Donna L. Lewand

Regulation of pH in rat papillary tubule cells in primary culture.

To investigate the mechanisms responsible for urinary acidification in the terminal nephron, primary cultures of cells isolated from the renal papilla were grown as monolayers in a defined medium. Morphologically, cultured cells were epithelial in type, and similar to collecting duct principal cells. Cell pH measured fluorometrically in monolayers grown on glass slides showed recovery from acid loads in Na+-free media. Recovery was inhibited by cyanide, oligomycin A, and N-ethylmaleimide. Cyanide and oligomycin inhibited recovery less in the presence than in the absence of glucose. When cells were first acid loaded in a Na+-free medium and then exposed to external Na+, pH recovery also took place. This recovery exhibited first-order dependence on Na+ concentration and was inhibited by 5-(N-ethyl-N-isopropyl)amiloride. These studies demonstrate that in culture, collecting duct principal cells possess at least two mechanisms for acid extrusion: a proton ATP-ase and an Na+-H+ exchanger. The former may be responsible for some component of the urinary acidification observed in the papillary collecting duct in vivo; the role of the latter in acid-base transport remains uncertain.

Actions of a nicotinic agonist, DMPP, on intestinal ion transport invitro

Abstract High-dose carbachol (10−3 M) has previously been shown to cause NaCl absorption in short-circuited rabbit ileum. The mechanism of this effect may be norepinephrine release induced by carbachol activation of presynaptic nicotinic receptors on adrenergic neurons. Norepinephrine then interacts with postsynaptic α-adrenergic receptors on intestinal mucosal cells to stimulate neutral NaCl absorption and inhibit electrogenic bicarbonate secretion. The present paper examines the in vitro intestinal ion transport effects of DMPP an agent which is more specific than carbachol on nicotinic cholinergic receptors. DMPP (10−5 M) caused a transient increase followed by prolonged depression of the short-circuit current, increased NaCl absorption and increased tissue conductance. This effect was antagonized by hexamethonium and phentolamine. It is concluded that nicotinic cholinergic agents stimulate norepinephrine release from adrenergic nerves and effect intestinal ion transport just as norepinephrine does.

Cellular metallothionein: Properties of apometallothionein and the comparative toxicity of Cd2+ and Cd-metallothionein

Two controversial facets of metallothionein biochemistry and toxicology center on the existence of measurable concentrations of apometallothionein in cells and the hypothesis that Cdmetallothionein is the species which causes toxicity to the kidney proximal tubule [1, 2]1 This contribution addresses both issues.