Two major pathways of zinc(II) acquisition by human placental syncytiotrophoblast

Uptake of zinc into placental villous syncytiotrophoblast is the first step in its transfer from mother to fetus. To help characterise physiologically significant pathways of zinc accumulation by these cells, we incubated cultured layers of syncytiotrophoblast cells derived from human near-term placental tissue with serum ultrafiltrate (containing the zinc complexed with low molecular mass serum constituents), dialysed serum (containing the zinc bound to the serum proteins) and whole serum, each of whose endogenous zinc was tracer-labelled with ⁶⁵Zn(II). Zinc label from both fractions of serum readily entered a rapidly labelled EDTA-sensitive cellular compartment, probably representing zinc bound to the outside cell surface and in accumulative fashion, an EDTA-resistant compartment, probably consisting largely of internalised cellular zinc. Movement of zinc into the EDTA-resistant pool was strongly temperature-dependent and did not occur via the EDTA-sensitive pool from either serum source. Transfer of zinc from the low molecular mass serum fraction into the EDTA-resistant pool was saturable, the concentration giving half-maximal rate being 1.2 m?mol/l nonprotein-bound zinc. No nonsturable component was detected. Zinc from the serum protein-bound fraction entered by a saturable component, already saturated at physiological total protein-bound zinc concentration, and by an apparently nonsaturable component, not appreciably accounted for by nonspecific fluid-phase endocytosis. The results show that zinc is acquired by placental syncytiotrophoblast from the low molecular mass serum zinc pool probably by a carrier-mediated process, and at least as importantly, from the zinc bound to serum protein, possibly by an endocytic mechanism. © 1995 Wiley-Liss, Inc. © 1995 Wiley-Liss, Inc.     

Growth of lymphoid cell cultures of the Raji line in a medium containing low-molecular serum components

The effect of fetal bovine serum ultrafiltrate, containing low-molecular components (lower than 14 000 D), on the growth of cultures of the lymphoid Raji cells and fibroblasts BHK-21 was studied. The growth of the former did not differ from that in the control (in the medium with the whole fetal serum), while the latter did not proliferate in the medium with the ultrafiltrate. Thus, the growth of the lymphoid Raji cells and fibroblasts BHK-21 is controlled by different serum components. The Raji cells were exposed to an ultrafiltrate (up to 14 000 D) of the adult animal serum whose growth stimulating activity is known to be lower than that of the fetal serum. After the removal of components with molecular weights higher than 14 000 D from the adult animal serum, the growth stimulating activity of such a serum was seen increased, but not up to the level of the fetal serum. BHK-21 cells did not proliferate in the medium with this ultrafiltrate. It is proposed that the increase in the growth stimulating activity of the whole bovine serum in respect to the Raji cells after the removal of the components with high molecular weights may be due to the removal of lymphocyte growth inhibitors whose activity depends on the age of the animal serving a donor of serum.     

Long-term serial cultivation and growth requirements for human umbilical vein endothelial cells

Summary Human umbilical vein endothelial cells (HUV-EC) grew rapidly in vitro in medium supplemented with epidermal growth factor, fetal bovine serum (FBS) and human diploid fibroblast-conditioned medium. The effect of FBS could be replaced partially by bovine serum albumin, cholesterol, and vitamin E, and completely by further addition of serum dialysate or refeeding every other day. Among these components, fibroblast-conditioned medium is essential for HUV-EC growth. The HUV-EC were cultured serially for over 50 population doublings in the 10% FBS containing fibroblast-conditioned medium and for over 40 population doublings in the serum-free medium. Mitogenic factor(s) present in the medium conditioned by fibroblasts may be related to endothelial cell growth factor and play an important role angiogenesis and regeneration of vascular endothelium in vitro.     

