Effects of ovariectomy on duodenal calcium transport in the rat: altered ability to adapt to low-calcium diet

Studies were undertaken to determine whether ovariectomy (ovx) would alter the ability of female rats to adapt to low dietary Ca intake by exhibiting an in duodenal active Ca transport. Intact and ovx female rats were fed diets containing 1.5, 0.50, or 0.02% Ca prior to measuring active Ca transport using everted duodenal sacs in vitro. In some experiments, ovx animals were pair-fed to intact animals of the same age consuming the same diet. When ovx animals were allowed to eat ad lib, we found that both growth rate and duodenal active Ca transport increased relative to age-matched, intact controls. However, when growth of ovx animals was maintained at the control rate by pair-feeding, ovx per se did not affect intestinal active Ca transport. Ovx did not alter circulating levels of 1,25-dihydroxyvitamin D (1,25(OH)2D). We found that intact females responded to the low-Ca (0.02%) diet with increased circulating 1,25(OH)2D levels and increased intestinal active Ca transport. Ovx animals exhibited the same increase in circulating concentrations of 1,25(OH)2D in response to low-Ca diet, but did not demonstrate increased duodenal active Ca transport. When ovx animals consumed the diet ad lib, they became larger and exhibited higher Ca transport rates than intact animals fed the high-Ca diet, but there was no difference in Ca transport between ovx animals fed diets containing different Ca contents. The results of these experiments demonstrate that in female rats, the ability to adapt to altered dietary Ca intake is dependent on intact ovarian function and is not necessarily directly related to circulating concentrations of 1,25(OH)2D.     

Effect of dietary calcium and phosphorus restriction on calcium and phosphorus balance in young and old rats

Previous studies have shown that the serum levels of the primary regulators of calcium (Ca) and phosphorus (P) metabolism, 1,25-dihydroxyvitamin D and parathyroid hormone, may change with age. Therefore, the effect of age on the ability of the rat to maintain a positive Ca and P balance was determined. Young (1.5 months) and old (18 months) rats were divided into three groups and fed either a low-Ca, high-P diet; a high-Ca, low-P diet; or a high-Ca, high-P diet. After 14 days, the young rats were in positive Ca and P balance regardless of diet. The old rats on the low-Ca, high-P diet were in negative Ca balance and positive P balance. The old rats on the other diets were in positive Ca and P balance. The negative Ca balance of the old rats was due to decreased intestinal absorption of Ca. Intestinal absorption was assessed by determining the percentage of dietary Ca absorbed in vivo and by measuring the active transport of Ca using the everted gut sac in vitro. Intestinal P absorption showed little change with age, except for a decrease in old rats on the high-Ca, low-P diet. Renal adaptation to dietary Ca and P restriction was similar in both young and old animals. Plasma Ca levels were unchanged with age, but plasma P levels decreased with age regardless of diet. These changes in Ca balance with age may reflect the reported decrease in serum 1,25-dihydroxyvitamin D₃ levels and the slight increase in PTH levels with age. The inability of old rats to maintain a positive Ca balance in the face of Ca deprivation is consistent with a general characteristic of the aging process—the decreased ability of an organism to adapt to changes in the external environment.     

Effect of age on duodenal 1,25-dihydroxyvitamin D-3 receptors in Wistar rats

We confirmed our previous observation that duodenal Ca2+ absorption and serum 1,25-dihydroxyvitamin D (1,25-(OH)2D) levels declined concurrently in old (24 months old) rats as compared to young (6 months old) rats. It is well known that 1,25-dihydroxyvitamin D-3 (1,25-(OH)2D3) expresses its action after binding to specific receptor molecules. In this paper, we compared certain properties of rat duodenal 1,25-(OH)2D3 receptors from old and young animals. Receptor preparations were incubated with [3H]1,25-(OH)2D3 to quantitate the number of unoccupied and total receptor sites and showed that total and unoccupied receptor sites decreased by 22 and 16%, respectively in old rats. Endogenously occupied sites were reduced by 43% in duodenum of the old rat and, consequently, the percentage of receptor occupancy also declined. Age did not affect the dissociation constant (KD) of 1,25-(OH)2D3 from the receptor; the sedimentation coefficient (3.3 S) of the tritiated 1,25-(OH)2D3-receptor complex in sucrose density centrifugation; or its affinity for DNA. The data are consistent with the hypothesis that the age-related decline in Ca2+ absorption in the intestine may be due, in part, to the decrement in the circulating level of 1,25-(OH)2D and a reduction of intestinal 1,25-(OH)2D3 receptor occupancy status.     

