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Query: UNIPROT:P41181 (
collecting duct
)
5,183
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Carbonic anhydrase II-deficient mice offer a possibility to study the localization along the nephron of
membrane-associated carbonic anhydrase
(CA) activity without interference from the cytoplasmic enzyme. We studied the localization of CA in kidneys from CA II-deficient and control mice by immunocytochemistry (CA II) and histochemistry. Cytoplasmic staining was found in convoluted proximal tubule, thick limb of Henle, and principal and intercalated cells of
collecting duct
in the control animals but was absent in the CA II-deficient mice. In cells with cytoplasmic staining the cell nuclei were stained. Intense histochemical activity was associated with apical and basolateral membranes of convoluted proximal tubule, first part of thin limb, thick limb, and basolateral membranes of late distal tubule. In collecting ducts of control animals, the basolateral cell membranes of intercalated cells were the only clearly stained membranes. In CA II-deficient animals one type of intercalated cell was stained most intensely at the apical membranes and another only at the basolateral. We suggest that the former corresponds to Type A intercalated cells secreting H+ ions to the luminal side and the latter to Type B cells secreting H+ ions to the basolateral side.
...
PMID:Membrane-associated carbonic anhydrase activity in the kidney of CA II-deficient mice. 143 Oct 55
The distribution of membrane-bound carbonic anhydrase,
CA IV
, was studied in human kidneys by an indirect immunoperoxidase method using a rabbit polyclonal antibody directed against human kidney
CA IV
. Clear staining of
CA IV
was found in the apical cell borders of some cells in the cortical and medullary segments of the collecting ducts, presumably the A type of intercalated cells. Weak staining for
CA IV
was located in the interior of a number of
collecting duct
cells and in the basolateral regions of the proximal convoluted tubules. However, no staining was found in the brush border of the same tubules. This is a surprising finding, since evidence for carbonic anhydrase activity has been found biochemically and histochemically both in isolated brush-border and baso-lateral membranes. Further work is needed to clarify this matter. The endothelium of the peritubular capillaries also stained for
CA IV
.
...
PMID:Membrane-bound carbonic anhydrase CA IV in the human kidney. 190 75
The mesonephric kidney, precursor to the metanephric kidney, comprises 30-50 nephrons, each with a glomerulus and proximal, distal, and collecting tubules. Although two different cell types have been identified in the mesonephric collecting tubule, no relationship to cells of the metanephric
collecting duct
has been established. To characterize expression of some of the acid-base-related proteins, we assayed for carbonic anhydrase (CA) activity and performed immunocytochemistry in mesonephroi from 15- to 20-day-old fetal rabbits. From total RNA, we detected expression of CA II and
CA IV
mRNA. Microdissected proximal and collecting tubules abundantly expressed both CA II and
CA IV
, at least to the extent observed in mature metanephric proximal tubules and collecting ducts. Histochemistry confirmed the expression of CA activity in these segments; in the collecting tubule, 28% of the collecting tubule cells were CA rich. Most CA-rich cells showed apical H(+)-ATPase and basolateral band 3 anion exchanger staining consistent with the findings in mature H(+)-secreting (alpha) intercalated cells of the metanephric
collecting duct
. CA-negative cells could be labeled with an antibody that identifies mature metanephric principal cells. Thus the mesonephric collecting tubule has many cells resembling mature alpha-intercalated cells and a majority of cells resembling principal cells. The similarity to the metanephric
collecting duct
suggests that the lineages of metanephric alpha-intercalated and principal cells may be closely related to those of the mesonephros.
...
PMID:Expression of acid-base-related proteins in mesonephric kidney of the rabbit. 781 Jul 7
The renal carbonic anhydrases, CA II (cytosolic) and
CA IV
(membrane bound), are believed to facilitate renal acid secretion. We have recently shown that renal cortical sodium dodecyl sulfate (SDS)-resistant hydratase (presumably
CA IV
) activity was stimulated 241% during chronic metabolic acidosis (CMA). In the present study, we examined the expression and regulation of
CA IV
mRNA in kidneys from control and acidotic rabbits. To obtain a
CA IV
probe, we reverse transcribed rabbit kidney total RNA and amplified a approximately 780-base pair (bp) DNA product using primers derived from the human
CA IV
sequence. Using this product, we screened one-half of a kidney cortex cDNA library and sequenced a 1,194-bp cDNA, which contained the entire open-reading frame of rabbit
CA IV
. The cDNA was 78% identical to human and 71% to rat
CA IV
. The deduced amino acid sequence projected an active zinc binding site and two glycosylation sites. Northern analysis yielded a single transcript of approximately 1,600 bp in size expressed more abundantly in cortex and inner medulla than in outer medulla.