Zinc transport across an endothelium includes vesicular cotransport with albumin

Bovine pulmonary arterial endothelial cells (BPAEC) were grown on permeable polycarbonate membrane filters suspended between two compartments representing the blood vessel lumen and the interstitium. This in vitro model of an endothelium was subjected to a battery of tests to unravel the mechanisms of zinc transport from the blood into peripheral tissues. Transport of ⁶⁵Zn across BPAEC from media containing zinc concentrations up to 50 μmol/L exhibited both saturable and nonsaturable kinetics. V_max of the saturable component was 246 ± 43 pmol/(h × cm²) and K_m was 2.3 ± 1.3 μmol/L. Transport was pH and temperature sensitive and substantially influenced by albumin and histidine concentrations, but not influenced by analogous minerals or metabolic inhibitors. Inhibition of coated vesicle formation by depletion of intracellular potassium reduced ⁶⁵Zn transport. Albumin carrying a zinc ion crossed the endothelium more rapidly than zinc-free albumin. When evaluated together, this body of evidence supports the existence of two major pathways of zinc transport across the pulmonary endothelium, but neither involves entry into the endothelial cells. One pathway involves receptor-mediated cotransport with albumin by transcytotic vesicles. The other is nonsaturable and involves cotransport with albumin and low molecular weight ligands, principally histidine, through intercellular junctions and nonselective, bulk-fluid transcytosis. © 1996 Wiley-Liss, Inc.     

Cytochalasin B releases a major surface-associated glycoprotein, fibronectin, from cultured fibroblasts

BHK21 cells cultured in minimal essential medium (Eagle) supplemented with 10% dialyzed fetal calf serum did not grow as they did in whole serum containing medium. Logarithmic growth was, however, initiated after a lag period, the length of which was dependent upon the cell density: medium volume ratio. The quiescent cells conditioned the medium during this lag period, and growth stimulation was apparently due to the release of serine into the medium. Cells cultured in 10% dialyzed serum plus the low molecular weight fraction of serum (serum dialysate), grew with kinetics similar to cells cultured in serum containing medium. When serum dialysate was chromatographed on Bio-gel P-2 the growth promoting activity eluted with the amino acids. Each of the non-essential amino acids was tested for its ability to stimulate the growth of cells in 10% dialyzed serum. Serine was capable of stimulating cell growth to the same extent as 10% serum dialysate and its concentration optimum was similar to its concentration in 10% serum dialysate. The remaining non-essential amino acids were either slightly stimulatory or had no effect on cell growth. Shifting a logarithmically growing population of cells to serine-free medium resulted in the accumulation of 95% of the cells in the G1 phase of the cell cycle within 24 h. Escape from the G1 block could occur if serine was added to the medium or if the cells were allowed to condition the medium. Entry of cells into S phase after the addition of 0.05 μmoles/ml of serine followed a 4–6 h lag and 80% of the cells were synthesizing DNA 12 h after shift-up.     

The resistance of epithelia to vascularization: Proteinase and endothelial cell growth inhibitory activities in urinary bladder epithelium

The avascularity of epithelia may be attributed to the presence of an extractable, low-molecular-weight factor. This factor contains potent inhibitors of proteolytic enzymes, as well as a growth inhibitory activity directed against endothelial cells in vitro. It is extracted from the epithelium of bovine urinary bladders by 1 M NaCl. The extract is ultrafiltered through an Amicon XM-50 membrane, then concentrated and dialyzed into a 0.9% NaCl solution, using a UM-2 membrane. This ultrafiltrate, called the UM-2 retentate (UM-2R). contains approximately 6 μg protein/ g tissue. The UM-2R has a low content of uronic acid and is practically devoid of hydroxyproline. SDS-PAGE reveals that the UM-2R consists of six major proteins. The UM-2R contains a Trasylol-like proteinase inhibitor that expresses strong trypsin inhibitory activity. Comparisons between bladder and serum UM-2Rs and electrophoretic mobility assays indicate that this proteinase inhibitory activity is derived from the bladder epithelium and not from the serum. The UM-2R is cytotoxic to cultured endothelial cells. Cultures of other cell types (normal and neoplastic) are not affected. The bladder-derived proteinase and endothelial cell growth inhibitory activities may protect epithelia from vascular invasion.     

Serum zinc levels and zinc binding capacity in thalassemia

Recently, it has been reported that serum zinc binding capacity (ZnBC) is a very important criterion to evaluate body zinc (Zn) status. It has been shown that chronic Zn deficiency occur in the patients with thalassemia major (TM). Zn deficiency in TM may cause hyperzincuria, high ferritin levels, hepatic iron load, hepatic dysfunction. This study was undertaken to determine serum Zn levels and ZnBC in different thalassemia forms and sickle cell disease (SCD). The study has been carried out on 30 Thalassemia Major (TM), 34 Thalassemia Intermedia (TI), 31 Thalassemia Trait (TT) and 10 SCD. As control group,13 healthy children and 20 adults were included. Serum Zn and ZnBC were determined by atomic absorption, then saturation index (SI%: serum Zn/ZnBC x 100) was calculated. Serum Zn levels in all patients were lower than control (p < 0.01). Serum ZnBC was at a normal level in patients with TT and TI but it was found to be lower in TM and SCD than control (p < 0.01). While serum Zn levels decrease and ZnBC increase in nutritionaL Zn deficiency, serum Zn levels decrease but ZnBC doesn't increase in patients with thalassemia.     

