Calcium bioavailability and kinetics of calcium ascorbate and calcium acetate in rats

The objective was to investigate the bioavailability and mechanism of calcium absorption of calcium ascorbate (ASC) and calcium acetate (AC). A series of studies was performed in adult Sprague-Dawley male rats. In the first study, each group of rats (n = 10/group) was assigned to one of the five test meals labeled with (45)Ca: (i) 25 mg calcium as heated ASC or (ii) unheated ASC, (iii) 25 mg calcium as unheated AC, (iv) 3.6 mg Ca as unheated ASC, or (v) unheated AC. Femur uptake indicated better calcium bioavailability from ASC than AC at both calcium loads. A 5-min heat treatment partly reduced bioavailability of ASC. Kinetic studies were performed to further investigate the mechanism of superior calcium bioavailability from ASC. Two groups of rats (n = 10/group) received oral doses of 25 mg Ca as ASC or AC. Each dose contained 20 micro Ci (45)Ca. Two additional groups of rats (n = 10/group) received an intravenous injection (iv) of 10 micro Ci (45)Ca after receiving an unlabeled oral dose of 25 mg calcium as ASC or AC. Sequential blood samples were collected over 48 hrs. Urine and fecal samples were collected every 12 hrs for 48 hrs and were analyzed for total calcium and (45)Ca content. Total calcium and (45)Ca from serum, urine, and feces were fitted by a compartment kinetics model with saturable and nonsaturable absorption pathways by WinSAAM (Windows-based Simulation Analysis and Modeling). The difference in calcium bioavailability between the two salts was due to differences in saturable rather than passive intestinal absorption and not to endogenous secretion or calcium deposition rate. The higher bioavailability of calcium ascorbate was due to a longer transit time in the small intestine compared with ASC.     

Determination of Vitamin D-dependent calcium absorption by 45Ca gavage in the rat

Precise determination of Vitamin D-dependent intestinal calcium absorption in longitudinal studies is problematic. We have assessed Vitamin D-dependent intestinal calcium absorption by ⁴⁵Ca gavage. Rats were gavaged with a 1 mL solution containing ⁴⁵Ca (CaCl₂, 9.3 MBq/mL) maintained at 37 °C. Total Ca concentration of the gavage fluid was optimised by comparing the absorption curves for fluids made up to 0.025, 2.025, 4.025 and 40.025 mmol/L with ⁴⁰CaCl₂. The effect of varying dietary Ca on fractional Ca absorption was determined in rats fed semi-synthetic diets containing either 0.05%, 0.2%, 0.4% or 1.0% Ca for 50 days. Serum 1,25 dihydroxyvitamin D (1,25D) was determined by radioimmunoassay. Total gavage Ca of 0.025 mmol/L achieved the highest peak fractional absorption and was adopted for all future experiments. Fifty days after allocation to the diets both fractional Ca absorption and 1,25D were highest in rats fed 0.05% Ca and lowest in those fed 1.0% Ca (absorption, P < 0.05 and 1,25D, P < 0.05). There was a strong logarithmic relationship between 1,25D and fractional Ca absorption (R² 0.69, P < 0.001). Weekly repetition of the procedure did not cause a fall in haematocrit over 7 weeks. Radiocalcium (⁴⁵Ca) absorption by gavage provides a simple measure of Vitamin D-dependent Ca absorption for repetitive use in longitudinal studies.     

Endogenous prolactin modulated the calcium absorption in the jejunum of suckling rats

