Marjorie A. Walz scite author profile

Marjorie A. Walz

3Publications

7Citation Statements Received

4Citation Statements Given

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Saint Louis University, University of Mississippi

Publications

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Thyroid Effects on Adenosine 3′,5′-Monophosphate Levels and Adenylate Cyclase in Cultured Neuroblastoma Cells*

Walz

Howlett

1987

Endocrinology

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Using neuroblastoma cells as a model of developing neurons, we have tested the hypothesis that thyroid hormones alter cAMP metabolism. Neuroblastoma cells were grown in serum-free defined medium for 48 h with or without thyroid hormones. Treatment with 20-200 nM 3,5,3'-triiodo-L-thyronine (T3) increased the accumulation of cAMP by intact cells without altering growth, gross morphology, or DNA or protein content. The increase in cAMP accumulation could be detected 5 h after the addition of T3 and was abolished by the addition of cycloheximide. The maximum stimulation produced by prostaglandin E1 was increased in T3 cells without a significant alteration of the half-maximal concentration. T4 and D-T3 in concentrations up to 20 microM did not increase cAMP accumulation. Adenylate cyclase activity in response to forskolin, guanine nucleotides, and stimulatory hormones was increased in purified membranes from cells grown in T3, suggesting that increased adenylate cyclase is probably the major mechanism of the observed response to thyroid hormone.

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Cyclic nucleotide phosphodiesterase isozymes in neuroblastoma cells

Walz

Holt

Howlett

1987

J of Neuroscience Research

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Adenosine 3',5'-cyclic monophosphate (cAMP) content of neurons is determined not only by the rate of synthesis but also by the rate of hydrolysis by cyclic nucleotide phosphodiesterases. Multiple forms of cyclic nucleotide phosphodiesterase exist in brain and other tissues, and these may be regulated by various hormones and neuromodulators. The present study examines this regulation in a cloned line of neuroblastoma cells (N18TG2). A biphasic Lineweaver-Burk plot of cAMP hydrolysis revealed two Kms approximating 5 and 25 microM. Lineweaver-Burk plots of cGMP hydrolysis were linear over a range of 1 microM to 1 mM and exhibited a Km of 37 microM. Neither cAMP nor cGMP competed for hydrolysis of the alternative cyclic nucleotide. No evidence for an allosteric activation of cAMP phosphodiesterase by cGMP was found. Calcium regulation of phosphodiesterase was not found in spite of preparation of the cell extract with several protease inhibitors, and addition of exogenous calmodulin. No effect of calmodulin antagonists (calmidazolium, W7, or trifluoperazine) was observed in vitro or in situ. Growth of the cells in the presence of 200 nM 3,5,3'-triiodothyronine (T3) resulted in an increased hydrolysis of cAMP but of cGMP. This increase was attributed to an increase in Vmax with no change in either high or low Km. This response was blocked by cycloheximide, suggesting that the thyroid hormone effect requires protein synthesis. The thyroid hormone response in neuroblastoma cells is compared with the results of other studies of thyroid hormone effects on phosphodiesterase in other tissues in vivo.

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Experimental Diazepam Intoxication in Rodents: Physostigmine and Naloxone as Potential Antagonists

Walz

Davis

1979

Drug and Chemical Toxicology

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The ability of physostigmine and naloxone to reverse the loss of righting reflex (LRR) induced by diazepam was tested in mice and rats. Physostigmine was ineffective under our test conditions, but high doses of naloxone reduced the duration of LRR in both species. However, the LD50 of diazepam in mice was unaltered by 100 or 150 mg/kg of naloxone given 1 hr after LRR to model an antidotal situation. Use of a longer duration narcotic antagonist, naltrexone (172 mg/kg), in the same design likewise failed to elevate the LD50 for diazepam. These data give limited support to prior suggestions for clinical usefulness of naloxone, although not for physostigmine, in the management of intoxication caused by diazepam.

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Marjorie A. Walz

Thyroid Effects on Adenosine 3′,5′-Monophosphate Levels and Adenylate Cyclase in Cultured Neuroblastoma Cells*

Cyclic nucleotide phosphodiesterase isozymes in neuroblastoma cells

Experimental Diazepam Intoxication in Rodents: Physostigmine and Naloxone as Potential Antagonists

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