Protection from endotoxic shock in mice by pharmacologic inhibition of phosphatidic acid.

Rice, Glenn C.; Brown, Paul A.J.; Nelson, R. J.; Bianco, James A.; Singer, Jack W.; Bursten, Staurt

doi:10.1073/pnas.91.9.3857

Cited by 97 publications

(68 citation statements)

References 28 publications

(18 reference statements)

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“…In contrast, the product of LPA acylation is PA. A number of recent reports have suggested that PA may be a key intracellular messenger in a common signaling pathway activated by proinflammatory mediators such as IL-1␤, tumor necrosis factor-␣, platelet-activating factor, and lipid A (29,32,33). That this PA is generated by the action of LPAAT was demonstrated by the observation that small molecule inhibitors of the enzyme block PA formation in P388 monocytic leukemia cells stimulated with bacterial lipopolysaccharide (35) and in hypoxia-treated human neutrophils (36). The small molecule inhibitors also protected mice from lipopolysaccharide-mediated endotoxic shock and from lung injury in a model of hemorrhage and resuscitation (36).…”

Section: Discussionmentioning

confidence: 99%

Human Lysophosphatidic Acid Acyltransferase

Eberhardt

Gray

Tjoelker

1997

Journal of Biological Chemistry

114

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Lysophosphatidic acid (1-acyl-sn-glycero-3-phosphate (LPA)) is a phospholipid with diverse biological activities. The mediator serves as an intermediate in membrane phospholipid metabolism but is also produced in acute settings by activated platelets. LPA is converted to phosphatidic acid, itself a lipid mediator, by an LPA acyltransferase (LPAAT). A human expressed sequence tag was identified by homology with a coconut LPAAT and used to isolate a full-length human cDNA from a heart muscle library. The predicted amino acid sequence bears 33% identity with a Caenorhabditis elegans LPAAT homologue and 23-28% identity with plant and prokaryotic LPAATs. Recombinant protein produced in COS 7 cells exhibited LPAAT activity with a preference for LPA as the acceptor phosphoglycerol and arachidonyl coenzyme A as the acyl donor. Northern blotting demonstrated that the mRNA is expressed in most human tissues including a panel of brain subregions; expression is highest in liver and pancreas and lowest in placenta. The human LPAAT gene is contained on six exons that map to chromosome 9, region q34.3.

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Section: Discussionmentioning

confidence: 99%

Human Lysophosphatidic Acid Acyltransferase

Eberhardt

Gray

Tjoelker

1997

Journal of Biological Chemistry

114

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“…Also, clonidine's anti-allodynic effects were mimicked by apraclondine, which does not cross the blood brain barrier 83 . In addition, the many of the various anti-inflammatory activities of pentoxifylline and lisofylline are linked with their vascular effects 7,62,76,91 , as microvascular function is key to various processes involved in the inflammatory response, including plasma extravasation, platelet aggregration, leukocyte migration, cytokine activation, among others.…”

Section: Discussionmentioning

confidence: 99%

“…For example, clonidine acts at imidazoline receptors as well as α 2A receptors 88 , and pentoxiphylline is a non-specific PDE inhibitor that produces anti-inflammatory effects by interacting with various biological systems. Furthermore, although lisofylline is a phosphatidic acid inhibitor, it is a metabolite of pentoxifylline 62,76 , and shares many of pentoxifylline's PDE inhibitor activities, including inhibition of various cytokines 76 . However, topical administered clonidine is unlikely to have significant effects at brainstem imidazoline receptors, especially at the low concentrations we have used.…”

Section: Discussionmentioning

confidence: 99%

“…However, α 2A receptor agonists, NO donors and PDE inhibitors have been used systemically in patients or preclinical animal models to treat pain associated with angina 13,43,66 , PAD 19,52,82 , CRPS 18,40,63,74 , neuropathic pain 32,53,60 and PDN 16,24,48,84 indicating their usefulness in these syndromes. PA inhibitors have not been used to treat chronic pain, but should be equally or more effective than PDE inhibitors since they have anti-oxidant 7,34 , anticytokine 68,76 , anti-chemotaxic 70,91 , immunosuppressant 15,23 , and mitochondrial protective 12 effects, in addition to the vasodilator 61 , anti-ischemic 90 and anti-platelet aggregation 62 effects they share with PDE inhibitors.…”