Prolactin has been reported to stimulate intestinal calcium absorption in young and mature, but not aging rats. The present study was performed on suckling rats to elucidate the actions of endogenous prolactin on calcium absorption in various intestinal segments. Before measuring the calcium fluxes, 9-day-old rats were administered for 7 days with 0.9% NaCl, s.c. (control), 3 mg/kg bromocriptine, i.p., twice daily to abolish secretion of endogenous prolactin, or bromocriptine plus exogenous 2.5 mg/kg prolactin, s.c. Thereafter, the 16-day-old rats were experimented upon by instilling the 45Ca-containing solution into the intestinal segments. The results showed that, under a physiological condition, the jejunum had the highest rate of calcium absorption compared with other segments (1.4 +/- 0.35 micromol.h-1.cm-1, p < 0.05). The duodenum and ileum also manifested calcium absorption, whereas the colon showed calcium secretion. Lack of endogenous prolactin decreased lumen-to-plasma and net calcium fluxes in jejunum from 2.07 +/- 0.31 to 1.19 +/- 0.12 and 1.40 +/- 0.35 to 0.88 +/- 0.18 micromol.h-1.cm-1 (p < 0.05), respectively, and exogenous prolactin restored the jejunal calcium absorption to the control value. Endogenous prolactin also had an effect on the duodenum but, in this case, exogenous prolactin did not reverse the effect of bromocriptine. However, neither ileal nor colonic calcium fluxes were influenced by prolactin. Because luminal sodium concentration has been demonstrated to affect calcium absorption in mature rats, the effect of varying luminal sodium concentrations on calcium fluxes in suckling rats was evaluated. The jejunum was used due to its highest rate of calcium absorption. After filling the jejunal segments with 124 (control), 80, 40 mmol/L Na+-containing or Na+-free solution, increases in calcium absorption were found to be inversely related to luminal sodium concentrations in both control and bromocriptine-treated rats. The plasma concentration of 45Ca under luminal sodium free condition was also higher than that of the control condition (2.26% +/- 0.07% vs. 2.01% +/- 0.09% administered dose, p < 0.05). However, 3H-mannitol, a marker of the widening of tight junction that was introduced into the lumen, had a stable level in the plasma during an increase in plasma 45Ca, suggesting that the widening of tight junction was not required for enhanced calcium absorption. In conclusion, calcium absorption in suckling rats was of the highest rate in the jejunum where endogenous prolactin modulated calcium absorption without increasing the paracellular transport of mannitol.     

Acute versus chronic effects of whey proteins on calcium absorption in growing rats

The acute and chronic effects of whey proteins on calcium metabolism and bone were evaluated. In acute studies, 8-week-old male rats were gavaged with 50 mg whey protein concentrate (WPC) and 25 mg calcium. 45Ca was administered intravenously or orally. Kinetic studies were performed, and femurs were harvested. Four of seven WPCs significantly increased femur uptake of 45Ca compared with controls. One WPC at 50 mg enhanced calcium absorption over a range of calcium intakes from 35.1 +/- 9.4% to 42.4 +/- 14.0% (P < 0.01). Three of the most effective WPCs were tested further in a chronic feeding study. One hundred 3-week-old rats were randomly divided into four adequate dietary calcium (ADC; 0.4% Ca) groups (control of 20% casein and three WPC groups with 1% substitution of casein with each of three WPCs) and two low calcium (LC; 0.2% Ca) groups (control of 20% casein and one WPC group with 1% substitution of casein with one WPC). After 8 weeks, there was no effect of WPCs on femur uptake of 45Ca among ADC groups and there was no effect of WPCs on calcium retention, femur breaking force, femur bone mineral density, or total femur calcium at either dietary calcium intake. However, whole body bone mineral content (BMC) was significantly higher (P < 0.05) in the three whey protein concentrate ADC groups compared with the ADC control group. Total BMC at the proximal tibia in whey protein ADC groups was increased, as shown by peripheral quantitative computed tomography. Our results indicate that the acute calcium absorption-enhancing effect of whey proteins did not persist through long-term feeding in rats. However, the initial enhancement of calcium absorption by whey protein was sufficient to increase BMC.     

Effects of soluble corn bran arabinoxylans on cecal digestion, lipid metabolism, and mineral balance (Ca, Mg) in rats

The effects of soluble corn bran arabinoxylans on cecal digestion, lipid metabolism, and mineral utilization [calcium (Ca) and magnesium (Mg)] were investigated in rats adapted to semipurified diets. The diets provided either 710 g/kg wheat starch alone (control) or 610 g/kg wheat starch plus 100 g/kg corn soluble fiber (arabinoxylans) and either 0 or 2 g/kg cholesterol (control + cholesterol and arabinoxylans + cholesterol, respectively). Compared with rats fed the control diets, rats fed the arabinoxylan diets had significant cecal hypertrophy (+50% after 3 days of the fiber adaptation) and an accumulation of short-chain fatty acids, especially propionic acid (up to 45% in molar percentage). Arabinoxylans enhanced the cecal absorption of Ca and Mg (from 0.07 to 0.19 micromol/min for Ca and from 0.05 to 0.23 micromol/min for Mg). Mg balance was enhanced by arabinoxylans (+25%). The arabinoxylan diet markedly reduced the cholesterol absorption from 50% of ingested cholesterol in controls up to approximately 15% in rats adapted to the arabinoxylans diet. Arabinoxylans were effective in lowering plasma cholesterol (approximately -20%). There was practically no effect of the diets on cholesterol in d > 1.040 lipoproteins (high density lipoproteins) whereas arabinoxylans were very effective in depressing cholesterol in d < 1.040 lipoproteins (especially in triglyceride-rich lipoproteins). Corn fermentable fiber decreased the accumulation of cholesterol in the liver. In parallel, the arabinoxylan diet counteracted the downregulation of 3-hydroxy-3-methylglutaryl-CoA by cholesterol. These data suggest that arabinoxylans may have a great impact on intestinal fermentation, mineral utilization, and cholesterol metabolism.     