Development of zinc deficiency in Zn labeled, fully grown rats as a model for adult individuals

The development of zinc deficiency in adults was studied in a metabolism experiment involving 31 adult, female rats labeled homogenously with 65Zn. The animals were fed restricted amounts (8 g/day) of a semisynthetic diet containing either 58 microgram Zn/g (control, n = 7) or 2 microgram Zn/g (Zn deficiency, n = 24). Control animals were sacrificed at day 0 (n = 3) and day 29 (n = 4). Zinc deficient animals were sacrificed at day 1, 2, 4, 7, 11, 16, 22, and 29 (3 animals per group). The development of zinc deficiency comprised 4 phases: (I) Fecal Zn excretion needed several days to adjust to the low level of Zn intake. The high initial Zn loss via feces was counterbalanced mainly by Zn mobilization from the skeleton. (II) During the 2nd week of deficiency Zn mobilization from tissue storage changed transiently to soft tissues (mainly muscle and fat tissue). (III) After the 2nd week the skeleton resumed to mobilize Zn. (IV) At the end of the study the skeleton Zn storage was exhausted and alkaline phosphatase activity indicated severe Zn deficiency. Urinary Zn excretion was too small to contribute quantitatively to changes in Zn metabolism during any phase of Zn deficiency. In conclusion, adults may compensate a deficient Zn supply by mobilizing tissue Zn for several weeks: The skeleton revealed to be the major short-term as well as long-term source of whole body tissue Zn that can be mobilized.     

Control of Ehrlich cell division by zinc

The nutritional requirement for zinc in the proliferation of normal and malignant cells has been demonstrated in a number of animal studies. A distinction is made between the effect of zinc status upon the host during carcinogenesis and tumor growth. The present studies focus on the Ehrlich ascites tumor in mice fed a semipurified zinc-deficient diet along with defined concentration of zinc in the drinking water. This model of zinc deficiency is compared with others in which chelating agents are used to create zinc-deficient conditions or the microorganismEuglena gracilis is examined in a defined zinc-deficient medium. It is reported here that Ehrlich cells remain quiescent for several weeks in severely deficient mice, suggesting their restriction to a G₁ or G₀ state of the cell cycle. The kinetics of thymidine and uridine uptake and incorporation into DNA and RNA in Zn-normal and Zn-deficient tumors is consistent with the inhibition of thymidine kinase and DNA polymerase in the Zn-deprived system, but with little effect on RNA synthesis. The concentration of metabolites of these labeled nucleosides in Ehrlich cells is also consistent with a primary effect upon thymidine kinase. Although the ascites fluid Zn is depressed in Zn deficiency, total cellular zinc and its distribution among cell fractions is not significantly affected. It is suggested that these effects are specific in nature and not the result of a general lack of zinc for zinc metalloproteins and other binding sites in the cell.     

Plasticity of human adipose stem cells to perform adipogenic and endothelial differentiation

Recent research findings postulate that adipocytes and endothelial cells (EC) may share a common progenitor. However, the interlinking pathways between adipose tissue and endothelium, and the differentiation potential of cells to convert from one tissue into the other via progenitor cells have not been elucidated and are therefore the focus of this study. Stromal vascular fraction (SVF) cells were isolated from liposuction aspirates or excised adipose tissue and separated into CD31+ and CD31- populations by magnet-assisted cell sorting. Differentiation to fat tissue was induced in both CD31 fractions after expansion by insulin, dexamethasone, isobutylmethylxanthine, triiodothyronine, pioglitazone, and transferrin. Differentiation was assayed enzymatically and by cell counting. Maturation to endothelium was performed with vascular endothelial growth factor (VEGF), insulin-like growth factor-1 plus 2% fetal calf serum, and confirmed by flow cytometry and tube formation assays on Matrigel. Our results show that the SVF contains a CD31-, S100+ cell type that can differentiate into adipocytes and EC. The SVF also comprises CD31+ cells that, although they have an endothelial phenotype, can be converted into mature adipocytes. These findings demonstrate the potency of SVF cells to perform both adipogenic and endothelial differentiation. Further, they reveal the plasticity of mature cells of mesenchymal origin to undergo conversion from endothelium to adipose tissue and vice versa.     

