Teresa Coughlan scite author profile

One of the responses to cerebral ischemia is an increase in the production of nitric oxide, catalyzed by enzymes expressed in both resident and infiltrating cells. The nitric oxide that is generated does contribute to the ensuing pathology, but it can also be beneficial. The effects of nitric oxide depend on the cell site of production, the amount generated, and the chemical nature of the products of further oxidation. Understanding how nitric oxide production from microglia and astrocytes contributes to ischemic pathology is important for the development and application of future therapeutics based on inhibiting or amplifying its production in the injured brain.

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Mapping the Ligand-Binding Site on the C5a Receptor: Arginine⁷⁴ of C5a Contacts Aspartate²⁸² of the C5a Receptor

Cain

Coughlan

Monk

2001

Biochemistry

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The interaction between the anaphylatoxin C5a and its receptor involves two distinct sites. One site is formed by acidic residues at the receptor N-terminus and contributes to only ligand binding. The second site, responsible for activation, is less well defined. In this study, we demonstrate that the receptor residue D(282), near the extracellular face of transmembrane domain VII, is a component of the second ligand-binding site. Mutation of D(282) to A decreases the sensitivity of the receptor to activation by intact C5a but not by its less potent metabolite, C5adR(74), which lacks the C-terminal arginine(74). The mutation of the R(74) residue of C5a to A causes a 60-fold decrease in wild-type receptor sensitivity, but only a 2-fold decrease for the receptor mutated at D(282). In contrast, the mutation of R(74) to D makes C5a completely inactive on both wild-type and A(282) C5a receptors. The mutation of D(282) to R partly restores the response to C5a[D(74)], which is a more effective ligand than C5a at the mutant receptor. A peptide mimic of the C5a activation domain with a C-terminal R potently activates the wild type but is only a weak agonist at the mutant D(282)R-C5a receptor. Conversely, a peptide with D at the C-terminus is a more effective activator of D(282)R than wild-type C5a receptors. These data indicate that the R(74) side chain of C5a makes an interaction with receptor D(282) that is responsible for the higher potency of intact C5a versus that of C5adR(74).

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Modulatory effects of progesterone on inducible nitric oxide synthase expression in vivo and in vitro

Coughlan

Gibson

Murphy

2005

Journal of Neurochemistry

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Nitric oxide (NO) is produced in the CNS following injury-induced expression of inducible nitric oxide synthase (iNOS), yet its role as protective or damaging is unclear. Previous studies investigating the therapeutic potential of female sex steroids in stroke and trauma suggest that NO from this source is harmful, since oestradiol and progesterone decreased the level of iNOS expression in vitro and improved neurological outcome. We investigated the effects of progesterone on stroke-induced expression of iNOS in mice, as well as cytokine-induced expression of iNOS and its transcriptional activators in cells relevant to injury. We observed a significant reduction in stroke-induced iNOS transcript in progesterone-treated mice and in cultured macrophages. In contrast, progesterone significantly amplifed cytokine-induced iNOS mRNA in cultured primary astrocytes, although the expression of protein was decreased. We sequenced upstream of the 1.5 kb reported iNOS promoter region and identified a potential progesterone response element (PRE). Astrocytes transiently transfected with iNOS promoter/CAT reporter gene constructs containing the PRE displayed a significant increase in induction of CAT expression after progesterone treatment, and this was diminished in cells transfected with a construct containing a disrupted PRE. These observations suggest the involvement of iNOS in the neuroprotective effects of progesterone.

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Progesterone, BDNF and Neuroprotection in the Injured CNS

Coughlan

Gibson

Murphy

2009

International Journal of Neuroscience

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We investigated whether the neuroprotective mechanism of progesterone involves modulation of the neurotrophin brain-derived neurotrophic factor (BDNF). We show that BDNF expression is upregulated following cerebral ischemia in mice and in C6 glioma cells exposed to cytokines, while reduced in cerebellar granule neurons exposed to the excitotoxin glutamate. Progesterone was without additional effect on BDNF in these paradigms. Progesterone also protected PC12 neurons deprived of trophic support, while it decreased cerebellar granule neuron viability. Both the effects of progesterone and the expression of BDNF can clearly vary following stroke-like injuries, however we found no evidence for a neuroprotective relationship between progesterone and BDNF.