Reduced intestinal calcium and dietary calcium intake,increased aluminum absorption,and tissue concentration in the rat

To test the influence of calcium (Ca) on aluminum (Al) absorption, Ca was withheld from or added (1 mM) to the perfusate of thein situ rat gut. The rats had been maintained on Purina Rat Chow. Ca addition significantly decreased (to 70%) the rate of Al disappearance from the gut and decreased (to 55%) the area under the curve of Al appearance in portal blood. To test the influence of Ca deficiency on Al absorption, rats were maintained on a low-Ca (0.008%) or a Careplete (0.5%) diet for 1–4 wk. Thein situ gut was prepared, and a perfusate containing approximately 1 μM Ca was used. The rate of Al disappearance from the gut of low-Ca diet rats was significantly faster than from the gut of rats maintained on the Ca-replete diet, averaging 156% of the latter. Al appearance in portal blood was significantly greater (averaging 38%) in rats maintained on the low-Ca diet than in controls. To determine if Ca deficiency influences Al tissue distribution independent of gastrointestinal Al absorption, rats maintained on a low-Ca or a Ca-replete diet received 20 ip Al injections over 1 mo. Rats eating the low-Ca diet demonstrated enhanced tissue Al accumulation in all tissues studied, except for muscle and cerebral cortex. These results demonstrate enhanced Al absorption and tissue retention in the presence of reduced intestinal Ca concentration and reduced Ca intake.     

Islet-activating protein. Enhanced insulin secretion and cyclic AMP accumulation in pancreatic islets due to activation of native calcium ionophores.

The mechanism whereby "islet-activating protein" (IAP) purified from the culture medium of Bordetella pertussis potentiates insulin secretion was studied by experiments in vitro with islets of rats once injected with IAP (0.5 micrograms/100 g body weight, 3 days before killing) or with islets that had been exposed to IAP (0.1 to 100 ng/ml) for 24 h. The IAP treatment markedly enhanced insulin secretory responses and cAMP accumulation in islets, facilitated the efflux of 45Ca through the cell membrane, and abolished the alpha-adrenergic action of epinephrine (and somatostatin) to inhibit glucose-induced insulin release, cAMP accumulation, and 45Ca uptake. These effects of the IAP treatment were reduced when islets were incubated in a low calcium medium. Based on these results, it was concluded that IAP interacts directly but slowly with the islet B cell in such a manner as to render more calcium available to the stimulus-secretion coupling mechanism as a result of sustained activation of native calcium ionophores on the cell membrane.     

The rate and extent of calcium bioavailability from two oral dosage forms in rats

The purpose of the present work was to compare oral bioavailability of calcium from two calcium preparations, Calcium Sandoz forte 500 mg and Calcium Spofa effervescens. The pharmacokinetic study was carried out on rats, and plasma levels of 45Ca after administration of labelled calcium solutions were determined. Appropriate equations describing the two-compartment open model and the one-compartment model with first order absorption were fitted to the observed i.v. and oral data, respectively, using weighted nonlinear least-squares regression analysis. The extent and the time profile of the rate of 45Ca systemic bioavailability were assessed. Both parameters suggested identical bioavailability of calcium from the two dosage forms compared.     

Effects of dietary calcium on the metabolism of trace elements in male and female rats

The effect of dietary calcium on the metabolism of iron, zinc, copper, and manganese in male and female rats was investigated. For 3 or 6 weeks the rats were fed three diets containing: (1) 0.26, (2) 0.52, or (3) 2.08% Ca. The apparent absorption of iron was depressed by the high calcium diet, and manganese absorption was highest in the low calcium groups. Generally there was a decrease in the absorption of minerals from 3 to 6 weeks. With an increase in the dietary calcium the absorption of Ca and P decreased. The liver iron concentration in the females fed diet 3 decreased from about 600 to 200 microg/g dry weight. The high calcium intake also caused a slight increase in the heart calcium levels in both sexes. However, diet 3 prevented kidney calcification in the female rats at 6 weeks and this was attributed to a dramatic decrease in the urinary phosphorus, although the calcium had increased about 40 times. In males, on the other hand, the high calcium diet caused some kidney calcification.     