The uptake of zinc by erythrocytes under near-physiological conditions

The in vitro uptake of zinc by erythrocytes was measured under near-physiological conditions, using⁶⁵Zn as a radioactive tracer. Because of the presence of serum albumin—a strong zinc ligand—a low concentration of medium free zinc was maintained. Under these conditions a high-affinity carrier for zinc transport over the cell membrane was identified. With human erythrocytes, a Michaelis constant (K _m ) of 0.2 nM with respect to free medium zinc was measured and aV _max of 4.5 nmoles Zn transported per h/g dry wt. TheK _m for medium Zn increases when the size of the internal erythrocytic Zn pool is augmented, whereasV _max remains virtually unchanged. A model to explain this phenomenon is proposed. It is suggested that this phenomenon could underlie observations, confirmed here, that the in vitro uptake of Zn by animal erythrocytes depends on the Zn status of the animal.     

Determination of zinc contents in rabbits with cerebral ischemia by NAA and ICP-AES

Cerebral ischemia is an important cerebral vascular disease, and zinc is a necessary trace element for humans. In this work, a cerebral ischemia model of rabbit was established by operation. The samples of brain and serum in the animal models were collected. The Zn contents in the samples were determined by neutron activation analysis and inductively coupled plasma-atomic emission spectrometry. The results show the Zn contents in brain decreased 2 mo after cerebral ischemia, and Zn contents in serum decreased even more obviously. In addition, a positive correlation of Zn contents between left and right cerebral hemispheres was observed, and the positive correlation between brain and serum was also observed. A test of Chinese medicine was also carried out in the work. Two Chinese medicines were fed to rabbits with cerebral ischemia in the experiments. The results showed they probably can prevent the decrease of Zn contents in serum.     

Culture of postimplantation rat embryos in rabbit serum for the identification of the growth factor in fractionated rat serum.

The growth factor for postimplantation rat embryos was investigated on the basis of the serum species-specificity in supporting embryonic development in culture. We used rabbit serum as a basal medium for the culture of head-fold stage rat embryos, and examined the effects of various fractions of rat serum on their development. In rabbit serum alone, rat embryos developed poorly. With the rat serum ultrafiltrate of molecular weight (MW) < 300,000, embryonic development improved, but not with the ultrafiltrate of MW < 100,000. With dialyzed rat serum or the globulin fraction of rat serum, embryonic development improved, but the albumin fraction had no effect. It was concluded from these results that some macromolecular growth factor for cultured postimplantation rat embryos was present in the globulin fraction of rat serum. The molecular weight of this growth factor was estimated to be between 65,000 and 300,000. Rabbit serum was considered to be suitable as a medium for the identification of this growth factor.     

Zinc exchange by blood cells in nearly physiologic standard conditions

Determination of zinc concentrations in white blood cells has been used to establish zinc deficiency. During pathological conditions changes in zinc concentrations in these blood cells were observed. However, these investigations were hampered by the low amount of zinc in this form per mL blood. Earlier we demonstrated that, in the case of zinc deficiency, the uptake of zinc was increased, using the in vitro exchange of zinc by the various blood cells with extracellular zinc labeled with⁶⁵Zn in fairly physiologic conditions. In case of inflammation, no increase in zinc uptake by erythrocytes was seen, indicating that this method probably can be used to differentiate real from apparent zinc deficiency. Only during the first days of the inflammatory process, probably representing the redistribution phase during which zinc moves from the serum to the liver, a small increase in in vitro zinc uptake was seen in mononuclear cells (MNC) and polymorphonuclear cells (PMNC). Earlier papers raised some questions; e.g., is the uptake part of an exchange process and can the efflux of zinc by the cells be measured by the same method; what is the influence of time on the process of zinc uptake; what is the magnitude of the uptake of zinc by the cells compared to the zinc concentration in the cells; and, what is the influence of temperature on the uptake of zinc? In the present study, the influence of incubation time and temperature on the uptake of zinc by human and rat blood cells and on the release of zinc by rat blood cells was studied. At least three phases of uptake of zinc in the various cells were found by varying the incubation time—a fast phase during the first half hour, probably caused by an aspecific binding of zinc on or in the cell membrane; a second fast uptake between 60–330 min, probably caused by an influx of zinc in the cell as part of the exchange process of zinc; and a slow third phase after 5.5 h, in which probably the in- and efflux of the rapidly exchangeable intracellular pool is more or less equilibrated. For mononuclear cells, polymorphonuclear cells, and erythrocytes of rats, the rapidly exchangeable intracellular pool is 40%, 53%, and 10%, respectively, of the total zinc content of the cells. This study is also performed in human cells; in human cells the exchangeable pool of mononuclear cells and erythrocytes is 17 and 3.5% of the total zinc content of the cells, respectively. The efflux of zinc by blood cells can be measured by the same method. Both the uptake and the loss of zinc by blood cells of rats were compared and are of the same magnitude, indicating that the in vitro uptake of zinc described elsewhere is part of an exchange process. Increasing temperature during incubation procedures results in an increase of zinc uptake by human blood cells, even at high temperatures of 41°C, although there are gradual differences between the various blood cells. Both the in- and efflux of zinc by blood cells are very small at 4°C.     