CA IV
mRNA was also expressed abundantly in lung but not in liver or spleen. The high abundance of
CA IV
mRNA in inner medulla was localized by in situ hybridization to medullary
collecting duct
cells. Rabbits exposed to CMA showed significant upregulation of
CA IV
mRNA expression in kidney cortex and outer medulla. Despite a numerical increase, excessive variability precluded statistical significance in the inner medulla. Thus
CA IV
mRNA was expressed abundantly in kidney and stimulated by CMA, similar to what has been previously observed for SDS-resistant hydratase (presumed
CA IV
) activity. It is likely that the regulation of
CA IV
mRNA and activity is relevant to the kidney's adaptation to CMA.
...
PMID:Expression of carbonic anhydrase IV mRNA in rabbit kidney: stimulation by metabolic acidosis. 914 58
Membrane-bound luminal carbonic anhydrase (CA) IV, by catalyzing the dehydration of carbonic acid into CO2 plus water, facilitates H+ secretion in the renal outer medullary
collecting duct
from the inner stripe (OMCDi). To examine the role of
CA IV
on H+ secretion, we measured net HCO3- transport in perfused OMCDi segments and examined the effect on transport of two extracellular CA inhibitors, benzolamide and F-3500, aminobenzolamide coupled to a nontoxic polymer, polyoxyethylene bis(acetic acid) [synthesized and kindly provided by C. Conroy and T. Maren (C. W. Conroy, G. C. Wynns, and T. H. Maren. Bioorg, Chem, 24: 262-272, 1996)]. These agents would inhibit only the luminal CA enzyme. Dose titration curves for net HCO3- flux were performed for each drug. Basal HCO3- absorptive flux was 12 pmol.min-1.mm-1 in control segments and significantly increased to 16 pmol.min-1.mm-1 in segments from 3-day acid-treated animals. The concentrations of benzolamide and F-3500 that inhibited HCO3- absorption by 50% were approximately 0.1 and approximately 5 microM, similar to the Ki for
CA IV
inhibition by these agents (0.2 and 4.0 microM, respectively; T. Maren, C. W. Conroy, G. C. Wynns, and D. R. Godman. J. Pharmacol. Exp. Ther. 280: 98-105, 1997). Adding exogenous CA to the inhibitor in the perfusate nearly restored basal HCO3- transport, suggesting that cytosolic CA II was not inhibited by these impermeant inhibitors. In OMCDi segments from acidotic rabbits, the concentrations of benzolamide and F-3500 that inhibited HCO3- absorption by 50% were 50 and 500 microM, respectively, > 100 times the Ki for
CA IV
inhibition and for inhibition of HCO3- transport in control tubules. Thus, in the OMCDi, doses of extracellular CA inhibitors that inhibited approximately 50% of
CA IV
activity also comparably inhibited HCO3- transport, indicating that H+ secretion depends in part on the availability of luminal
CA IV
activity. Acidosis substantially decreased the sensitivity of HCO3- transport to CA inhibition.
...
PMID:HCO3- absorption in rabbit outer medullary collecting duct: role of luminal carbonic anhydrase. 945 33
Carbonic anhydrase (CA) facilitates renal bicarbonate reabsorption and acid excretion. Cytosolic CA II catalyzes the buffering of intracellular hydroxyl ions by CO2, whereas membrane-bound
CA IV
catalyzes the dehydration of carbonic acid generated from the secretion of protons. Although CA II and IV are expressed in rabbit kidney, it is not entirely clear which segments express which isoforms. It was the purpose of this study to characterize the expression of CA II and
CA IV
mRNAs by specific segments of the nephron using semiquantitative reverse transcription-polymerase chain reaction (RT-PCR) and to determine the effect of chronic metabolic acidosis on CA expression by those segments. Individual nephron segments (usually 1-2 mm) were isolated by microdissection and subjected to RT-PCR. Amplification was performed simultaneously for
CA IV
, CA II, and malate dehydrogenase (MDH), a housekeeping gene. The intensities of the PCR products were quantitated by densitometry.
