Selective chemokine mRNA accumulation in the rat spinal cord after contusion injury

McTigue, Dana M.; Tani, Masanao; Krivacic, Kimberly; Chernosky, Ann; Kelner, Gregory S.; Maciejewski, Dominique; Maki, Richard A.; Ransohoff, Richard M.; Stokes, Bradford T.

doi:10.1002/(sici)1097-4547(19980801)53:3<368::aid-jnr11>3.0.co;2-1

Cited by 198 publications

(115 citation statements)

References 43 publications

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“…An acute inflammatory response characterized by neutrophil infiltration and activation of microglia develops within hours of spinal cord injury. 26 These reactive cells produce several proinflammatory cytokines including IL-1, TNFa, IL-6, IL-3 and granulocyte-macrophage colony-stimulating factor, which mediate the inFammatory response and regulate cellular events after SCI. [4][5][6] TNFa and IL-1b are significantly upregulated in the injured spinal cord as early as 1 h after SCI.…”

Section: Discussionmentioning

confidence: 99%

Peroxisome proliferator-activated receptor-γ agonist rosiglitazone reduces secondary damage in experimental spinal cord injury

et al. 2013

J Int Med Res

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Objective: To investigate the neuroprotective effects of rosiglitazone in a rat traumatic spinal cord injury (SCI) model. Methods: Adult Sprague-Dawley rats (n ¼ 12/group) underwent laminectomy (sham), SCI, SCI and rosiglitazone treatment (2 mg/kg twice daily for 7 days), or SCI and saline injection (vehicle). SCI was induced via dural application of an aneurysm clip. Spinal cord apoptosis and levels of tumour necrosis factor-a (TNFa), interleukin (IL)-1b, myeloperoxidase (MPO) and the apoptosisassociated proteins B-cell leukaemia/lymphoma 2 (Bcl-2) and Bcl-2 associated X protein (Bax) were examined 24 h after SCI. Locomotor function was evaluated 3, 7, 10, 14 and 21 days after SCI. Results: At 24 h after SCI, apoptosis and TNFa, IL-1b and MPO concentrations were significantly lower in the rosiglitazone group than in the vehicle and SCI groups. SCI resulted in an increase in Bax and a decrease in Bcl-2, which was reversed by rosiglitazone treatment. Rats in the rosiglitazone group had significantly better functional recovery than those in the vehicle and SCI groups. Conclusion: Rosiglitazone signiEcantly improved functional recovery, probably via attenuation of the local inflammatory reaction and reduced apoptosis.

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Section: Discussionmentioning

confidence: 99%

Peroxisome proliferator-activated receptor-γ agonist rosiglitazone reduces secondary damage in experimental spinal cord injury

et al. 2013

J Int Med Res

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“…In particular, we did not detect any induction of PAP-III expression in CNS glial cells, such as oligodendrocytes, or astrocytes in our spinal cord injury model . Conversely, MCP-1 is induced in a wide variety of traumatic damage and inflammation, including CNS injuries (Rollins, 1996;McTigue et al, 1998;Minami and Satoh, 2003). Actually, the accumulation of macrophages and/or microglial cells around an injury site is significantly delayed in the CNS (Perry et al, 1987;Perry and Gordon, 1991;Avellino et al, 1995), and subsequent removal of myelin from the injured CNS is also limited (George and Griffin, 1994;Avellino et al, 1995).…”

Section: Discussionmentioning

confidence: 99%

Pancreatitis-Associated Protein-III Is a Novel Macrophage Chemoattractant Implicated in Nerve Regeneration

et al. 2006

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Circulating macrophages are recruited to degenerating nerves in response to nerve injury to remove myelin and axonal debris, a process that is crucial for successful nerve regeneration. In this study, we demonstrate that pancreatitis-associated protein (PAP)-III is a macrophage chemoattractant that is induced in and released from injured nerves. In vitro experiments revealed that PAP-III possessed a strong macrophage chemoattractant activity that was comparable with that of monocyte chemoattractant protein-1. In addition, gene knockdown via adenovirus-mediated small interference RNA expression in isolated sciatic nerves successfully suppressed PAP-III expression and its macrophage chemoattractant activity. Furthermore, overexpression or knockdown of the PAP-III gene in crushed sciatic nerves in rats resulted in acceleration or retardation of macrophage recruitment and subsequent nerve regeneration, respectively. Collectively, our results demonstrate that PAP-III is a novel macrophage chemoattractant that is involved in peripheral nerve regeneration and further provide new insights into Schwann cell-macrophage interactions and therapeutic interventions.

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“…Chemokines are small, secreted molecules that have very specific conserved cysteine residues in their amino acid sequences. Chemokines are expressed early after injury and are thought to play a role in the recruitment of inflammatory cells to the lesion site (66,67) . There is a close correlation between infiltration of hematogenous cells and the expression of soluble mediators, particularly chemokines, in injured tissue.…”

Section: Modulators Of Leukocyte Infiltrationmentioning

confidence: 99%

Inflammation and spinal cord injury: Infiltrating leukocytes as determinants of injury and repair processes

Trivedi

Olivas

Noble-Haeusslein

2006

Clinical Neuroscience Research

195

138

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The immune response that accompanies spinal cord injury contributes to both injury and reparative processes. It is this duality that is the focus of this review. Here we consider the complex cellular and molecular immune responses that lead to the infiltration of leukocytes and glial activation, promote oxidative stress and tissue damage, influence wound healing, and subsequently modulate locomotor recovery. Immunomodulatory strategies to improve outcomes are gaining momentum as ongoing research carefully dissects those pathways, which likely mediate cell injury from those, which favor recovery processes. Current therapeutic strategies address divergent approaches including early immunoblockade and vaccination with immune cells to prevent early tissue damage and support a wound-healing environment that favors plasticity. Despite these advances, there remain basic questions regarding how inflammatory cells interact in the injured spinal cord. Such questions likely arise as a result of our limited understanding of immune cell/neural interactions in a dynamic environment that culminates in progressive cell injury, demyelination, and regenerative failure.

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Selective chemokine mRNA accumulation in the rat spinal cord after contusion injury

Cited by 198 publications

References 43 publications

Peroxisome proliferator-activated receptor-γ agonist rosiglitazone reduces secondary damage in experimental spinal cord injury

Peroxisome proliferator-activated receptor-γ agonist rosiglitazone reduces secondary damage in experimental spinal cord injury

Pancreatitis-Associated Protein-III Is a Novel Macrophage Chemoattractant Implicated in Nerve Regeneration

Inflammation and spinal cord injury: Infiltrating leukocytes as determinants of injury and repair processes

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