Effect of growing ryegrass on the distribution of zinc in soil pools

The distribution of zinc between soil pools was measured over 48 weeks in grassed and bare soils using selective extractants. Although changes in the extractable fractions of zinc occurred in all soils, they tended to be less in the bare soils. From weeks 18 to 48 the rate of uptake of zinc by ryegrass ranged from 3.4 to 106 g Zn/week in the 5 soils studied. The CaCl₂-extractable Zn in the soil increased over the 48 weeks, while the amount of acetic acid-, EDTA-and oxalate-extractable Zn decreased. Superimposed on these changes was the effect of growing ryegrass. There was relatively more CaCl₂-Zn, but less acetic acid-Zn and oxalate-Zn, in the grassed soil compared to the bare soil. There was no significant change over time in the difference in the EDTA-Zn pool between grassed and ungrassed soils. Comparison of zinc taken up by the ryegrass and zinc lost to soil, measured by oxalate extraction, suggested that selective extraction was not a good measure of zinc uptake by grass.     

INAA of serum zinc of inhabitants in five regions of the Czech Republic

To investigate the Zn status of inhabitants of the Czech Republic, 1155 serum and 132 hair samples were analyzed for zinc content. Analyzed material was obtained from randomly selected volunteers of both sexes in the age range 6–65 yr. Subpopulations from five regions were included in the study. Analyses of both materials were performed by Instrumental Neutron Activation Analysis (INAA). Coanalyses of Standard Reference Materials (SRM) for quality control were performed. The results (mean 910 ±276 Μg Zn/L serum and 189 ±45 Μg Zn/g hair) demonstrate satisfactory zinc status of the searched population. Significant interregional differences and age-dependent differences, as well as sex-dependent differences have been detected by the use of correlation analysis. On the basis of these results, serum Zn concentration results of individual categories according to age and sex were evaluated, and on the grounds of mean ±2 standard deviations, indicative intervals were calculated. The frequency of individual serum Zn concentrations proved that the population of the Czech Republic does not suffer from severe zinc deficiency. On the other hand, about one-third of our inhabitants has their serum Zn concentrations below the cutoff value of 800 Μg Zn/L serum, which means a marginal or mild Zn deficit of the organism.     

Possible involvement of plasma histidine in differential brain permeability to zinc and cadmium

Zinc gets into the brain parenchyma across the blood-brain and the blood-cerebrospinal fluid barriers, while cadmium hardly gets into the brain parenchyma. Because histidine may be involved in zinc transport across the brain barrier systems, the binding to histidine was compared between zinc and cadmium to understand the difference in brain permeability to both metals. Sephadex G-10 gel filtration indicated that ¹⁰⁹Cd, unlike ⁶⁵Zn, does not bind to histidine. When the plasma incubated with ⁶⁵Zn or ¹⁰⁹Cd was dialyzed in physiological saline containing histidine (0-10 mM), ⁶⁵Zn concentration in the dialysate was increased with the increase of the histidine concentration, suggesting the transfer of zinc from plasma proteins to histidine. The low affinity of zinc to plasma proteins may be important for brain permeability to this metal. On the other hand, ¹⁰⁹Cd was not detected in the dialysate in the presence of 0.1 mM histidine, which is equal to the concentration in the plasma, suggesting no transfer of cadmium from plasma proteins to histidine. These results suggest that the avid binding of cadmium to plasma proteins is related to brain impermeability to this metal.     

