Frederick J. Miller

A model of the regional uptake of gaseous pollutants in the lung

An ozone (O3) dosimetry model is presented that takes into account convection and diffusion of O3 in the lumen and airspaces of the lower respiratory tract and transport and chemical reactions in the mucous and surfactant layers and in the underlying tissue and capillaries. The model was applied to human airway morphometric data. Values for the chemical and physical parameters that define the liquid tissue and blood compartments were based on reported experimental data. Simulation results illustrate the variability of results due to an uncertainty in the knowledge of transport parameters, liquid, tissue, and blood compartment thicknesses, and chemical reaction rates. Results were most sensitive to mucous compartment thickness and reaction rate constant and least sensitive to transport and blood parameters. Exercise was simulated, showing little effect on tracheobronchial uptake but a pronounced effect on pulmonary uptake.

Using sea urchin gametes for the study of mitosis.

Publisher Summary This chapter describes the methods found useful for the study of cell division in early cleavage stage sea urchin zygotes. Successful and reliable fertilization of sea urchin eggs is simple if a few precautions are kept in mind. First, use only clean glassware that has not been exposed to fixatives or metal ions. If the glassware is washed in a central facility, be certain that there is no residual detergent present. There have been good results with the use of “conditioned” glassware that is dedicated to use with live cells. At the end of the day rinse the glassware with distilled water and store it filled with distilled water. The glassware should be thoroughly washed if it is exposed to drugs. To conduct routine fertilizations prepare a sperm solution adding just enough sperm to the test tube to make the water barely opalescent. If the sperms are too concentrated, there is the risk of polyspermy. A dilute solution of eggs is prepared and a small amount of sperm solution is added. There is no precise ratio that needs to be attained, but the water around the eggs should appear clear to the eye.

A Sealed Preparation for Long-Term Observations of Cultured Cells

INTRODUCTIONThe continuous long-term observation of cultured cells on the microscope has always been a technically demanding undertaking. This protocol describes a sealed preparation that allows the continuous long-term observation of cultured mammalian cells on upright or inverted microscopes without environmental CO(2) control. The preparation allows for optical conditions consistent with high-quality imaging and good cell viability for at least 100 hours. The preparation is an aluminum support slide with a square aperture cut in its center. The coverslip bearing the cells is attached to the top of the slide with a thin layer of silicone grease, and the bottom of the slide is similarly covered with a clean coverslip of the same size. The thickness of the slide is intended to coordinately maximize the volume of the medium while maintaining optical properties that allow Koehler illumination with standard condensers. The chamber is filled in equal parts with HEPES-buffered media containing fetal calf serum and a low-viscosity fluorocarbon oil. These oils have a high solubility for atmospheric gases. The inclusion of the oil in the preparations is intended to provide a source of oxygen and perhaps a sink for some of the CO(2) produced by the cells. Although the inclusion of fluorocarbon oil in the preparation may not be necessary for short-term (~24 hr) observations, particularly with cells that are sparsely plated, long-term cell viability is ensured when the oil is present.

Influence of ozone on pentobarbital pharmacokinetics in mice

Previous studies have indicated that acute exposure to ambient concentrations of ozone (O3) as low as 196 micrograms/m3 (0.1 ppm) increases pentobarbital (PEN)-induced sleeping time in female mice. To elucidate potential mechanisms involved, additional studies were performed. A 3 h exposure to 9800 micrograms O3/m3 (5 ppm) did not affect brain concentrations of PEN at time of awakening, even though sleeping time was increased. Exposure for 3 h to 9800 micrograms O3/m3 (5 ppm) did not alter the pattern of brain or plasma metabolites of PEN. Pentobarbital clearance followed first-order kinetics with a one-compartment model. Mice exposed to 9800 micrograms O3/m3 (5 ppm) for 3 h had a 106% increase in the plasma half-life of pentobarbital; at 1960 micrograms O3/m3 (1 ppm) for 3 h, a 71% increase was observed. It therefore appears possible that PEN-induced sleeping time might be increased due to an decrease in hepatic metabolism of PEN.

2,5-Hexanedione-treated tubulin microinjected into sea urchin zygotes induces mitotic abnormalities

Zygotes of Lytechinus pictus and Lytechinus variegatus were microinjected with 2,5-hexanedione (2,5-HD)-treated tubulin prior to the first mitotic cycle. Mitotic spindles were small with a well-defined metaphase plate, but poor birefringence and poor astral development. Abnormalities were observed in chromosome movement at anaphase and cytokinesis. Neither microinjections of untreated tubulin or 3-acetyl-2,5-hexanedione-treated tubulin, nor incubation of zygotes in 2,5-HD-containing sea water produced abnormalities. The results can be explained in terms of the nondissociating properties of 2,5-HD-treated tubulin. 2,5-HD-treated tubulin dissociates slowly from microtubules, a property which, besides favoring the formation of stable microtubules, allows this tubulin to induce microtubule assembly when present in substoichiometric amounts. These characteristics have been implicated as a cause of 2,5-HD-induced Sertoli cell dysfunction. The effect of 2,5-HD-treated tubulin on microtubule dynamics in sea urchin zygotes may bear similarities to the effects of 2,5-HD treatment in vivo on Sertoli cell microtubules.

Activation of protein kinase C alters p34(cdc2) phosphorylation state and kinase activity in early sea urchin embryos by abolishing intracellular Ca2+ transients.

The p34(cdc2) protein kinase, a universal regulator of mitosis, is controlled positively and negatively by phosphorylation, and by association with B-type mitotic cyclins. In addition, activation and inactivation of p34(cdc2) are induced by Ca(2+) and prevented by Ca(2+) chelators in permeabilized cells and cell-free systems. This suggests that intracellular Ca(2+) transients may play an important physiological role in the control of p34(cdc2) kinase activity. We have found that activators of protein kinase C can be used to block cell cycle-related alterations in intracellular Ca(2+) concentration ([Ca(2+)](i)) in early sea urchin embryos without altering the normal resting level of Ca(2+). We have used this finding to investigate whether [Ca(2+)](i) transients control p34(cdc2) kinase activity in living cells via a mechanism that involves cyclin B or the phosphorylation state of p34(cdc2). In the present study we show that the elimination of [Ca(2+)](i) transients during interphase blocks p34(cdc2) activation and entry into mitosis, while the elimination of mitotic [Ca(2+)](i) transients prevents p34(cdc2) inactivation and exit from mitosis. Moreover, we find that [Ca(2+)](i) transients are not required for the synthesis of cyclin B, its binding to p34(cdc2) or its destruction during anaphase. However, in the absence of interphase [Ca(2+)](i) transients p34(cdc2) does not undergo the tyrosine dephosphorylation that is required for activation, and in the absence of mitotic [Ca(2+)](i) transients p34(cdc2) does not undergo threonine dephosphorylation that is normally associated with inactivation. These results provide evidence that intracellular [Ca(2+)](i) transients trigger the dephosphorylation of p34(cdc2) at key regulatory sites, thereby controlling the timing of mitosis entry and exit.