CA IV
mRNA was expressed by S1 and S2 proximal tubules and by outer medullary
collecting duct
from inner stripe (OMCDi) and outer stripe and initial inner medullary
collecting duct
(IMCDi). CA II mRNA was expressed by S1, S2, and S3 proximal tubules, thin descending limb, connecting segment (CNT), and all
collecting duct
segments. Acid loading induced
CA IV
mRNA expression in S1 and S2 proximal tubules and in OMCDi and IMCDi. CA II mRNA was induced by acidosis in all three proximal segments and nearly all distal segments beginning with CNT. No upregulation of MDH mRNA expression occurred. These adaptive increases in CA II and IV mRNAs are potentially important in the kidney's adaptation to chronic metabolic acidosis.
...
PMID:Carbonic anhydrase II and IV mRNA in rabbit nephron segments: stimulation during metabolic acidosis. 948 20
Carbonic anhydrase (CA) IV activity facilitates renal acidification by catalyzing the dehydration of luminal carbonic acid.
CA IV
has been localized to the proximal tubules and medullary collecting ducts. Maturation of
CA IV
expression has been considered to be important in the development of renal acid excretion. The purpose of the present study was to determine the maturational expression of
CA IV
in rabbit kidney. A guinea pig polyclonal antibody to purified rabbit lung microsomal membrane
CA IV
was generated. Immunoblotting of membrane proteins after peptide-N-glycosidase F treatment revealed two N-glycosylation sites and reduction in size from approximately 52 to 35 kDa; there appeared to be heavier glycosylation in the medulla. In membrane and total proteins from the kidney cortex,
CA IV
was 15-30% of the adult level during the first 2 wk of life but increased to mature levels by 5 wk of age. The maturational pattern in the cortex was confirmed by measuring SDS-resistant CA hydratase activity. In the medulla, both membrane and total proteins were generally less than one-fourth of the adult level of
CA IV
during the first 2 wk of life before reaching mature levels by 5 wk of age. Immunohistochemistry showed staining in proximal tubules (apical > basolateral), with maximal label in the S2 segment.
CA IV
also appeared on the apical membranes of a minority cell type of the cortical
collecting duct
, presumably the alpha-intercalated cell. Several labeled cells also appeared to be the process of being extruded from medullary collecting ducts of 1- to 2-wk rabbits. The antibody did not reliably detect medullary
CA IV
expression in sections from mature rabbits. These studies indicate that there is a substantial postnatal increase in expression of
CA IV
in the maturing kidney in both the cortex and medulla. The disappearance of intercalated cells in the maturing rabbit medullary
collecting duct
may be part of a normal renal developmental program as previously reported [J. Kim, J.-H. Cha, C. C. Tisher, and K. M. Madsen. Am. J. Physiol. 270 (Renal Fluid Electrolyte Physiol. 39): F575-F592, 1996]. It is likely that the maturation of
CA IV
expression contributes to the increase in renal acidification observed early in postnatal life.
...
PMID:Postnatal development of carbonic anhydrase IV expression in rabbit kidney. 1019 9
Carbonic anhydrase (CA) IV is a membrane-bound enzyme that catalyzes the dehydration of carbonic acid to CO(2) and water. Using peptides from each end of the deduced rabbit
CA IV
amino acid sequence, we generated a goat anti-rabbit
CA IV
antibody, which was used for immunoblotting and immunohistochemical analysis.
CA IV
was expressed in a variety of organs including spleen, heart, lung, skeletal muscle, colon, and kidney. Rabbit kidney
CA IV
had two N-glycosylation sites and was sialated, the apparent molecular mass increasing by at least 11 to approximately 45 kDa in the cortex. Medullary
CA IV
was much more heavily glycosylated than
CA IV
from cortex or any other organ, such modifications increasing the molecular mass by at least 20 kDa.
