681 Ammonia Transport Mechanisms in Rat Duodenum and Colon

This review will briefly summarize current knowledge on the basolateral ammonia transport mechanisms in the thick ascending limb (TAL) of the loop of Henle. This segment transports ammonia against a concentration gradient and is responsible for the accumulation of ammonia in the medullary interstitium, which, in turn, favors ammonia secretion across the collecting duct. Experimental data indicate that the sodium/hydrogen ion exchanger isoform 4 (NHE4; Scl9a4) is a sodium/ammonia exchanger and plays a major role in this process. Disruption of murine NHE4 leads to metabolic acidosis with inappropriate urinary ammonia excretion and decreases the ability of the TAL to absorb ammonia and to build the corticopapillary ammonia gradient. However, NHE4 does not account for the entirety of ammonia absorption by the TAL, indicating that, at least, one more transporter is involved.

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The transcriptome of anal papillae of Aedes aegypti reveals their importance in xenobiotic detoxification and adds significant knowledge on ion, water and ammonia transport mechanisms

Journal of Insect Physiology ◽

10.1016/j.jinsphys.2021.104269 ◽

2021 ◽

pp. 104269

Author(s):

Andrea C. Durant ◽

Elia Grieco Guardian ◽

Dennis Kolosov ◽

Andrew Donini

Keyword(s):

Aedes Aegypti ◽

Transport Mechanisms ◽

Xenobiotic Detoxification ◽

Ammonia Transport ◽

Anal Papillae

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Ammonia transport in the mammalian kidney

AJP Renal Physiology ◽

10.1152/ajprenal.1985.248.4.f459 ◽

1985 ◽

Vol 248 (4) ◽

pp. F459-F471 ◽

Cited By ~ 12

Author(s):

D. W. Good ◽

M. A. Knepper

Keyword(s):

Transport Processes ◽

Proximal Tubules ◽

In Vivo Studies ◽

Transport Mechanisms ◽

Mammalian Kidney ◽

Nephron Segments ◽

Isolated Perfused Tubule ◽

Collecting Ducts ◽

Ammonia Transport

Ammonia, an important urinary buffer in mammals, is synthesized primarily in the proximal tubules and is transferred to the final urine by a sequence of specialized transport processes. The pathway of ammonia transfer to the urine involves secretion into the proximal tubules, absorption from the loops of Henle, accumulation in the renal medullary interstitium, and secretion into the collecting ducts. Ammonia is transported as NH3 at some nephron sites and as NH+4 at others. In this paper, we discuss the physical basis of NH3 and NH+4 transport in epithelia and then describe ammonia transport mechanisms in individual nephron segments. Information about ammonia transport in individual nephron segments from isolated perfused tubule studies is integrated with data from in vivo studies to obtain an expanded overall model of renal ammonia handling.

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Physical Properties of Isolated Perfused Renal Tubular Basement Membranes

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100065997 ◽

1971 ◽

Vol 29 ◽

pp. 390-391

Author(s):

Jared Grantham ◽

Larry Welling

Keyword(s):

Basement Membrane ◽

Basement Membranes ◽

Transport Mechanisms ◽

Permeability Characteristics ◽

Peritubular Capillaries ◽

Strategic Location ◽

Tubular Lumen ◽

Glomerular Filtrate ◽

Urine Formation ◽

Renal Tubular

In the course of urine formation in mammalian kidneys over 90% of the glomerular filtrate moves from the tubular lumen into the peritubular capillaries by both active and passive transport mechanisms. In all of the morphologically distinct segments of the renal tubule, e.g. proximal tubule, loop of Henle and distal nephron, the tubular absorbate passes through a basement membrane which rests against the basilar surface of the epithelial cells. The basement membrane is in a strategic location to affect the geometry of the tubules and to influence the movement of tubular absorbate into the renal interstitium. In the present studies we have determined directly some of the mechanical and permeability characteristics of tubular basement membranes.

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