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Target Concepts:
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Query: UMLS:C0403608 (
ureter
)
9,655
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Renal production of ammonia by the left kidney was studied in 31 acidotic dogs (NH(4)Cl) after acute constriction of the renal artery. Renal ammoniagenesis fell in direct proportion with the reduction in glomerular filtration rate and renal plasma flow. The renal extraction of
glutamine
by the experimental kidney fell in direct proportion with the reduction in renal hemodynamics. Extracted
glutamine
remained greater than filtered
glutamine
indicating that both the luminal and antiluminal transport sites were operative. The relationship between renal extraction of
glutamine
and ammoniagenesis observed during control was maintained after renal artery constriction (1.7 mumol NH(3) produced for each mumol of
glutamine
extracted). Systemic venous or renal intra-arterial infusion of
glutamine
during arterial constriction increased renal production of ammonia to or above control values. These observations indicate that the mechanisms responsible for
glutamine
extraction and ammonia production were operating normally despite reduced hemodynamics. When measured immediately after arterial clamping, the renal venous pNH(3) was found to rise significantly decreasing progressively thereafter towards control values. The extracted fraction of total
glutamine
delivered to the kidney (31%) did not change after acute reduction of the
glutamine
load. Thus, the antiluminal extraction site was incapable of lowering renal venous plasma
glutamine
concentration below 0.33 muM/ml. In a second series of experiments, the properties of the antiluminal site of transport for
glutamine
were studied after complete occlusion of the left
ureter
in acidotic and nonacidotic animals. Under these circumstances, it was demonstrated that the antiluminal site is capable of extracting sufficient
glutamine
to maintain total ammonia production at 60% or more of control. In acidotic animals, changes in cellular pNH(3) appeared to play a key role on the antiluminal extraction of
glutamine
since the significant rise in renal blood flow often observed after ureteral occlusion prevented the rise in pNH(3) noted when blood flow remained constant. Thus, when renal blood flow rose
glutamine
extraction and ammonia production were maintained at control values. In these acidotic animals,
glutamine
infusion failed to influence ammonia production until luminal transport was restored by release of ureteral clamp and resumption of glomerular filtration. The latter observation establishes that reabsorbed
glutamine
is utilized at least in part for ammonia production.
...
PMID:Renal hemodynamics and ammoniagenesis. Characteristics of the antiluminal site for glutamine extraction. 481 45
Drosophila embryos lacking hindsight gene function have a normal body plan and undergo normal germ-band extension. However, they fail to retract their germ bands. hindsight encodes a large nuclear protein of 1920 amino acids that contains fourteen C2H2-type zinc fingers, and
glutamine
-rich and proline-rich domains, suggesting that it functions as a transcription factor. Initial embryonic expression of hindsight RNA and protein occurs in the endoderm (midgut) and extraembryonic membrane (amnioserosa) prior to germ-band extension and continues in these tissues beyond the completion of germ-band retraction. Expression also occurs in the developing tracheal system, central and peripheral nervous systems, and the
ureter
of the Malpighian tubules. Strikingly, hindsight is not expressed in the epidermal ectoderm which is the tissue that undergoes the cell shape changes and movements during germ-band retraction. The embryonic midgut can be eliminated without affecting germ-band retraction. However, elimination of the amnioserosa results in the failure of germ-band retraction, implicating amnioserosal expression of hindsight as crucial for this process. Ubiquitous expression of hindsight in the early embryo rescues germ-band retraction without producing dominant gain-of-function defects, suggesting that hindsight's role in germ-band retraction is permissive rather than instructive. Previous analyses have shown that hindsight is required for maintenance of the differentiated amnioserosa (Frank, L. C. and Rushlow, C. (1996) Development 122, 1343-1352). Two classes of models are consistent with the present data. First, hindsight's function in germ-band retraction may be limited to maintenance of the amnioserosa which then plays a physical role in the retraction process through contact with cells of the epidermal ectoderm. Second, hindsight might function both to maintain the amnioserosa and to regulate chemical signaling from the amnioserosa to the epidermal ectoderm, thus coordinating the cell shape changes and movements that drive germ-band retraction.
...
PMID:Control of germ-band retraction in Drosophila by the zinc-finger protein HINDSIGHT. 918 40
