Confocal microscopic observation of cytoskeletal reorganizations in cultured shark rectal gland cells following treatment with hypotonic shock and high external K+.

The dogfish shark (Squalus acanthias) rectal gland (SRG) cell has served as a model experimental system for investigating the relationship between the actin cytoskeleton and cell volume regulation. Previous reports employing conventional fluorescence microscopy of tissue slices have shown that cells exposed to high external K+ and hypotonically-induced cell swelling displayed a fading of F-actin staining intensity, particularly at the basolateral cell borders. However, spectroscopic measurement of the F-actin present in similarly treated rectal gland slices failed to demonstrate a net change in F-actin amount.

William Hewson's studies of red blood corpuscles and the evolving concept of a cell membrane.

The botanist Carl Nägeli is generally considered to have laid the basis for the cell membrane concept by his 1855 study of the osmotic properties of plant cells. It is shown here that William Hewson in 1773 presented cogent experimental evidence for the concept of a cell membrane in red blood corpuscles. Although his work was largely confirmed in subsequent studies, and a cell membrane became an attribute of the cell in T.

Na(+)-dependent and Na(+)-independent systems of choline transport by plasma membrane vesicles of A549 cell line.

Membrane vesicles of A549 lung cells accumulate choline by two pathways: the Na(+)-independent uphill uptake of choline [Michaelis-Menten constant (Km) approximately 44 microM; steady-state gradient approximately 45 at 5 microM external choline] is dependent on a transmembrane H+ gradient, is relatively insensitive to hemicholinium-3, is amiloride sensitive, and is abolished by valinomycin plus carbonyl cyanide p-trifluoromethoxyphenylhydrazone (FCCP). The Na(+)-dependent active choline uptake (Km approximately 4 microM, inhibitor constant for hemicholinium-3 approximately 0.1 microM), is specific for Na+, is amiloride and FCCP sensitive, and is electrogenic: the overshoot using K(+)-loaded vesicles and NaCl gradient was increased by valinomycin.

Transport of choline by plasma membrane vesicles from lung-derived epithelial cells.

A549 cells, a lung epithelium-derived cell line, were used as a model system to study choline transport by granular pneumocytes. Intact cells accumulated free choline against a concentration gradient by a low-affinity transport system with kinetic characteristics similar to that previously described for granular pneumocytes (Am. J.

Polarity of transport of 2-deoxy-D-glucose and D-glucose by cultured renal epithelia (LLC-PK1).

At least two types of glucose transporter exist in cultured renal epithelial cells, a Na(+)-glucose cotransporter (SGLT), capable of interacting with D-glucose but not 2-deoxy-D-glucose (2dglc) and a facilitated transporter (GLUT) capable of interacting with both D-glucose and 2dglc. In order to examine the polarity of transport in cultured renal epithelia, 2dglc and D-glucose uptakes were measured in confluent cultures of LLC-PK1 cells grown on collagen-coated filters that permitted access of medium to both sides of the monolayer. The rates of basolateral uptake of both 1 mM glucose (Km 3.