The cytokine IL‐1β transiently enhances P2X<sub>7</sub> receptor expression and function in human astrocytes

Narcisse, Leontine; Scemes, Eliana; Zhao, Yongmei; Lee, Sunhee C.; Brosnan, Celia F.

doi:10.1002/glia.20110

Cited by 178 publications

(161 citation statements)

References 66 publications

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“…Given that Rac is primarily involved in lamelipodia protrusion at the leading edge (Bokoch, 2005;Barber and Welch, 2006), reduced activity of P2Y 1 R is expected to attenuate cell migration. Clearly, further studies are necessary to evaluate such hypothesis and to elucidate whether the deactivating effect of IL-1β on Rho GTPase seen in mature astrocytes (John et al, 2004) is also effective in reducing astrocyte progenitor cell migration, independently of P2Y 1 R. Nevertheless, because the effects of IL-1β on the activity of P2 receptors reported in the present study are very similar to what has been previously reported for mature astrocytes, i.e., decreased response to agonists of P2Y 1 receptors (Scemes, 2008) and increased response of P2X 7 receptors (Narcisse et al, 2005), it is likely that astrocyte progenitors acquire in early stages of CNS development, the ability to fully respond to IL-1β.…”

Section: Discussionsupporting

confidence: 82%

“…This is based on our current and previous studies showing that neither the P2X 7 R agonist BzATP (this study) nor its antagonist KN-62 (Scemes et al, 2003) had an impact on progenitor cell migration. Although the P2X 7 receptors have been proposed to be a component of the inflammatory response in astrocytes (Narcisse et al, 2005), and a contributor to pathogenic Ca 2+ entry (Yeung et al, 2006), and cell death (Zhang et al, 2005;Wang et al, 2004), further studies are needed to disclose the impact of these ionotropic receptors on neural progenitor cell (patho) physiology.…”

Section: Discussionmentioning

confidence: 99%

“…Because purinergic receptor expression and activity can be modulated by pro-inflammatory cytokines (John et al, 1999;Narcisse et al, 2005;Scemes, 2008), we evaluated the effects of conditioned medium of activated microglia (CM), as well as those induced by interleukin-1β (IL-1β) and tumor necrosis factor-α (TNFα) on astrocyte progenitor cell migration and calcium signaling. Our results indicate that, similarly to the effects of conditioned medium of activated microglia, the pro-inflammatory cytokine IL-1β, but not TNFα reduced the rate of in vitro progenitor cell migration.…”

Section: Introductionmentioning

confidence: 99%

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Interleukin-1β affects calcium signaling and in vitro cell migration of astrocyte progenitors

Striedinger¹,

Scemes

2008

Journal of Neuroimmunology

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Spontaneous calcium activity of neural progenitors is largely dependent on a paracrine signaling mechanism involving release of ATP and activation of purinergic receptors. Although it is well documented that, in mature astrocytes, cytokines modulate the expression levels of certain purinergic receptors, nothing is known about their impact during early stages of development. Here we provide evidence that conditioned medium from activated microglia as well as interleukin-1β, but not tumor necrosis factor-α, decrease the frequency of calcium oscillations and reduce the rate of "in vitro" migration of astrocyte progenitors. Such alterations were due to changes in activity of two purinergic P2 receptors, and not to the amount of released ATP. These results indicate that Interleukin-1β plays important role during early stages of CNS development, modulating calcium signaling and cell migration.

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Section: Discussionsupporting

confidence: 82%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Interleukin-1β affects calcium signaling and in vitro cell migration of astrocyte progenitors

Striedinger¹,

Scemes

2008

Journal of Neuroimmunology

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“…Moreover, a recent study performed on two P2X 7 Ϫ/Ϫ mouse lines indicated that, at least in the hippocampus of healthy mouse brains, these receptors are either not expressed or are expressed at undetectable levels (Sim et al, 2004), suggesting that they are unlikely candidates for gliotransmitter release under physiological situations. In contrast, under pathological conditions such as during inflammation, ischemia, spreading depression, and trauma, when upregulation of these receptors, changes in extracellular cation composition, and increased extracellular ATP levels have been reported (Kraig and Nicholson, 1978;Harris and Symon, 1984;Nilsson et al, 1993;Le Feuvre et al, 2002;Guerra et al, 2003;Narcisse et al, 2005), the participation of P2X 7 R might be expected to exacerbate the extent of cell damage. Indeed, evidence for the participation of P2X 7 R in the regulation of extracellular transmitter levels was provided from studies showing that ATP-evoked glutamate efflux from neuronal and non-neuronal cells was greatly attenuated in P2X 7 R-null hippocampal slices (Papp et al, 2004) and from those showing that P2X 7 R antagonists greatly attenuated the extent of cell damage after acute spinal cord traumatic injury (Wang et al, 2004).…”