Capacity of a low calcium diet to induce the renal vitamin D 1a-hydroxylase is decreased in adult rats

Young animals adapt to a low calcium diet by increasing renal production of 1,25-dihydroxyvitamin D [1,25(OH)2D], the active metabolite of vitamin D. However, the capacity of adult animals to adapt is markedly diminished. With the recent cloning of the cytochrome P450 component (CYP1a) of the renal 1-hydroxylase enzyme complex, it is now possible to determine directly the effect of dietary calcium and maturation on the expression of renal 1-hydroxylase. Using a ribonuclease protection assay, it was found that feeding a low Ca diet markedly increased renal CYP1a mRNA levels in young rats. However, feeding this diet to adult rats produced an increase in CYP1a mRNA that was only 10% that of the young rats. These studies demonstrate that a low calcium diet increases renal 1,25-dihydroxyvitamin D production in young animals but not in adult animals by increasing CYP1a expression. Since the low calcium diet increased plasma parathyroid hormone levels to similar levels in both age groups, this suggests that in the adult there is a renal refractoriness to parathyroid hormone.     

Calcium transport by basal lateral membrane vesicles from rat small intestine decreases with age

There is a marked decrease in active Ca2+ transport by the rat small intestine with age, particularly between 2 and 12 months. Much evidence suggests that the active component of Ca2+ transport resides in the energy-dependent pumping of Ca2+ across the intestinal basal lateral membrane. Therefore, we have characterized Ca2+ uptake by basal lateral membrane vesicles isolated from young (2-3 month old) and adult (12-14 month old) rats. In vesicles from the proximal duodenum, ATP-dependent Ca2+ uptake was about 4-times greater in the young animal than in the adult. There were no age differences in Ca2+ uptake in the absence of ATP. In vesicles from the ileum, Ca2+ uptake was much less than in the duodenum. The age differences in the ileum were smaller, and ATP-dependent Ca2+ uptake in the young was only twice that seen in the adult. Osmotic lysis of duodenal vesicles reduced Ca2+ uptake to low levels in both age groups, indicating that most of the Ca2+ was being taken up into an osmotically active space. Kinetic studies of Ca2+ uptake showed that there was no change in the apparent affinity but a 5-fold decrease in the Vmax of the adult Ca2+ transport system compared to that of the young animal. This marked decrease in the capacity of basal lateral membrane vesicles to actively transport Ca2+ may contribute to the decline in intestinal Ca2+ absorption with age.     

Effect of 1,25-dihydroxyvitamin D3 on intestinal calcium absorption in strontium-fed rats.

These studies investigated the initial stimulation of intestinal calcium absorption in the rat by 1,25-dihydroxyvitamin D₃. To produce a functional vitamin D₃-deficiency, rats were fed a diet containing 2.4% strontium. After 10 days on the diet, intestinal calcium uptake, as measured by everted gut sacs, was significantly depressed. Strontium-fed rats were dosed orally with 1,25-dihydroxyvitamin D₃, and changes in intestinal calcium uptake, intestinal alkaline phosphatase activity, and intestinal calcium-binding protein were measured as a function of time after dose. Calcium uptake was significantly increased in the proximal 2.5 cm of the duodenum at 4 h and along the whole duodenum by 7 h. Intestinal alkaline phosphatase activity, measured in a Triton extract of the mucosal homogenate and in isolated brush border complexes, was also increased by 7 h. Using both gel electrophoresis and immunodiffusion against a specific antiserum, an increase in intestinal calcium-binding protein was detected in intestinal supernate at 4 h after dosing. Almost no calcium-binding protein was detectable in strontium-fed rats dosed with propylene glycol only. These time studies are consistent with a role for both alkaline phosphatase and calcium-binding protein in the 1,25-dihydroxyvitamin D₃-stimulated uptake of calcium by the intestine. In addition, the usefulness of strontium feeding for producing a functional vitamin D₃ deficiency in rats is demonstrated.     

