Juta K. Reed scite author profile

9-(Dicyanovinyl)julolidine (DCVJ) is a fluorescent dye whose intramolecular rotational relaxation is solvent dependent. Since its quantum yield increases with decreasing free volume, this molecule has been very useful in monitoring synthetic polymer reactions and measuring local microviscosity changes in phospholipid bilayers [Loutfy, R. O. (1986) Pure Appl. Chem. 58, 1239-1248; Kung, C. E., & Reed, J. K. (1986) Biochemistry 25, 6114-6121]. We have used DCVJ to follow the polymerization of tubulin, a protein that can assemble into a variety of polymorphic microstructures. DCVJ binding to free tubulin is accompanied by an increase in quantum yield, indicating that DCVJ has become partially immobilized. At 4 degrees C, DCVJ binds to a single population of high-affinity hydrophobic sites (Kd = 1.12 +/- 0.26 microM) with a stoichiometry that is protein concentration dependent. n, the number of moles of DCVJ bound per mole of alpha beta dimer, approaches 1 at concentrations less than or equal to 0.5 mg/mL but decreases to a lower limit of approximately 0.3 at concentrations greater than or equal to 2.0 mg/mL. The quantum yield also increases with increasing protein concentration. This trend is unaltered by the presence of microtubule-associated proteins. These results are analyzed in terms of a concentration-dependent oligomerization of tubulin at 4 degrees C. When tubulin is polymerized at 37 degrees C to microtubules or to sheets in the presence of Zn2+, the fluorescence intensity of DCVJ increases although the magnitude of this increase differs significantly. We are able to use the distinct fluorescent and binding characteristics of the bound dye to distinguish between these two polymorphs on a molecular level.

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Properties of the tetrodotoxin binding component in plasma membranes isolated from Electrophorus electricus

Reed¹,

Raftery²

1976

Biochemistry

126

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The biochemical properties of the electrically excitable sodium channels in the electroplaque of Electrophorus electricus were investigated using tritiated tetrodotoxin (TTX) as a specific membrane probe. Membrane fragments from the electroplaque were isolated essentially by differential centrifugation and characterized with respect to the plasma membrane markers acetylcholine receptors, acetylcholinesterase, (Na+ + K+)ATPase, and [3H]TTX binding. Equilibrium binding studies showed that [3H]TTX bound to a single population of noninteracting receptor sites with an apparent dissociation constant of 6 +/- 1 X 10(-9) M. The toxin-membrane complex dissociated with a first-order rate constant of 0.012 sec-1. Studies on the pH dependence of complex formation demonstrated the requirement for an ionizable, functional group with a pK of 5.3 and this group has been shown to be a carboxyl. Treatment of the membranes with trimethyloxonium tetrafluoroborate, a carboxyl group modifying reagent, resulted in an irreversible loss in the binding of [3H]TTX, which could be prevented by low concentrations of TTX or saxitoxin. This decrease was due to a reduction in the total number of binding sites and not to a decrease in toxin binding affinities. The relative binding affinities of various monovalent alkali metal and polyatomic cations for the TTX-receptor site showed that this site displayed cation discrimination properties which were similar to those reported previously for the electrically excitable sodium channel in intact nerve fibers. A possible role for this site in the ion selectivity of the sodium channel is proposed.

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Intracellular signalling by nucleotide receptors in PC12 pheochromocytoma cells

Raha

Souza

Reed

1993

Journal Cellular Physiology

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The effect of extracellular ATP was studied in PC12 cells, a neurosecretory line that releases ATP. The addition of micromolar concentrations of ATP to PC12 cells evoked a transient increase in the cytosolic free Ca2+ concentration ([Ca2+]i), as measured with the Ca(2+)-sensitive dye fura 2. AMP and adenosine were without effect, ruling out the involvement of P1 receptors in mediating this response. The increase in [Ca2+]i was reduced in calcium-free media and virtually eliminated by the addition of EGTA, suggesting that calcium influx was the primary response initiated by extracellular ATP. Nucleotide triphosphates such as UTP and, to a lesser degree, ITP also evoked an increase in [Ca2+]i while GTP and CTP had little effect. In order to identify the receptor subtype mediating this response, the efficacy of ATP and ATP cogeners was assessed. The rank order potency was ATP > adenosine 5'-[gamma-thio]triphosphate > ADP > 2-methylthioadenosine triphosphate (2-MeSATP) approximately adenosine 5'-[beta-thio]diphosphate >> adenosine 5'-[alpha beta-methylene] triphosphate, adenosine 5'[beta gamma-imido]triphosphate. This profile is not characteristic of either the P2X or the conventional P2Y receptors. The Ca2+ response exhibited desensitization to ATP that was dependent on the extracellular metabolism of ATP. UTP was equally effective in desensitizing the response. ATP, UTP, ITP, and to a much lesser extent 2MeSATP increased inositol phosphate production in a dose-dependent manner, suggesting receptor coupling to phosphatidylinositol-specific phospholipase C. These data are consistent with the view that PC12 cells express a class of non-P2Y nucleotide receptors (P2N) that mediate calcium influx and the accumulation of inositol phosphates.

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Juta K. Reed

Trophic effects of purines in neurons and glial cells

Microviscosity measurements of phospholipid bilayers using fluorescent dyes that undergo torsional relaxation

Fluorescent molecular rotors: a new class of probes for tubulin structure and assembly

Properties of the tetrodotoxin binding component in plasma membranes isolated from Electrophorus electricus

Intracellular signalling by nucleotide receptors in PC12 pheochromocytoma cells

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