H. Lee scite author profile

SUMMARY A quick‐freeze, freeze‐substitution method is described which employs glutaraldehyde as well as osmium tetroxide (OsO4) in a ‘double‐fixation’ protocol comparable to that used for conventional transmission electron microscopy. Cultured cells are quick‐frozen in Freon 22 and freeze‐substituted in an ethanolic solution of glutaraldehyde. Specimens destined for TEM are postfixed in OsO4 in acetone, embedded in Epon‐Araldite, and sectioned. This method yielded ultrastructural preservation which was comparable to that obtained from methods employing OsO4 alone as a freeze‐substitution fixative. However, if glutaraldehyde is used alone as a freeze‐substitution fixative, specimens can be processed for immunocytochemistry without additional treatment with permeabilizing agents.

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Toxic and teratologic effects of verapamil on early chick embryos: Evidence for the involvement of calcium in neural tube closure

Lee

Nagele

1986

Teratology

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Toxic and teratologic effects of verapamil, a calcium antagonist, on chick embryos explanted at stage 8 (four-somite stage) and cultured for 6-8 hours were investigated. In general, embryos responded to verapamil in a dose-related manner. Concentrations lower than 2 micrograms/ml had no apparent effect on the development of embryos. A concentration of 15 micrograms/ml significantly increased the incidence of embryos (approximately 80% of viable embryos) with neural tube closure defects and less numerous somites. Higher concentrations (e.g., 30 micrograms/ml) were embryotoxic and over 90% of the embryos were either severely malformed or dead after 8 hours of incubation. Compared to controls, verapamil-treated neuroepithelial cells had smoother apical surfaces and less conspicuous microfilament bundles. The deleterious effects of verapamil (15 micrograms/ml) could be reversed by subculturing the affected embryos, within 3 hours of treatment, on nutrient medium alone or on nutrient medium containing 25 micrograms/ml chlorotetracycline (CTC), a calcium agonist, the latter being more effective provided that treatment did not exceed 4 hours. Exposure of the developing neuroepithelium to 15 micrograms/ml verapamil for 3-4 hours resulted in a significant reduction in free Ca2+ levels, as revealed by the pyroantimonate precipitation method, throughout neuroepithelial cells. Overall results suggest that verapamil causes neural tube closure defects by reducing intracellular free Ca2+ levels, thereby relaxing apical microfilament bundles of developing neuroepithelial cells.

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Neural tube defects caused by local anesthetics in early chick embryos

Lee

Nagele

1985

Teratology

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The effects of local anesthetics (ketamine HCl, lidocaine HCl, procaine HCl, and tetracaine HCl) on stage 8 (four-somite) chick embryos were investigated. In general, embryos responded to drug treatment in a dose-related manner during the first 6 hr of incubation. Concentrations of 500 micrograms/ml (ca. 2 mM) or higher were embryolethal, whereas 100-200 micrograms/ml (0.1-0.8 mM) preferentially inhibited elevation of neural folds. The latter effect was detectable within 3 hr of treatment and was readily reversible. Tetracaine was the most potent among the four local anesthetics tested at any given dose. Compared to controls, cells in the defective neuroepithelium were less elongated and exhibited smoother apical (luminal) surfaces, thinner microfilament bundles, and less intense actin-specific fluorescence. Furthermore, the effects of local anesthetics (100-200 micrograms/ml) on stage 8 chick embryos were not identical to those of cytochalasin D (0.05 micrograms/ml), colchicine (1 microgram/ml), or ionophore A23187 (25 micrograms/ml), although all treatments produced neural tube defects. Overall results suggest that local anesthetics inhibit closure of the neural tube through their disruptive action on the organization and function of microfilaments in developing neuroepithelial cells.

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A method for studying the three‐dimensional organization of cytoskeletal elements of cells: improvements in the polyethylene glycol technique

Nagele

Roisen

Lee

1983

Journal of Microscopy

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SUMMARY A method utilizing polyethylene glycol (PEG) as an extractable embedment for electron microscopy is described. Tissues are fixed according to conventional protocols, embedded in PEG, and sectioned. Sections (ranging from 100 to 500 nm in thickness) are mounted on grids, divested of their PEG matrix, critical‐point‐dried, and examined stereoscopically. This method greatly facilitates studies on the three‐dimensional organization of cytoskeletal and cytoplasmic contractile systems in both muscle and nonmuscle cells.

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H. Lee

Astrocytes accumulate Aβ42 and give rise to astrocytic amyloid plaques in Alzheimer disease brains

A method for preparing quick‐frozen, freeze‐substituted cells for transmission electron microscopy and immunocytochemistry

Toxic and teratologic effects of verapamil on early chick embryos: Evidence for the involvement of calcium in neural tube closure

Neural tube defects caused by local anesthetics in early chick embryos

A method for studying the three‐dimensional organization of cytoskeletal elements of cells: improvements in the polyethylene glycol technique

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