechanical hyperactivity of WDR neurons in vivo, and increased the frequency of mEPSCs in spinal lamina IIo nociceptive synapses in spinal cord slices. Together, our findings demonstrate a novel role of microglia in maintaining advanced phase cancer pain in females via producing the proinflammatory cytokine IL-18 to enhance synaptic transmission of spinal cord nociceptive neurons.
...
PMID:Delayed activation of spinal microglia contributes to the maintenance of bone cancer pain in female Wistar rats via P2X7 receptor and IL-18. 2599 79
Cancer pain is one of the most common symptoms in patients with late stage cancer. Lung, breast and prostate carcinoma are the most common causes of pain from osseous metastasis.
P2X7 receptor
(P2X7R) is one of the subtypes of ATP-gated purinergic ion channel family, predominately distributed in microglia in the spinal cord. Activation of P2X7Rs in the spinal dorsal horn has been associated with release of proinflammatory cytokines from glial cells, causing increased neuronal excitability and exaggerated nociception. Mounting evidence implies a critical role of P2X7R in inflammatory and neuropathic pain. However, whether P2X7R is involved in cancer pain remains controversial. Here we established a
bone cancer
pain model by injecting the Lewis lung carcinoma cells into the femur bone marrow cavity of C57BL/6J wild-type mice (C57 WT mice) and P2X7R knockout mice (P2rx7(-/-) mice) to explore the role of P2X7R in
bone cancer
pain. Following intrafemur carcinoma inoculation, robust mechanical allodynia and thermal hyperalgesia in C57 WT mice were developed on day 7 and 14, respectively, and persisted for at least 28 days in the ipsilateral hindpaw of the affected limb. CatWalk gait analysis showed significant decreases in the print area and stand phase, and a significant increase in swing phase in the ipsilateral hindpaw on day 21 and 28 after carcinoma cells inoculation. Histopathological sections (hematoxylin and eosin stain) showed that the bone marrow of the affected femur was largely replaced by invading tumor cells, and the femur displayed medullary bone loss and bone destruction on day 28 after inoculation. Unexpectedly, no significant changes in
bone cancer
-induced hypersensitivity of pain behaviors were found in P2rx7(-/-) mice, and the changes of pain-related values in CatWalk gait analysis even occurred earlier in P2rx7(-/-) mice, as compared with C57 WT mice. Together with our previous study in rats that blockade of P2X7R significantly alleviated
bone cancer
pain, it is implied that P2X7R may play different roles in
bone cancer
pain in different species (e.g. rat vs mouse). These results implicated a huge difference between the pathophysiology discovered in the experimental animal models and that of human disease.
...
PMID:[Effect of P2X7 receptor knock-out on bone cancer pain in mice]. 2735 Jan 94
Abundant evidence indicted that
P2X7 receptor
show a essential role in human health and some human diseases including hypertension, atherosclerosis, pulmonary inflammation, tuberculosis infection, psychiatric disorders, and cancer.
P2X7 receptor
also has an important role in some central nervous system diseases such as neurodegenerative disorders. Recently, more research suggested that
P2X7 receptor
also plays a crucial role in bone and joint diseases. But the effect of
P2X7 receptor
on skeletal and joint diseases has not been systematically reviewed. In this article, the role of
P2X7 receptor
in skeletal and joint diseases is elaborated. The activation of
P2X7 receptor
can ameliorate osteoporosis by inducing a fine balance between osteoclastic resorption and osteoblastic bone formation. The activation of
P2X7 receptor
can relieve the stress fracture injury by increasing the response to mechanical loading and inducing osteogenesis. But the activation of
P2X7 receptor
mediates the cell growth and cell proliferation in
bone cancer
. In addition, the activation of
P2X7 receptor
can aggravate the process of some joint diseases such as osteoarthritis, rheumatoid arthritis, and acute gouty arthritis. The inhibition of
P2X7 receptor
can alleviate the pathological process of joint disease to some extent. In conclusion,
P2X7 receptor
may be a critical regulator and therapeutic target for bone and joint diseases.
...
PMID:P2X7, a critical regulator and potential target for bone and joint diseases. 3031 98