Effect of age and dietary calcium on intestinal calbindin D-9k expression in the rat

The capacity of rats and humans to adapt to low dietary Ca by increasing intestinal Ca absorption declines with age. The intestinal calbindin-D-9k protein (calbindin) is thought to play a role in the transcellular transport of Ca across the mammalian intestine. The purpose of these studies was to determine the effect of age and diet on the expression of calbindin at the protein and mRNA levels. Young (2 month) and adult (12 month) male F344 rats were placed on either a high Ca diet (1.2%) or a low Ca diet (0.02%) for four weeks. In the duodenum, the level of intestinal calbindin protein induced by a low Ca diet was 8-fold higher in young rats compared to adult rats. In the ileum, expression of calbindin protein was only about 10% that of the duodenum. In addition, the adult ileum showed the same decreased adaptation to a low Ca diet that was seen in the adult duodenum. In both the duodenum and the ileum, the changes in calbindin protein expression were highly correlated with calbindin mRNA expression and the correlations in each segment were quantitatively similar. In the duodenum, the changes in calbindin protein levels were strongly correlated with both Ca transport and Ca uptake. This quantitative correlation suggests a role for calbindin protein in the age-related decline in Ca absorption. In the ileum, the decreased adaptation to a low Ca diet may also be important given the long transit time through the distal intestine. The changes in both intestinal segments may contribute to the negative Ca balance seen in adult rats fed a low Ca diet.     

1 alpha, 25-Dihydroxy-vitamin D-3 regulates ATP-dependent calcium transport in basolateral plasma membranes of rat enterocytes

Basolateral plasma membrane vesicles of rat small intestinal epithelium accumulate calcium through an ATP-dependent pumping system. The activity of this system is highest in duodenum and decreases towards the ileum. This distribution along the intestinal tract is similar as the active calcium absorption capacity of intact intestinal epithelial segments. ATP-dependent calcium uptake in basolateral membrane vesicles from duodenum and ileum increased significantly after repletion of young vitamin D-3-deficient rats with 1 alpha,25-dihydroxy-vitamin D-3. Ca2+ -ATPase activity in duodenal basolateral membranes increased to the same extend as ATP-dependent calcium transport, but (Na+ + K+)-ATPase activity remained unaltered.     

Ovariectomy worsens secondary hyperparathyroidism in mature rats during low-Ca diet

Estrogen deficiency impairs intestinal Ca absorption and induces bone loss, but its effects on the vitamin D-endocrine system are unclear. In the present study, calciotropic hormones levels, renal vitamin D metabolism, 1,25-dihydroxyvitamin D3 [1,25(OH)2D3]-dependent intestinal calcium absorption, and bone properties in 3-mo-old sham-operated (sham) or ovariectomized (OVX) rats fed either a normal-Ca (NCD; 0.6% Ca, 0.65% P) or a low-Ca (LCD; 0.1% Ca, 0.65% P) diet for 2 wk were determined. LCD increased serum 1,25(OH)2D3 levels in both sham and OVX rats. Serum parathyroid hormone [PTH(1-84)] levels were highest in OVX rats fed LCD. Renal 25-hydroxyvitamin D1alpha-hydroxylase (1-OHase) protein expression was induced in both sham and OVX rats during LCD, while renal 1-OHase mRNA expression was highest in OVX rats fed LCD. Renal vitamin D receptor (VDR) and mRNA expressions in rats were induced by ovariectomy in rats fed NCD but suppressed by ovariectomy in rats fed LCD. The induction of intestinal calcium transporter-1 and calbindin-D9k mRNA expressions by LCD were not altered by ovariectomy. As expected, bone Ca content, cancellous bone mineral density, and bone strength index in proximal metaphysis of rat tibia were reduced by both ovariectomy and LCD (P<0.05) as analyzed by two-way ANOVA. Taken together, the data demonstrate that ovariectomy alters the responses of circulating PTH levels, renal 1-OHase mRNA expression, and renal VDR expression to LCD. These results suggest that estrogen is necessary for the full adaptive response to LCD mediated by both PTH and 1,25(OH)2D3.     