Effect of 1,25(OH)2D3 on the relative contributions of skeletal 45Ca and intestinal 40Ca to blood calcium in normal and thyroparathyroidectomized dogs

The effects of gradually increasing doses of 1,25(OH)2D3 on plasma calcium and 45Ca radioactivity were studied in young dogs that had been extensively prelabelled with 45Ca. The effects of orally and intravenously administered 1,25(OH)2D3 were evaluated in normal and thyroparathyroidectomized dogs fed a normal diet. In normal dogs when 1,25(OH)2D3 increased the plasma calcium within the normal range (2.9-3.1 mmol/L) there was no significant increase in plasma 45Ca. In thyroparathyroidectomized dogs, oral or intravenous 1,25(OH)2D3 increased the low blood calcium to a normal level (1.8-2.9 mmol/L) without significantly increasing plasma 45Ca. In normal and thyroparathyroidectomized dogs, any 1,25(OH)2D3-induced increase in plasma calcium above the normal range was associated with a significant increase in 45Ca, indicating mobilization of bone calcium. Intravenous administration of 1,25(OH)2D3 in the normal or thyroparathyroidectomized dogs had a much larger effect than oral doses in mobilizing bone 45Ca when inducing a similar level of hypercalcemia. The major physiological effect of 1,25(OH)2D3 in the low or normal range of plasma calcium is on intestinal absorption of calcium without a significant effect on mobilizing bone calcium. The pharmacological effect of 1,25(OH)2D3 in vivo is to mobilize bone calcium as well as dietary calcium into blood.     

Hypercalcemic effect of insulin in thyroparathyroidectomized alloxan-treated rats

The acute effect of a hypoglycaemic dose of 0.5 U/100 g BW insulin administered intramuscularly on calcium metabolism was investigated in fasted alloxan-treated rats. It was found that the hypercalcaemic effect of insulin was evident only in thyroparathyroidectomized (TPTX) and not in parathyroidectomized (PTX) rats. A subcutaneous administration of 180 MRC mU/100 g BW calcitonin abolished the calcium raising effect of insulin in TPTX rats suggesting a protective role of calcitonin against insulin action in intact rats. In an attempt to elucidate the mechanism of the calcium raising effect of insulin 45Ca administered intravenously was used to indicate the movement of calcium from the plasma pool. Insulin administration delayed the plasma 45Ca disappearance rate but had no effect on bone 45Ca uptake within 120 min. In contrast, insulin administration resulted in a 31% reduction of urinary 45Ca excretion while the urine volume remained unchanged. However, the insulin-induced reduction of urinary calcium excretion could not totally account for the calcium raising effect of insulin in TPTX animals.     

Regulation of Calcium Concentrations in Synaptosomes: α2-Adrenoceptors Reduce Free Ca2+ by Closure of N-Type Ca2+ Channels

The relationship between intrasynaptosomal total (CaT) and free ([Ca2+]i) calcium and 45Ca accumulation was studied under physiological and K(+)-depolarised conditions in rat cortical synaptosomes. Under physiological conditions, CaT (10.7 mM) was approximately 10,000 times higher than [Ca2+]i (118 nM), showing that there is a large reservoir of sequestered calcium in synaptosomes. 45Ca accumulation was rapid (initial rate, 3.4 nmol/mg protein/min), substantial (7 nmol/mg protein in 2 min), and depolarisation dependent, and reached equilibrium after 5 min. At equilibrium, only 10% of CaT was freely exchangeable. This pool was much larger than the free Ca2+ pool. CaT, [Ca2+]i, and 45Ca accumulations were directly related to the Ca2+ concentration in the buffer, suggesting that [Ca2+]i is not highly conserved but is maintained by simple equilibria between the various pools. Clonidine reduced 45Ca accumulation in a time- and dose-dependent manner. Maximum inhibition (40% at 100 microM) occurred at 2 min and the IC50 was 80 nM. The reduction caused by clonidine (1 microM) reached equilibrium after 5 min, but this equilibrium value was lower than in controls, suggesting that clonidine changes the exchangeable Ca2+ pool size. The effects of clonidine (1 microM) on [Ca2+]i (26% reduction) and on 45Ca accumulation (24% reduction) were most apparent under physiological conditions. However, while it was not dependent on depolarisation, it did not occur in physiological buffer containing low K+ concentration (0.1-1 mM). The inhibitory effect of clonidine on 45Ca accumulation is receptor mediated as it was antagonised by idazoxan (1 microM).(ABSTRACT TRUNCATED AT 250 WORDS)     