CA IV
was expressed on the apical and basolateral membranes of proximal tubules with expression levels on the order of S2 > S1 > S3 = 0. Because
CA IV
is believed to be anchored to the apical membrane by glycosylphosphatidylinositol, the presence of basolateral
CA IV
suggests an alternative mechanism.
CA IV
was localized on the apical membranes of outer medullary
collecting duct
cells of the inner stripe and inner medullary
collecting duct
cells, as well as on alpha-intercalated cells. However,
CA IV
was not expressed by beta-intercalated cells, glomeruli, distal tubule, or Henle's loop cells. Thus
CA IV
was expressed by H(+)-secreting cells of the rabbit kidney, suggesting an important role for
CA IV
in urinary acidification.
...
PMID:Carbonic anhydrase IV is expressed in H(+)-secreting cells of rabbit kidney. 1083 77
Carbonic anhydrase (CA) IV facilitates renal acidification by catalyzing the dehydration of luminal H(2)CO(3).
CA IV
is expressed in proximal tubules, medullary collecting ducts, and A-intercalated cells of the mature rabbit kidney (Schwartz GJ, Kittelberger AM, Barnhart DA, and Vijayakumar S. Am J Physiol 278: F894-F904, 2000). In view of the maturation of HCO transport in the proximal tubule and
collecting duct
, the ontogeny of
CA IV
expression was examined. During the first 2 wk,
CA IV
mRNA was expressed in maturing cortex and medulla at ~20% of adult levels. The maturational increase was gradual in cortex over 3-5 wk of age but surged in the medulla, so that mRNA levels appeared higher than those in the adult medulla. In situ hybridization showed very little
CA IV
mRNA at 5 days, with increases in deep cortex and medullary collecting ducts by 21 days. Expression of
CA IV
protein in the cortex and medulla was minimal at 3 days of age but then apparent in the juxtamedullary region, A-intercalated cells and medullary collecting ducts by 18 days; there was little labeling of the proximal straight tubules of the medullary rays. Thus
CA IV
expression may be regulated to accommodate the maturational increase in HCO absorption in the proximal tubule. In the medullary
collecting duct
, there is a more robust maturation of
CA IV
mRNA and protein, commensurate with the high rate of HCO absorption in the neonatal segment.
...
PMID:Maturation of carbonic anhydrase IV expression in rabbit kidney. 1129 33
Carbonic anhydrase (CA) is an important enzyme in the kidney and facilitates renal acidification by catalvzing the reversible hydration of CO2 and the dehydration of bicarbonate. Currently, 14 isoforms of CA have been identified, of which CA II,
CA IV
, CA XII and possibly CA XIV are expressed by the kidney. Cytosolic CA II comprises -95% of renal CA, with the remainder being membrane-associated. CA II, while being nearly ubiquitous in the body, is also expressed by a large number of nephron segments, including proximal convoluted and straight tubules, thin descending limbs of Henle's loop, thick ascending limbs of Henle's loop in some species, intercalated cells of the cortical and medullary collecting ducts, and weakly in principal cells and inner medullary collecting ducts of some species; CA II is not found in glomeruli. Most membrane-associated CA is attributed to isoform IV, which is linked to the apical membrane via a glycosylphosphatidylinositol anchor; however, there is data showing that
CA IV
is also localized on the basolateral membranes of proximal tubule cells. How the basolateral form is linked to the membrane is not yet understood.
CA IV
is expressed on the luminal membrane of proximal convoluted and straight tubules, alpha-intercalated cells of cortical and medullary collecting ducts, and all cells of initial inner medullary collecting ducts. Another membrane isoform, CA XII, is also present in the kidney and probably situated in the basolateral membrane as a single-pass transmembrane protein. One study localizes CA XII to the distal nephron, while another places it in proximal tubules and inner medullary collecting ducts; confirmatory studies are needed for CA XII. The localization of CA XIV in the kidney is still under investigation. Functional studies clearly show the importance of apical and basolateral membrane CAs in mediating bicarbonate and fluid absorption in proximal tubules and of the apical membrane CA activity in mediating H+ secretion in the
collecting duct
. To establish other roles for CA in the kidney will require further kinetic, functional, immunolocalization and cloning studies.
...
PMID:Physiology and molecular biology of renal carbonic anhydrase. 1202 23
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