Effect of age, vitamin D, and calcium on the regulation of rat intestinal epithelial calcium channels

Transepithelial transport of calcium involves uptake at the apical membrane, movement across the cell, and extrusion at the basolateral membrane. Active vitamin D metabolites regulate the latter two processes by induction of calbindin D and the plasma membrane ATPase (calcium pump), respectively. The expression of calbindin D and the calcium pump declines with age in parallel with transepithelial calcium transport. The apical uptake of calcium is thought to be mediated by the recently cloned calcium channels-CaT1 (or ECaC2, TRPV6) and CaT2 (or ECaC1, TRPV5). The purpose of these studies was to determine whether there were age-related changes in intestinal calcium channel regulation and to identify the dietary factors responsible for their regulation. Young (2 months) and adult (12 months) rats were fed either a high calcium or low calcium diet for 4 weeks. The low calcium diet significantly increased duodenal CaT1 and CaT2 mRNA levels in both age groups, but the levels in the adult were less than half that of the young. The changes in calcium channel expression with age and diet were significantly correlated with duodenal calcium transport and with calbindin D levels. To elucidate the relative roles of serum 1,25(OH)2D3 and calcium in the regulation of calcium channel expression, young rats were fed diets containing varying amounts of calcium and vitamin D. Dietary vitamin D or exogenous 1,25(OH)2D3 more than doubled CaT1 mRNA levels, and this regulation was independent of dietary or serum calcium. These findings suggest that the apical calcium channels, along with calbindin and the calcium pump, may play a role in intestinal calcium transport and its modulation by age, dietary calcium, and 1,25(OH)2D3.     

Long-term prolactin exposure differentially stimulated the transcellular and solvent drag-induced calcium transport in the duodenum of ovariectomized rats

Prolactin, having been shown to stimulate transcellular active and solvent drag-induced calcium transport in the duodenum of female rats, was postulated to improve duodenal calcium transport in estrogen-deficient rats. The aim of the present study was, therefore, to demonstrate the effects of long-term prolactin exposure produced by anterior pituitary (AP) transplantation on the duodenal calcium transport in young (9-week-old) and adult (22-week-old) ovariectomized rats. We found that ovariectomy did not alter the transcellular active duodenal calcium transport in young and adult rats fed normal calcium diet (1.0% w/w Ca) but decreased the solvent drag-induced duodenal calcium transport from 75.50 +/- 10.12 to 55.75 +/- 4.77 nmol.hr(-1).cm(-2) (P < 0.05) only in adult rats. Long-term prolactin exposure stimulated the transcellular active calcium transport in young and adult AP-grafted ovariectomized rats fed with normal calcium diet by more than 2-fold from 7.56 +/- 0.79 to 16.54 +/- 2.05 (P < 0.001) and 9.78 +/- 0.72 to 15.99 +/- 1.75 (P < 0.001) nmol.hr(-1).cm(-2), respectively. However, only the solvent drag-induced duodenal calcium transport in young rats was enhanced by prolactin from 95.51 +/- 10.64 to 163.20 +/- 18.03 nmol.hr(-1).cm(-2) (P < 0.001) whereas that in adult rats still showed a decreased flux from 75.50 +/- 10.12 to 47.77 +/- 5.42 nmol.hr(-1).cm(-2) (P < 0.05). Because oral calcium supplement has been widely used to improve calcium balance in estrogen-deficient animals, the effect of a high-calcium diet (2.0% w/w Ca) was also investigated. The results showed that stimulatory action of long-term prolactin on the transcellular active duodenal calcium transport in both young and adult rats was diminished after being fed a high-calcium diet. The same diet also abolished prolactin-enhanced solvent drag-induced duodenal calcium transport in young and further decreased that in adult AP-grafted ovariectomized rats. We concluded that the solvent drag-induced duodenal calcium transport in adult rats was decreased after ovariectomy. Long-term prolactin exposure stimulated the transcellular active duodenal calcium transport in both young and adult rats whereas enhancing the solvent drag-induced duodenal calcium transport only in young rats. Effects of prolactin were abolished by a high-calcium diet.     

