The intestinal basolateral membrane Ca(2+)-transporting adenosinetriphosphatase is the energy-dependent step in the absorption of dietary Ca2+ by the vitamin D-dependent transcellular pathway. Multiple plasma membrane Ca(2+)-pump isoforms are produced from four genes (PMCA1 to 4) and alternative mRNA splicing. We have studied which isoforms are detectable in adult human and rat gastrointestinal tissues by polymerase chain reaction (PCR) amplification, sequencing, and blotting. PMCA1 was the predominant gene product amplified from human small intestinal mucosa, although a minor additional variant lacking the exon at splice site B was detected, which resembled that described for PMCA4. Of the variants described at site C, only the shortest transcript of PMCA1 was amplified; both previously described forms of PMCA4 were found, particularly in colon where PMCA4 predominated. From rat intestinal cDNA, mixed primer PCR amplified PMCA1 and a novel sequence, the rat PMCA4 homologue, which was expressed in many tissues including small intestinal muscle and colon. However, PMCA1 was overwhelmingly predominant in the mucosa of the small intestine, being most abundant in duodenum. These results suggest the involvement of the Ca(2+)-pump isoform PMCA1b in intestinal Ca2+ absorption.
Patients with coeliac disease may present with calcium malabsorption but it is unclear whether this results in longterm impairment of bone mineralisation. Dual
Sixty-five alcoholic patients admitted for detoxification had blood pressure, withdrawal symptoms, plasma cortisol (PC) and plasma aldosterone (PA) levels, plasma renin activity (PRA), and serum dopamine beta-hydroxylase (DBH) levels measured on the first and fourth days after admission. On the morning after admission blood pressure was elevated (greater than 140/90) in 32 patients (49%) and was 160/95 mmHg or more in 21 (32%). PRA was initially elevated in 41 patients, PA levels in 14, and 13 patients had raised PC levels. By the fourth day, blood pressure and biochemical measures had fallen significantly while urine volume and sodium output, low on admission, had increased significantly. On admission urinary metanephrine levels were raised in four out of the 31 patients who had them measured. The height of both the systolic and diastolic blood pressures was significantly related to the severity of the alcohol withdrawal symptoms. Of the biochemical parameters measured, PC level correlated with systolic but not diastolic pressure, and urinary volume was inversely correlated with the height of the diastolic pressure. No relationship was found between blood pressure and PRA or PA level. The pressor effect of alcohol withdrawal could be due to sympathetic nervous system overactivity, or possibly to hypercortisolaemia . The first hypothesis seems more likely.
Rat duodenal cells were isolated sequentially to give fractions enriched for villus and crypt cells. From each of these fractions, basolateral-enriched membrane vesicles were prepared and ATP-dependent calcium uptake was studied. Calcium uptake was sensitive to temperature, was inhibited by vanadate and by A23187, and was lower in vitamin D-deficient animals. In normal animals, calcium transport was approximately twofold greater in villus-tip than in crypt cell-fraction basolateral membranes though the affinity of the uptake for calcium was similar (Km = 0.3 microM). In vitamin D-deficient animals, the crypt-to-villus gradient was reduced, and in all fractions, calcium transport was similar to or lower than that in the crypts of normal animals. Six hours after vitamin D-deficient animals were repleted with 1,25-dihydroxycholecalciferol, a significant increase in calcium transport by everted gut sacs was present; however, basolateral calcium transport was significantly increased in only the mid-villus fractions, and no change was seen in the villus-tip fractions. Thus vitamin D appears necessary for the development of increased basolateral membrane calcium pump activity in duodenal villus cells, but not all cells in vitamin D-deficient rats are able to respond to 1,25-dihydroxycholecalciferol.
The plasma membrane Ca(2+)-pumping adenosinetriphosphatase (PMCA) is the energy-dependent step in the active vitamin D-dependent absorption of dietary Ca2+ by the enterocyte. Studies of the various PMCA genes and splicing variants in humans and rats have indicated that the isoform known as PMCA1b is the predominant form expressed in small intestine. Using an oligonucleotide probe, we have studied the regional and cellular distribution of PMCA1 transcripts in rabbit intestinal tissues by in situ hybridization. On small intestinal RNA blots, this hybridized to species similar in size to those detected by PMCA1-specific cDNA probes; an additional larger transcript was present in rabbit than in rat or human. In situ hybridization signals were principally in the enterocyte population of the mucosa and were maximal in differentiating enterocytes on the lower part of the villus, a pattern similar to that previously demonstrated for other nutrient transporters. Reflecting the capacity of the different small intestinal segments to transport Ca2+, much higher levels of transcript were detected by both methods proximally (in duodenum) than distally (in jejunum and ileum) and were also higher in cecum and ascending colon mucosa than in descending colon. We conclude that as enterocytes differentiate in regions that absorb Ca2+, they express high levels of mRNA for PMCA1. These results confirm the importance of transcriptional regulation of this gene for active Ca2+ absorption.
There is limited information on the validity of bone mineral content measurement by dual energy X-ray absorptiometry (DXA BMC) for use in subjects with low body mass. We evaluated the accuracy and precision of DXA in piglets (body weight 886-5526 g, median 2096 g). Stepwise multiple regression analyses showed that ash weight is the major determinant of DXA BMC (adjusted r2 = 0.98, RMS residual = 3.61 g). The intercept was not significantly different from zero. DXA BMC measurements of other piglets under various clinical situations showed no significant effect from the use of cotton blanket, diaper, or positioning (prone, supine, lateral). In vivo replication of DXA BMC measurements of infants at a postnatal age of from 1-350 days showed a slope of 0.99 and high correlation coefficient (r2 = 0.99, RMS residual = 3.59 g). The intercept was not significantly different from zero, and the average coefficient of variation of duplicate DXA BMC in infants was 2.8%. We conclude that DXA BMC reliably but proportionately underestimates ash weight and is a highly precise method for measuring bone mineral status in young pediatric subjects.
Dual X-ray absorptiometry (DXA) measurements have been shown to provide useful information on bone mineral status in young pediatric subjects. The purpose of this study was to challenge this system under various conditions to determine the clinical and experimental parameters that may be encountered which could interfere with DXA-based bone mineral content (BMC) and bone mineral density (BMD) measurements. Variations in data acquisition, including the covering of step phantom (external calibration standard) with a cotton blanket or partial exclusion of step phantom in the scan field, tissue freezing, or the presence of small nonmetallic objects, did not significantly alter DXA BMC or BMD measurements. By contrast, the presence of movement artifact, radiographic contrast media, and nonmetallic orthopedic casts significantly interfered with DXA BMC and BMC measurements. Variability in operator-dependent analysis of DXA scans occurred with regional analysis of whole body scans for DXA BMC and BMD measurements (average coefficient of variation was 2.9% and 1%, respectively, depending on the region analyzed) but did not affect the total (whole body) result. A minor adjustment in the manual delineation of the step phantom during data analysis may result in almost a 30% difference in DXA BMC and BMD. We conclude that movement artifact, radiographic contrast media, nonmetallic or orthopedic cast, and variations in operator-dependent data analysis may interfere with DXA BMC and BMD measurement in young pediatric subjects. Therefore, appropriate care should be taken to reduce or eliminate such interference.
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