Keith Weaver scite author profile

Keith Weaver

5Publications

50Citation Statements Received

79Citation Statements Given

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Edward Via College of Osteopathic Medicine

Publications

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Influence of dietary fats on ecstasy‐induced hyperthermia

Mills

Weaver

Abramson

et al. 2007

British J Pharmacology

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Background and purpose: Studies were designed to examine the effects of dietary fats on metabolic effects of 3,4-methylenedioxymethamphetamine (MDMA, Ecstasy). These effects included hyperthermia, expression of uncoupling protein (UCP1 and 3) in brown adipose tissue or skeletal muscle and plasma free fatty acid (FFA) levels. Experimental approach: Male Sprague-Dawley rats were fed either a high-fat diet (HFD, 60% kcal) or a lower fat isocaloric controlled diet (LFD, 10% kcal) for 28 days before MDMA challenge. Key results: No significant differences were observed between LFD and HFD groups in terms of body weight, plasma thyroxine (T4) levels and expression of brown fat UCP1 or skeletal muscle UCP3 protein. HFD significantly raised levels of circulating FFA and potentiated the thermogenesis induced by MDMA (10 mg kg À1 , s.c.), compared to the effects of the LFD. Moreover, 30 and 60 min after MDMA administration, plasma FFA levels decreased in HFD animals, but were markedly elevated in the LFD group. Conclusions and implications: These results indicate that high-fat feeding regulates MDMA-induced thermogenesis by augmenting the activation of UCP rather than its expression.

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Is Inositol Bisphosphate the Product of A23187 and Carbachol‐Mediated Polyphosphoinositide Breakdown in Synaptosomes?

Brammer¹,

Hajimohammadreza²,

Sardiwal³

et al. 1988

Journal of Neurochemistry

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Synaptosomes have been isolated from rat cerebral cortex and labelled in vitro with [32P]orthophosphate and myo-[2-3H]inositol. Subsequent addition of the Ca2+ ionophore A23187 in the presence of 2 mM extrasynaptosomal Ca2+ raised intrasynaptosomal free [Ca2+] to greater than 2 microM from a resting level of 200 nM and led to rapid breakdown of polyphosphoinositides. This was accompanied by a small increase in the level of inositol monophosphate, greatly enhanced accumulation in inositol bisphosphate, but no detectable increase in inositol trisphosphate. Depolarising (25 mM) extrasynaptosomal K+ produced a smaller increase in intrasynaptosomal free [Ca2+] (to around 400 nM) and a proportional increase in inositol bisphosphate radioactivity. Carbachol (1 mM) alone elicited only limited polyphosphoinositide breakdown and inositol mono- and bisphosphate formation, but this was greatly increased in the presence of 25 mM K+. The effect of carbachol in the presence of depolarising K+ was time- and dose-dependent and was antagonised by atropine (10 microM). There was no detectable accumulation of inositol trisphosphate in the presence of carbachol, K+, or carbachol plus K+, even after short (30 s.) incubations. The lack of inositol trisphosphate accumulation does not appear to result from rapid formation of inositol tetrakisphosphate or from enhanced breakdown of the trisphosphate in synaptosomes.

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Kinetic Analysis of A23187‐Mediated Polyphosphoinositide Breakdown in Rat Cortical Synaptosomes Suggests that Inositol Bisphosphate Does Not Arise Primarily by Degradation of Inositol Trisphosphate

Brammer¹,

Weaver²

1989

Journal of Neurochemistry

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The kinetics of polyphosphoinositide breakdown and inositol phosphate formation have been studied in rat cortical synaptosomes labelled in vitro with myo-[2-3H]inositol. Intrasynaptosomal Ca2+ concentrations have been varied by the use of Ca-EGTA buffers or by adding the ionophore A23187 in the presence and absence of 1 mM Ca2+. The former studies have revealed that, at very low (20 nM) intrasynaptosomal free Ca2+ levels, inositol bisphosphate, but not inositol monophosphate levels are reduced. Addition of A23187 in the absence of added Ca2+ gives rise to greatly enhanced inositol bisphosphate accumulation, which is further enhanced if 1 mM Ca2+ is present in the extrasynaptosomal medium. At all time points examined (down to 2 s after adding ionophore), the ratio of inositol trisphosphate/inositol bisphosphate accumulation does not exceed 0.2, and calculations based on inositol bis- and trisphosphate breakdown rates in synaptosomal lysates suggest that only a minority of the inositol bisphosphate arises from degradation of inositol trisphosphate. Addition of ionophore in the presence (but not in the absence) of 1 mM Ca2+ leads to rapid breakdown of phosphatidylinositol 4,5-bisphosphate (PtdInsP2) and ATP and slower breakdown of phosphatidylinositol 4-phosphate (PtdInsP). The rates of loss of PtdinsP2 and ATP are very highly correlated, suggesting that polyphosphoinositide resynthesis may be limited by ATP availability at high Ca2+ levels. Analysis of 32P-labelled synaptosomes also reveals that A23187 produces Ca2+-dependent losses of PtdInsP2, PtdInsP, ATP, and GTP radioactivity and a marked increase in the radioactivity of a compound distinct from nucleotides or any of the lipid breakdown products tested.(ABSTRACT TRUNCATED AT 250 WORDS)

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Phosphatidylinositol is broken down by phospholipase C in synaptosomes

Weaver¹,

Brammer²

1989

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Agonist-mediated formation of inositol monophosphate isomers in rat cortical prisms

Brammer¹,

Weaver²

1990

Biochemical Pharmacology

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Keith Weaver

Influence of dietary fats on ecstasy‐induced hyperthermia

Is Inositol Bisphosphate the Product of A23187 and Carbachol‐Mediated Polyphosphoinositide Breakdown in Synaptosomes?

Kinetic Analysis of A23187‐Mediated Polyphosphoinositide Breakdown in Rat Cortical Synaptosomes Suggests that Inositol Bisphosphate Does Not Arise Primarily by Degradation of Inositol Trisphosphate

Phosphatidylinositol is broken down by phospholipase C in synaptosomes

Agonist-mediated formation of inositol monophosphate isomers in rat cortical prisms

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