Section: Introductionmentioning

confidence: 99%

“…Pentoxifylline is a PDE4 inhibitor commonly used to treated these ischemic disorders 44,77 . A major metabolite of pentoxifylline, lisofylline shares many of the actions of its prodrug 60,61,90 , but also inhibits the conversion of lysophophatidic acid to phosphatidic acid (PA), a pathway critical to the production of various cytokines 76 .…”

Section: Introductionmentioning

confidence: 99%

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Topical Combinations Aimed at Treating Microvascular Dysfunction Reduce Allodynia in Rat Models of CRPS-I and Neuropathic Pain

Ragavendran

Laferrière

Xiao

et al. 2013

The Journal of Pain

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Growing evidence indicates that various chronic pain syndromes exhibit tissue abnormalities caused by microvasculature dysfunction in the blood vessels of skin, muscle or nerve. We tested whether topical combinations aimed at improving microvascular function would relieve allodynia in animal models of complex regional pain syndrome type I (CRPS-I) and neuropathic pain. We hypothesized that topical administration of either α 2 -adrenergic (α 2A ) receptor agonists or nitric oxide (NO) donors combined with either phosphodiesterase (PDE) or phosphatidic acid (PA) inhibitors would effectively reduce allodynia in these animal models of chronic pain. Single topical agents produced significant dose-dependent anti-allodynic effects in rats with chronic post- CIHR Author ManuscriptCIHR Author Manuscript CIHR Author Manuscript ischemia pain, and the anti-allodynic dose-response curves of PDE and PA inhibitors were shifted 2.5-10 fold leftward when combined with non-analgesic doses of α 2A receptor agonists or NO donors. Topical combinations also produced significant anti-allodynic effects in rats with sciatic nerve injury, painful diabetic neuropathy and chemotherapy-induced painful neuropathy. These effects were shown to be produced by a local action, lasted up to 6 h after acute treatment, and did not produce tolerance over 15 days of chronic daily dosing. The present results support the hypothesis that allodynia in animal models of CRPS-I and neuropathic pain is effectively relieved by topical combinations of α 2A or NO donors with PDE or PA inhibitors. This suggests that topical treatments aimed at improving microvascular function may reduce allodynia in patients with CRPS-I and neuropathic pain.Perspective-This article presents the synergistic anti-allodynic effects of combinations of α 2A or NO donors with PDE or PA inhibitors in animal models of CRPS-I and neuropathic pain. The data suggest effective clinical treatment of chronic neuropathic pain may be achieved by therapies that alleviate microvascular dysfunction in affected areas.

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Pharmacological inhibition of gelatinase B induction and tumor cell invasion

McMillan

Weeks²,

West³

et al. 1996

Int. J. Cancer

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The matrix metalloproteinases (MMPs) are all members of a highly conserved supergene family that consists of proteolytic enzymes capable of specific extracellular matrix protein interactions. The 92 kDa MMP-9 (gelatinase B) has been extensively characterized at the structural level and shown to degrade specifically the gelatins derived from basement membrane types IV and V collagens (Wilhelm et al., 1989; Mackay et aI., 1990;Morodomi et al., 1992). The closely related 72 kDa MMP-2 (gelatinase A) has a similar enzymatic spectrum, but may be distinguished from MMP-9 on the basis of cellular sources and patterns of induction. Both enzymes have been observed within the culture supernates of numerous cell types, including fibroblasts, endothelial cells and monocyte/macrophages, as well as tumor cells of diverse origin (Wilhelm et al.,

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Protection from endotoxic shock in mice by pharmacologic inhibition of phosphatidic acid.

Cited by 97 publications

References 28 publications

Human Lysophosphatidic Acid Acyltransferase

Human Lysophosphatidic Acid Acyltransferase

Topical Combinations Aimed at Treating Microvascular Dysfunction Reduce Allodynia in Rat Models of CRPS-I and Neuropathic Pain

Pharmacological inhibition of gelatinase B induction and tumor cell invasion

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