Add to ORKGIn this review the authors summarize the present insight about cell volume regulation in the European eel (Anguilla anguilla), highlighting findings on the intestinal epithelium, which serves as one of the main osmoregulatory organs in the fish. This tissue is a useful model system for functional studies of epithelia that perform near-isosmotic fluid absorption and has specifically been used as a physiological model for the study of cell volume regulation in epitheli
As previously reported (Lionetto et al., J. Exp. Biol., 208: 749-760, 2005) the eel intestinal epith...
The eel intestinal epithelium responds to an acute hypertonic challenge by a biphasic increase of th...
The ability of eel intestinal epithelial cells to recover from an acute acid load was analysed using...
Aim: A wide variety of cell types are challenged by volume perturbations resulting from changes in e...
Cell volume undergoes dynamic changes in many cellular events like epithelial transport, metabolic p...
Aim. The high conductance Ca2+-dependent K+ channels (BKCa) are ubiquitously expressed in both excit...
Control of cell volume is a fundamental and highly conserved physiological mechanism, essential for...
Aim: The intestinal epithelium of the European eel is a good physiological model for cell volume reg...
Epithelia are physiologically exposed to osmotic stress resulting in alteration of cell volume in se...
Epithelia are physiologically exposed to osmotic stress resulting in alteration of cell volume in s...
The intestinal epithelium of the euryhaline teleost fish, Anguilla anguilla, absorbs Cl-transepithel...
Aim: The intestinal epithelium of the euryhaline teleost, Anguilla anguilla, is a good model for ce...
Review This review focuses on using the knowledge on volume-sensitive transport systems in Ehrlich a...
The eel is a euryhaline teleost. In order to maintain osmotic equilibrium the animal must resist los...
The eel is a euryhaline teleost. In order to maintain osmotic equilibrium the animal must resist los...
As previously reported (Lionetto et al., J. Exp. Biol., 208: 749-760, 2005) the eel intestinal epith...
The eel intestinal epithelium responds to an acute hypertonic challenge by a biphasic increase of th...
The ability of eel intestinal epithelial cells to recover from an acute acid load was analysed using...
Aim: A wide variety of cell types are challenged by volume perturbations resulting from changes in e...
Cell volume undergoes dynamic changes in many cellular events like epithelial transport, metabolic p...
Aim. The high conductance Ca2+-dependent K+ channels (BKCa) are ubiquitously expressed in both excit...
Control of cell volume is a fundamental and highly conserved physiological mechanism, essential for...
Aim: The intestinal epithelium of the European eel is a good physiological model for cell volume reg...
Epithelia are physiologically exposed to osmotic stress resulting in alteration of cell volume in se...
Epithelia are physiologically exposed to osmotic stress resulting in alteration of cell volume in s...
The intestinal epithelium of the euryhaline teleost fish, Anguilla anguilla, absorbs Cl-transepithel...
Aim: The intestinal epithelium of the euryhaline teleost, Anguilla anguilla, is a good model for ce...
Review This review focuses on using the knowledge on volume-sensitive transport systems in Ehrlich a...
The eel is a euryhaline teleost. In order to maintain osmotic equilibrium the animal must resist los...
The eel is a euryhaline teleost. In order to maintain osmotic equilibrium the animal must resist los...
As previously reported (Lionetto et al., J. Exp. Biol., 208: 749-760, 2005) the eel intestinal epith...
The eel intestinal epithelium responds to an acute hypertonic challenge by a biphasic increase of th...
The ability of eel intestinal epithelial cells to recover from an acute acid load was analysed using...