Maternal and fetal iron accumulation in Zn-deficient and salicylate-treated rats

Nonhemoglobin Fe (non Hb−Fe) content in fetal serum and liver is much higher than in maternal serum and liver. After feeding a Zn-deficient diet to pregnant rats from d 0 to 21, non Hb−Fe content in maternal and fetal serum and liver was increased. After oral application of salicylic acid (300 mg/kg) from d 16 to 20 to normally fed and Zn-deficient dams, non Hb−Fe content in maternal and particularly in fetal serum and liver was drastically increased. In the kidney, Fe was accumulated to a small amount resulting from Zn deficiency and salicylate treatment. Fe accumulation in the liver occurred in all cell fractions, particularly in microsomes. Fe accumulation was confirmed and extended histochemically by Prussian blue staining. It is assumed that salicylate increases intestinal Fe resorption and fetal transfer of Fe. It is discussed that salicylate nephrotoxicity and its enhancement by Zn deficiency is not caused by an Fe-dependent mechanism. This work is supported by the German Research Foundation (Sfb 174)     

Contribution of zinc fraction to available zinc extracted,by some chemical methods,from rice growing soils of North-Western Himalayas

A laboratory and greenhouse investigation was undertaken to study the distribution and contribution of zinc fractions to available zinc in submerged rice. Most of the total zinc was present as Al- and Fe-oxide bound (52.8%) and residual zinc (27.8%). The exchangeable (non-specifically and specifically absorbed), organically bound and Mn-oxide bound zinc fractions averaged 0.7, 1.1, 6.3 and 4.9 per cent of the total zinc, respectively. 0.1 M HCl, EDTA-(NH₄)₂CO₃ and dithizone extractants showed significant correlation with per cent yield, Zn concentration and zinc uptake by grain and the critical limits were 3.0, 1.9 and 1.0 µg^–1, respectively. Organically bound zinc exhibited significant correlation with per cent yield and zinc uptake by grain whereas specifically absorbed zinc correlated with Zn concentration in grain. Mn-oxide boudn zinc and Al- and Fe-oxide bound zinc fractions were also correlated with zinc concentration and zinc uptake by grain.     

Zinc availability and digestive zinc solubility in piglets and broilers fed diets varying in their phytate contents, phytase activity and supplemented zinc source

The study was conducted to evaluate the effects of dietary zinc addition (0 or 15 mg/kg of Zn as inorganic or organic zinc) to three maize-soybean meal basal diets varying in their native Zn, phytic P contents and phytase activity (expressed in kg of feed: P- with 25 mg Zn and 1.3 g phytic P, P+ with 38 mg Zn and 2.3 g phytic P or P+/ENZ being P+ including 500 units (FTU) of microbial phytase per kg) in two monogastric species (piglets, broilers). Measured parameters were growth performance, zinc status (plasma, and bone zinc) and soluble zinc in digesta (stomach, gizzard and intestine). The nine experimental diets were fed for 20 days either to weaned piglets (six replicates per treatment) or to 1-day-old broilers (10 replicates per treatment). Animal performance was not affected by dietary treatments (P > 0.05) except that all P- diets improved body weight gain and feed conversion ratio in piglets (P < 0.05). Piglets fed P- diets had a better Zn status than those fed P+ diets (P < 0.05). In both species, Zn status was improved with supplemental Zn (P < 0.05), irrespective of Zn source. Phytase supplementation improved piglet Zn status to a higher extent than adding dietary Zn, whereas in broilers, phytase was less efficient than supplemental Zn. Digestive Zn concentrations reflected the quantity of ingested Zn. Soluble Zn (mg/kg dry matter) and Zn solubility (% of total Zn content) were highest in gizzard contents, which also presented lower pH values than stomach or intestines. The intestinal Zn solubility was higher in piglet fed organic Zn than those fed inorganic Zn (P < 0.01). Phytase increased soluble Zn in piglet stomach (P < 0.001) and intestine (P = 0.1), but not in broiler gizzard and intestinal contents. These results demonstrate (i) that dietary zinc was used more efficiently by broilers than by piglets, most probably due to the lower gizzard pH and its related higher zinc solubility; (ii) that zinc supplementation, irrespective of zinc source, was successful in improving animal's zinc status; and (iii) suggest that supplemented Zn availability was independent from the diet formulation. Finally, the present data confirm that phytase was efficient in increasing digestive soluble Zn and improving zinc status in piglets. However, the magnitude of these effects was lower in broilers probably due to the naturally higher Zn availability in poultry than in swine.