Ion transport and structure of urinary bladder epithelium of Amphiuma

Mullen, TL; Kashgarian, Michael; Biemesderfer, Daniel; Giebisch, GH; Biber, TU

doi:10.1152/ajplegacy.1976.231.2.501

Cited by 8 publications

(1 citation statement)

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“…It would be important to determine in these species whether granules fuse with the surface at a steady rate in the absence of stimulation and thus contribute to maintaining the steady-state permeability of the bladder. In at least some of these species the unstimulated bladders show a high permeability to water (Brodsky & Schlib, 1965;Mullen et al, 1976).…”

Section: Discussionmentioning

confidence: 99%

Quantitative analysis of exocytosis and endocytosis in the hydroosmotic response of toad bladder

1980

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This study concerns the timing and magnitude of exocytosis and endocytosis in the granular cells of toad bladder during the hydroosmotic response to antidiuretic hormone. Granule exocytosis at the luminal cell surface is extensive within 5 min of the administration of a physiological dose of hormone. Hydroosmosis becomes detectable during this time period. The amount of membrane added to the luminal surface by exocytosis during 60 min of exposure to hormone can be of the same order of magnitude as the extent of the luminal plasma membrane. Endocytosis, demonstrated by peroxidase uptake from the luminal surface, becomes extensive during the period 15-45 min after hormone administration. Thus, maximal endocytic activity occurs later than the period of most extensive exocytosis and seems to correlate with the onset of the decline in water movement. The amount of membrane retrieved from the luminal surface by endocytosis during 60 min of stimulation is at least three quarters of that added by exocytosis. The bulk membrane movement in ADH stimulated preparations does not require the presence of an osmotic gradient. Colchicine inhibits the hydroosmotic response, the exocytosis of granules, and endocytosis at the luminal surface. These results strengthen our view that the bulk circulation of membrane at the cell surface, via exocytosis and endocytosis, is closely related to the permeability changes occurring at the surface.

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Section: Discussionmentioning

confidence: 99%

Quantitative analysis of exocytosis and endocytosis in the hydroosmotic response of toad bladder

1980

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Central Neuroendocrine Regulation of Brain Water Permeability

Raichle¹,

Grubb²,

Eichling³

1978

Ciba Foundation Symposium 56 ‐ Cerebral Vascular Smooth Muscle and Its Control

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Osmoregulation and Excretion

Larsen

Deaton

Onken

et al. 2014

Comprehensive Physiology

185

141

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The article discusses advances in osmoregulation and excretion with emphasis on how multicellular animals in different osmotic environments regulate their milieu intérieur. Mechanisms of energy transformations in animal osmoregulation are dealt with in biophysical terms with respect to water and ion exchange across biological membranes and coupling of ion and water fluxes across epithelia. The discussion of functions is based on a comparative approach analyzing mechanisms that have evolved in different taxonomic groups at biochemical, cellular and tissue levels and their integration in maintaining whole body water and ion homeostasis. The focus is on recent studies of adaptations and newly discovered mechanisms of acclimatization during transitions of animals between different osmotic environments. Special attention is paid to hypotheses about the diversity of cellular organization of osmoregulatory and excretory organs such as glomerular kidneys, antennal glands, Malpighian tubules and insect gut, gills, integument and intestine, with accounts on experimental approaches and methods applied in the studies. It is demonstrated how knowledge in these areas of comparative physiology has expanded considerably during the last two decades, bridging seminal classical works with studies based on new approaches at all levels of anatomical and functional organization. A number of as yet partially unanswered questions are emphasized, some of which are about how water and solute exchange mechanisms at lower levels are integrated for regulating whole body extracellular water volume and ion homeostasis of animals in their natural habitats. © 2014 American Physiological Society.

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Ion transport and structure of urinary bladder epithelium of Amphiuma

Cited by 8 publications

References 0 publications

Quantitative analysis of exocytosis and endocytosis in the hydroosmotic response of toad bladder

Quantitative analysis of exocytosis and endocytosis in the hydroosmotic response of toad bladder

Central Neuroendocrine Regulation of Brain Water Permeability

Osmoregulation and Excretion

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