Regional Accumulation of Calcium in Postischemic Rat Brain

The regional concentrations of intravenously injected 45Ca and total calcium were measured in rat brain during recovery from transient occlusion of the four major arteries to the brain. 45Ca was injected at intervals after ischemia, and the regional distribution of 45Ca was estimated by autoradiography. The 45Ca appeared to enter the brain via the choroid plexus, labeling the paraventricular tissue at 1 h after the injection. Control brains had more 45Ca in the gray matter compared to fiber-rich areas at 5 and 24 h, but within these regions the optical density was nearly uniform. The accumulation and retention of 45Ca in postischemic brain were selective and time-dependent. The regional pattern of 45Ca uptake correlated with the temporal progression of ischemic cell change. Infarction and preischemic hyperglycemia increased morphological damage, and increased the extent and distribution of 45Ca accumulation. The rise in total calcium concentration appeared to be biphasic in irreversibly damaged tissue.     

The role of mitochondrial calcium transport during inflammation and the effect of anti-inflammatory drugs

The effects of inflammation induced by the inoculation of rats with Freund's adjuvant on calcium transport by isolated rat liver mitochondria and on mitochondrial in vivo protein synthesis were investigated. Mitochondria isolated from the liver of inflamed rats exhibited (i) a reduction in 45Ca2+ uptake and, (ii) a reduction in protein synthesis. Addition of ATP to the calcium uptake medium stimulate the uptake in inflamed rat liver mitochondria. After inflammation was controlled by treatment with a mixture of Clerodendron inerme flavonoidal glycosides and indomethacin, rat liver mitochondria showed (i) an increase in 45Ca2+ uptake and, (ii) an increase in mitochondrial in vivo protein synthesis. The mechanism of mitochondrial calcium transport and the mitochondrial protein metabolism during inflammation and after treatment with anti-inflammatory drugs were discussed.     

Abnormal calcium metabolism in normocalcaemic sarcoidosis.

In studies of calcium metabolism in 13 unselected patients with untreated sarcoidosis all were normocalcaemic but five had hypercalcuria. All had normal renal function. Calcium absorption was indexed by a double isotope test. 45Ca hyperabsorption occurred in six patients. Ten kinetic studies were carried out with 47Ca and in six bone turnover was increased. 45Ca absorption correlated well with the calculated bone uptake rate of calcium, and with urine calcium excretion. These results suggest that in sarcoidosis abnormalities in calcium metabolism are fairly common although they rarely result in sustained hypercalcaemia.     

甲状旁腺高血压因子和甲状旁腺素对细胞钙通道的不同作用

1989年Lewanczuk等[1]报道在自发性高血压大鼠（spontaneouslyhvnertensiverat,SHR）的血浆中发现一种具有独特升压效应的高血压因子．通过激活平滑肌细胞膜钙通道,提高细胞内游离钙（[Ca2 ]）水平起作用．随之证明这种循环血中的高血压因子来源于甲状旁腺,故称“甲状旁腺高血压因子（Parathyroidhypertensivefactor,PHF）”[2]。我们经实验研究证明,当给SD（Sprague-Dawley）大鼠注射经透析的SHR血浆后30min其血压开始升高,45min达高峰,60min恢复到注射前水平．同时经透析的血浆可使SD大鼠尾动脉条的细胞45Ca2 摄取增加,其…     

Properties of the smooth muscle cell endoplasmic reticulum calcium pump

In experiments with 45Ca2+ conducted on digitonin-treated (0.1 mg/ml) myometrium cells suspension, the properties of ruthenium red-insensitive, oxalate- or phosphate-stimulated and thapsigargin- or cyclopiasonic acid-suppressed Mg2+, ATP-dependent calcium pump of myometrium sarcoplasmic reticulum was studied. The Ca2+ accumulation increased linearly in time up to 10 min, the average initial rate was 80-130 pmol Ca2+/10(6) cells per min. In the presence of 10 mM oxalate the values of the activation constant KMg for Mg2+ and K(m) for ATP were 0.6 and 1.0 mM, respectively. The relative efficiency of the different cations in insuring of the ATP-dependent Ca2+ accumulation was Mg2+ > Mn2+ = Co2+ > Ni2+; the Ca2+ accumulation was not observed in the presence of 3 mM Zn2+ or Cu2+. We observed the suppression of calcium pump activity by different inhibitors such as thapsigargin, cyclopiazonic acid, p-chloromercuribenzoic acid, eosin Y ad Na3 VO4: the values of K0.5 were 2.0 nM, 0.3 microM, 0.6 microM, 0.8 microM and 45 microM respectively. The conclusion was made that suspension of myometrial cells treated with digitonin represent a suitable experimental model for studying the properties of myometrium sarcoplasmic reticulum calcium pump.     