Calcium uptake by isolated rat intestinal cells

Intestinal cells were isolated by a combination of mechanical and enzymatic means, and their calcium uptake was assayed by a rapid filtration procedure. Calcium uptake was a time- and concentration-dependent process that was markedly elevated at 25 and 37°C, as compared to 0°C. Cells isolated from rat duodenum exhibited higher uptakes than cells from jejunum, which in turn took up more calcium than cells from the ileurn. Duodenal cells from vitamin D-deficient animals took up less calcium than cells from vitamin D-replete cells. In vivo vitamin D repletion with 1,25-dihydroxyvitamin D₃ raised calcium uptake by duodenal cells from treated animals toward that of cells from replete rats. Furthermore, calcium uptake by duodenal cells from vitamin D-deficient animals approximated that of ileal cells from replete rats. These findings with isolated cells parallel prior findings of tissue calcium transport and suggest that cellular calcium uptake may be related to the saturable component of intestinal calcium absorption. Isolated intestinal cells may therefore constitute one experimental model for the study of transcellular calcium transport.     

Rat ileal alkaline phosphatase activity and secretion is stimulated by alterations in calcium metabolism

The mechanism of calmodulin-stimulated alkaline phosphatase activity was studied in the rat. In calmodulin-treated rats (2.5 micrograms/animal, intraperitoneally) alkaline phosphatase (ALP) activity was elevated 11-fold in the ileum, 1.5-fold in the duodenum and calvarium, 3-fold in serum, and not at all in liver. The elevated ALP activity was prevented by prior treatment with flunarizine, a calcium channel blocker, and by W-7, a calmodulin antagonist. cAMP content in ileum paralleled the timing and changes in ALP activity, but was not elevated in the duodenum or calvarium. Calcium ionophore A23187 and calcitonin treatment also increased ileal, duodenal, and calvarial ALP activity, but by less than the response to calmodulin. All of these treatments caused a 2-fold elevation in serum 1,25-dihydroxyvitamin D-3 (1,25(OH)2D3) levels. Pretreatment of the animals with parathyroid hormone prevented the rise of both ALP activity and of 1,25(OH)2D3. Administration of 1,25(OH)2D3 alone stimulated a different pattern of increased ALP activity, greater in duodenum than ileum. The uptake of 45Ca by calmodulin was also elevated in ileum and calvarium. These data suggest that shifts in calcium movement, perhaps mediated by vitamin D, can alter ALP activity, and may provide a mechanism for rapid control of the secretion of this enzyme.     

Adaptive responses of 25-hydroxyvitamin D3 1-alpha hydroxylase expression to dietary phosphate restriction in young and adult rats

Regulation of vitamin D metabolism alters with age. The present study is undertaken to investigate if the loss of renal 1,25-dihydroxyvitamin D(3) (1,25(OH)(2)D(3)) production in response to dietary phosphate (P) restriction in adult rats is due to an alteration in the renal expression of 25-hydroxyvitamin D(3) 1-alpha hydroxylase (1-OHase). Young (4-6 weeks old) and adult (12-14 weeks old) male Sprague Dawley rats were fed either normal P (NPD) or low P diet (LPD) for 0-5 days. Basal expression of 1-OHase protein was higher in adult rats. Young rats, but not adult rats, significantly increased 1-OHase protein and mRNA expressions in response to LPD in a time-dependent manner. To determine if the stability of renal 1-OHase protein changes with LPD feeding, young and adult rats fed either NPD or LPD for 5 days were injected intravenously with cycloheximide (CHX), a protein synthesis inhibitor. CHX decreased 1-OHase protein expression in young rats fed NPD. However, CHX did not alter 1-OHase protein expression in young rats fed LPD nor in adult rats fed either diet. The results indicate that the stability of renal 1-OHase protein increased with age and that LPD increased its stability only in young rats.     

1,25-Dihydroxyvitamin D3 metabolism. The effect of dietary calcium and phosphorus

Rats maintained on tritiated 1,25-dihydroxyvitamin D₃ as their sole source of vitamin D and placed on diets differing in calcium content had similar intestinal levels of tritiated 1,25-dihydroxyvitamin D₃. Since 1,25-dihydroxyvitamin D₃ administration eliminated adaptation of intestinal calcium transport, it appears that increased production of 1,25-dihydroxyritamin D₃ is responsible for the stimulation of calcium transport by low dietary calcium. When maintained on tritiated 1,25-dihydroxyvitamin D₃, rats fed a low-phosphorus diet had somewhat higher levels of tritiated 1,25-dihydroxyvitamin D₃ in the duodenum and plasma than rats on a normal-phosphorus diet. In addition to stimulating 1,25-dihydroxyvitamin D₃ synthesis, low dietary phosphorus may increase the accumulation of 1,25-dihydroxyvitamin D₃ in both intestine and plasma.     