Section: Discussionmentioning

confidence: 94%

P2X₇Receptors Mediate ATP Release and Amplification of Astrocytic Intercellular Ca²⁺Signaling

2006

Self Cite

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Modulation of synaptic transmission and brain microcirculation are new roles ascribed to astrocytes in CNS function. A mechanism by which astrocytes modify neuronal activity in the healthy brain depends on fluctuations of cytosolic Ca 2ϩ levels, which regulate the release of "gliotransmitters" via an exocytic pathway. Under pathological conditions, however, the participation of other pathways, including connexin hemichannels and the pore-forming P2X 7 R, have been proposed but remain controversial. Through the use of genetically modified 1321N1 human astrocytoma cells and of spinal cord astrocytes derived from neonatal Cx43-and P2X 7 R-null mice, we provide strong evidence that P2X 7 Rs, but not Cx43 hemichannels, are sites of ATP release that promote the amplification of Ca 2ϩ signal transmission within the astrocytic network after exposure to low divalent cation solution. Moreover, our results showing that gap junction channel blockers (heptanol, octanol, carbenoxolone, flufenamic acid, and mefloquine) are antagonists of the P2X 7 R indicate the inadequacy of using these compounds as evidence for the participation of connexin hemichannels as sites of gliotransmitter release.

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“…Additional studies are needed to examine whether expression of P2X7 is regulated and how such regulation might contribute to bone cell function. In this regard, exposure to certain stimuli has been found to enhance P2X7 expression in various cell types [89][90][91]. On the other hand, high concentrations of ATP appear to mediate internalization of P2X7 in osteoclast-like cells [59].…”

Section: Prospects and Conclusionmentioning

confidence: 99%

Expression, signaling, and function of P2X7 receptors in bone

Grol

Panupinthu

Korcok

et al. 2009

Purinergic Signalling

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Nucleotides released from cells in response to mechanical stimulation or injury may serve as paracrine regulators of bone cell function. Extracellular nucleotides bind to multiple subtypes of P2 receptors on osteoblasts (the cells responsible for bone formation) and osteoclasts (cells with the unique ability to resorb mineralized tissues). Both cell lineages express the P2X7 receptor subtype. The skeletal phenotype of mice with targeted disruption of P2rx7 points to interesting roles for this receptor in the regulation of bone formation and resorption, as well as the response of the skeleton to mechanical stimulation. This paper reviews recent work on the expression of P2X7 receptors in bone, their associated signal transduction mechanisms and roles in regulating bone formation and resorption. Areas for future research in this field are also discussed.

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The cytokine IL‐1β transiently enhances P2X₇ receptor expression and function in human astrocytes

Cited by 178 publications

References 66 publications

Interleukin-1β affects calcium signaling and in vitro cell migration of astrocyte progenitors

Interleukin-1β affects calcium signaling and in vitro cell migration of astrocyte progenitors

P2X₇Receptors Mediate ATP Release and Amplification of Astrocytic Intercellular Ca²⁺Signaling

Expression, signaling, and function of P2X7 receptors in bone

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The cytokine IL‐1β transiently enhances P2X7 receptor expression and function in human astrocytes

Cited by 178 publications

References 66 publications

Interleukin-1β affects calcium signaling and in vitro cell migration of astrocyte progenitors

Interleukin-1β affects calcium signaling and in vitro cell migration of astrocyte progenitors

P2X7Receptors Mediate ATP Release and Amplification of Astrocytic Intercellular Ca2+Signaling

Expression, signaling, and function of P2X7 receptors in bone

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Product

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The cytokine IL‐1β transiently enhances P2X₇ receptor expression and function in human astrocytes

P2X₇Receptors Mediate ATP Release and Amplification of Astrocytic Intercellular Ca²⁺Signaling