Exchangeable and total calcium pools in mitochondria of rat epididymal fat-pads and isolated fat-cells. Role in the regulation of pyruvate dehydrogenase activity.

1. Isolated fat-cells and intact epididymal fat-pads were incubated in medium containing 45Ca2+ and the incorporation of 45Ca into mitochondrial and extramitochondrial fractions was studied. Redistribution of 45Ca between these fractions was essentially prevented by the addition of EGTA [ethanedioxybis(ethylamine)tetra-acetate] and Ruthenium Red to the sucrose-based extraction medium. 2. Incorporation of 45Ca into mitochondrial fractions of both fat-cells and fat-pads was found to be complete within 2-5 min, suggesting that mitochondria contain a pool of calcium in rapid isotopic exchange with extracellular Ca2+. This pool was about 20 times larger in mitochondria within fat-cells than within fat-pads. In fat-cells, 45Ca incorporation into the mitochondrial fraction accounted for about 34% of the total 45Ca incorporation into cells after 20 min and about 50% of the total mitochondrial calcium content measured by atomic absorption; values in fat-pads were about 7 and 20% respectively.     

Ethylene-induced opposite redistributions of calcium and auxin are essential components in the development of tomato petiolar epinastic curvature.

Calcium has been suggested as an important mediator of gravity signaling transduction within the root cap statocyte. In a horizontally-placed root, it is redistributed in the direction of the gravity vector (i.e. it moves downward) and its redistribution is closely correlated with auxin downward movement. However, the involvement of calcium in the regulation of ethylene-induced epinasty and auxin movement is not known. In this report, we examined the involvement of calcium in lateral auxin transport during ethylene-induced epinasty in an effort to understand the relationship among calcium, auxin, and ethylene. Ethylene-induced epinasty was further stimulated by exogenously applied Ca2+, the calcium effect being the strongest among divalent cations tested. Pretreatment with NPA, an auxin transport inhibitor, negated the promotive effect of calcium ions on the petiolar epinasty. Ethylene caused redistribution/differential accumulation of 45Ca2+ toward the morphologically lower (abaxial) side of the leaf petioles, an effect opposite to that of 14C-IAA redistribution. Verapamil, a Ca2+ channel blocker, inhibited ethylene-induced epinasty, as well as the redistribution of 14C-IAA and 45Ca2+. When the petiole was inverted in the presence or absence of ethylene, the direction of 45Ca2+ differential accumulation was still toward the morphologically abaxial side of the petiole during epinastic movement regardless of gravitational direction. These results suggest that gravity-insensitive, ethylene-induced Ca2+ redistribution and accumulation toward the abaxial side are closely coupled to the adaxial auxin redistribution/accumulation and, in turn, to the petiolar epinasty.     

The effect of calcium on lead absorption in rats.

The effects of Ca2+ on lead absorption as PbCl2 and 203PbCl2 were studied in rats. 1. Doubling of dietary calcium with Ca3(PO4)2 significantly decreased lead absorption as assessed by 203Pb retention, tissue lead concentration, urinary excretion of delta-aminolaevulinate and increased activities of delta-aminolaevulinate dehydratase and ferrochelatase. 2. Similar effects on lead absorption were shown by the Ca2+ salts, Cl-, CO32-, PO43-, SO42-, gluconate and glycerophosphate. 3. CaCl2 and calcium glycerophosphate were found to be most effective in decreasing lead absorption when administered immediately before lead dosage. 4. A negative exponential relationship was found between CaCl2 concentration and 203Pb absorption at 120h. The result suggest that, above 4 mmol of administered calcium, residual lead absorption is unaffected by increasing gastrointestinal calcium concentrations. 5. Increased systemic calcium had no effect on lead retention. 6. Calcium in the concentrations found in domestic hard-water supplies significantly decreased absorption of a solution of 203Pb dissolved in it compared with absorption of 203Pb dissolved in soft or distilled water. 7. Milk and skimmed milk were found to have no effect on 203Pb absorption in rats.