Stimulation of rat intestinal protein synthesis by 1,25-dihydroxyvitamin D3

To study general stimulatory effects of 1,25-dihydroxyvitamin D3 on intestinal protein synthesis, slices of duodenal villi from 1,25-dihydroxyvitamin D3-treated and vitamin D-deficient rats were incubated in vitro for 90 min at the surface of medium containing [3H]leucine. Incorporation of the [3H]leucine into TCA-precipitated protein, which was shown to be linear for 12 h and 90% inhibited by cycloheximide, was increased by 50-60% at 26 h after a single injection of 125 ng of 1,25-dihydroxyvitamin D3 (three experiments, P less than 0.001). The increase, which was not due to circadian rhythm fluctuations of the intestine, was in synchrony with the second Ca2+ transport response observed by Halloran and DeLuca (Arch. Biochem. Biophys. 208, 477-486, 1981). However, no significant difference in [3H]leucine incorporation was observed before or during the initial Ca2+ transport response observed by Halloran and DeLuca, i.e., at 1.0, 3.0, and 6.5 h following an injection of 1,25-dihydroxyvitamin D3. The late onset of the 1,25-dihydroxyvitamin D3-induced increase in total protein synthesis implies that it is an indirect rather than a direct effect of the hormone.     

Calcium accumulation by chick intestinal mitochondria. Regulation by vitamin D-3 and 1,25-dihydroxyvitamin D-3

We have the evaluated the effect of vitamin D-3 and its metabolite 1,25-dihydroxyvitamin D-3 on Ca2+ accumulation by chick intestinal mitochondria. Ca2+ accumulation appears to occur in two phases: an early, transient accumulation into an Na+-labile pool followed by an ATP-dependent accumulation into an Na+-resistant pool. Ca2+ accumulation is extensive at free Ca2+ concentrations greater than 3 . 10(-6) M in the presence of ATP. Ruthenium red and dinitrophenol block Ca2+ accumulation, but atractyloside does not. Oligomycin blocks ATP-supported accumulation completely with a partial inhibition of ATP and malate-supported accumulation. Little difference could be found in mitochondrial preparations from vitamin D-deficient chicks compared to those from vitamin D-3 (or 1,25(OH)2D-3)-supplemented chicks with respect to respiratory control, oxygen consumption, efficiency of oxidative phosphorylation, affinity for Ca2+, or the rate and extent of ATP-supported Ca2+ accumulation. Intestinal cytosol stimulated Ca2+ accumulation, but this was not specific with respect to vitamin D status or tissue of origin, nor was it duplicated by chick intestinal Ca2+-binding protein. 30 ng/ml 1,25(OH)2D-3 stimulated Ca2+ accumulation directly, regardless of the presence of intestinal cytosol. Other vitamin D metabolites were less potent: 25-hydroxyvitamin D-3 greater than 24,25-dihydroxyvitamin D-3 = vitamin D-3. Since increasing the free Ca2+ concentration from 3 . 10(-6) to 1 . 10(-5) M increased Ca2+ accumulation approx. 50-fold, whereas direct stimulation by 1,25(OH)2D-3 in vitro increased Ca2+ accumulation less than 2-fold, we conclude that 1,25(OH)2D-3 influences mitochondrial accumulation of Ca2+ in vivo primarily by altering cytosol concentrations of free Ca2+.     

Regulation of duodenal insulin-like growth factor I and active calcium transport by ovariectomy in female rats.