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Null Alleles Are not a Common Cause of Type 1 von Willebrand Disease in the British Population

Coughlan¹,

Blagg²,

Abulola³

et al. 1999

Thromb Haemost

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Lentiviral shRNA knock-down of ADAMTS-5 and -9 restores matrix deposition in 3D chondrocyte culture

Coughlan

Crawford

Goldring

et al. 2010

J Tissue Eng Regen Med

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Aggrecan is one of the two major constituents of articular cartilage, and during diseases such as osteoarthritis (OA) it is subject to degradation by proteolytic enzymes. The primary proteases responsible for aggrecan cleavage are the aggrecanases, identified as members of the ADAMTS family of proteases, which are upregulated in response to inflammatory stimuli. It is uncertain which of the 6 aggrecanases (ADAMTS-1, -4, -5, -8, -9 and -15) are primarily responsible for the degradation of aggrecan in human cartilage. Here we show that 4 of the 6 aggrecanases are expressed in immortalized chondrocyte cell-lines and can be up-regulated in response to inflammatory cytokines. Using RNA interference, we demonstrate robust knockdown of ADAMTS-5 and -9 expression in these cells, and by culturing them on 3 dimensional scaffolds, show that reduction in expression of ADAMTS-5 enzyme results in an increase in matrix deposition. These data suggest that the quality of tissue-engineered cartilage matrix might be improved by targeted depletion of aggrecanase expression. Moreover, this work also provides further evidence that ADAMTS-5 may be a therapeutic target in the treatment of arthritic disease.

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Genetic Modification of Chondrocytes Using Viral Vectors

Coughlan

Crawford

Hatton

et al. 2010

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The use of isolated cells to construct engineered tissues provides the opportunity to genetically modify those cells prior to the formation of tissue. This should make it possible to create transgenic human model tissues that can be used to determine gene function as well as to identify or validate potential therapeutic targets. As proof of principle, we have used RNA interference to selectively suppress the expression of aggrecanase genes in human chondrocytes, in an attempt to determine which of these key enzymes have roles in arthritic cartilage destruction. This combination of gene targeting and tissue engineering we are using should be equally applicable to the identification of gene function in other biological systems.

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Nitric Oxide Synthases in Brain Function

Murphy¹,

Coughlan²

2006

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Teresa Coughlan

Glial nitric oxide and ischemia

Mapping the Ligand-Binding Site on the C5a Receptor: Arginine⁷⁴ of C5a Contacts Aspartate²⁸² of the C5a Receptor

Modulatory effects of progesterone on inducible nitric oxide synthase expression in vivo and in vitro

Progesterone, BDNF and Neuroprotection in the Injured CNS

Null Alleles Are not a Common Cause of Type 1 von Willebrand Disease in the British Population

Lentiviral shRNA knock-down of ADAMTS-5 and -9 restores matrix deposition in 3D chondrocyte culture

Genetic Modification of Chondrocytes Using Viral Vectors

Nitric Oxide Synthases in Brain Function

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About

Teresa Coughlan

Glial nitric oxide and ischemia

Mapping the Ligand-Binding Site on the C5a Receptor: Arginine74 of C5a Contacts Aspartate282 of the C5a Receptor

Modulatory effects of progesterone on inducible nitric oxide synthase expression in vivo and in vitro

Progesterone, BDNF and Neuroprotection in the Injured CNS

Null Alleles Are not a Common Cause of Type 1 von Willebrand Disease in the British Population

Lentiviral shRNA knock-down of ADAMTS-5 and -9 restores matrix deposition in 3D chondrocyte culture

Genetic Modification of Chondrocytes Using Viral Vectors

Nitric Oxide Synthases in Brain Function

Contact Info

Product

Resources

About

Mapping the Ligand-Binding Site on the C5a Receptor: Arginine⁷⁴ of C5a Contacts Aspartate²⁸² of the C5a Receptor