There is a significant body of data that supports the concept that reproductive hormones in females have effects on duodenal calcium transport that are not mediated via altered circulating concentrations of 1,25-dihydroxyvitamin D (1,25(OH)2D). Previously, we have shown parallel alterations in duodenal Ca transport and longitudinal bone growth rate in sexually maturing female rats in response to ovariectomy and estradiol (E) treatment of ovariectomized (OVX) rats (OVX+E) without any change in circulating levels of 1,25(OH)2D or parathyroid hormone. Results are presented here from experiments designed to: (i) further explore the relationship between 1,25(OH)2D and ovarian status in the regulation of duodenal calcium transport, and (ii) determine whether OVX and E replacement alter circulating and duodenal levels of insulin-like growth factor I (IGF-I) that might be related to effects on Ca transport. Growth hormone, which has been shown to affect intestinal Ca absorption and vitamin D metabolism, is thought to act indirectly by stimulating IGF-I. Six-week-old female rats were OVX, given estradiol implants (OVX+E), and fed a diet containing either 0.5% or 0.1% Ca for 3 weeks. In both diet groups, the OVX animals exhibited a higher level of Ca transport, as measured by the everted gut sac method, than either the intact controls or the OVX+E group; there was no difference in calcium transport between the different diet groups. Although there was no difference in circulating levels of 1,25(OH)2D among the intact, OVX, and OVX+E groups fed either diet, animals fed the 0.1% Ca diet had higher circulating levels of 1,25(OH)2D than those fed the 0.5% Ca diet. There was no difference in duodenal levels of calbindin9K among intact, OVX, and OVX+E animals in either diet group, although the animals fed the 0.1% Ca diet had higher levels of calbindin9K than the animals fed the 0.5% Ca diet. In animals fed the 0.5% Ca diet, OVX resulted in elevated serum and duodenal levels of IGF-1, as compared with intact and OVX+E animals on the same diet. In animals fed the 0.1% Ca diet, there was no elevation of IGF-I in the OVX group relative to intact and OVX+E animals. These results lend additional support to the concept that alterations in duodenal active calcium transport that occur with alterations in ovarian hormones are not mediated by changes in serum levels of 1,25(OH)2D, but may be related to some factor related to growth, possibly IGF-I.     

1α,25-dihydroxy-vitamin D-3 regulates ATP-dependent calcium transport in basolateral plasma membranes of rat enterocytes

Basolateral plasma membrane vesicles of rat small intestinal epithelium accumulate calcium through an ATP-dependent pumping system. The activity of this system is highest in duodenum and decreases towards the ileum. This distribution along the intestinal tract is similar as the active calcium absorption capacity of intact intestinal epithelial segments. ATP-dependent calcium uptake in basolateral membrane vesicles from duodenum and ileum increased significantly after repletion of young vitamin D-3-deficient rats with 1α,25-dihydroxy-vitamin D-3. Ca²⁺-ATPase activity in duodenal basolateral membranes increased to the same extend as ATP-dependent calcium transport, but (Na⁺ + K⁺)-ATPase activity remained unaltered.     

Testosterone alters duodenal calcium transport and longitudinal bone growth rate in parallel in the male rat.

Duodenal active calcium transport and longitudinal bone growth rate have been shown previously to be regulated in parallel by alteration of gonadal hormone status in sexually maturing female rats. The present study was designed to extend these observations to the sexually maturing male rat. Male rats were orchidectomized (ORX) and given Silastic implants containing either testosterone or estradiol at 6 weeks of age. At 9 weeks of age, duodenal active calcium transport was measured by the everted gut sac method and longitudinal bone growth rate was determined by tetracycline labeling. Decreases in body weight, longitudinal bone growth rate, duodenal calcium transport, and serum Ca and P were exhibited by ORX animals as compared with age-matched control animals. Testosterone administration to ORX animals resulted in an increase in body weight, longitudinal bone growth rate, duodenal calcium transport, and serum Ca and P as compared with ORX animals to a level not significantly different from that of age-matched control animals. Estradiol administration to ORX animals resulted in an additional decrease in body weight, although no significant effect on duodenal calcium transport, serum Ca, or P was noted as compared with ORX animals. There were no statistically significant alterations in the circulating levels of 1,25-dihydroxyvitamin D, parathyroid hormone, or osteocalcin in response to any of the experimental manipulations of gonadal status. These results indicate that, as in the female, gonadal hormone status affects intestinal calcium transport in sexually maturing male rats in parallel with changes in bone growth rate by mechanisms that are independent of circulating levels of 1,25-dihydroxyvitamin D.