Zinc deficiency inhibits the direct growth effect of growth hormone on the tibia of hypophysectomized rats

The effect of zinc deficiency on the direct-growth effect of growth hormone (GH) on tibia growth in hypophysectomized rats was studied. There were three dietary groups. Zinc deficient (ZD) group (0.9 mg/kg diet), control (C) group (66 mg/kg diet) and zinc adequate pair fed (PF) group (66 mg zinc/kg diet). All rats in each group received local infusion of recombinant human-growth hormone (hGH) (1 Μg/d), except for half of the animals in the control group, which were sham-treated, receiving vehicle infusion only. The substances were infused continuously for 13 d by osmotic minipumps through a catheter implanted into the right femoral artery. Food intake was lower and body weight loss was greater in ZD, and PF animals compared with C animals (p < 0.001). Tissuezinc concentration and plasma alkaline-phosphatase activity were decreased (p < 0.05) by dietary-zinc deficiency. GH infusion increased the tibial-epiphyseal width of the treated right limb, but not of the noninfused left limb in C and PF animals. However, in ZD rats, no difference was found between the infused and the noninfused limbs. These results demonstrate that zinc deficiency inhibits the direct-growth effect of GH on long-bone growth.     

Zinc deficiency in rats decreases thrombin-stimulated platelet aggregation by lowering protein kinase C activity secondary to impaired calcium uptake

Aggregation of rat platelets, when stimulated by adenosine diphosphate (ADP) or fluoride, is impaired by zinc deficiency, and the defect is associated with a decreased uptake of external Ca²⁺. Zinc deficiency also impairs the aggregatory response of platelets to phorbol myristate acetate (PMA), an activator of protein kinase C, but low zinc status decreases the PMA response only when calcium is added to the external medium. The purpose of this study was to determine the role of protein kinase C in rat platelet function and its relationship to the zinc deficiency pathology observed in platelets stimulated by thrombin (THR). The percent of maximal aggregation and the concentration of cytosolic-free Ca²⁺ were measured in washed platelets stimulated by THR and PMA. For the protein kinase C experiments platelets were obtained from rats fed a grain-based diet, and for the thrombin experiments they were from rats fed purified diets. In the latter experiments, immature male rats were fed for 2 weeks a low zinc diet (<1 mg/kg) ad libitum or a zinc adequate (100 mg/kg) diet either ad libitum or pair-fed. Zinc deficiency impaired the aggregation of platelets stimulated by 0.045 U/mL of THR by approximately 40%, and the external calcium uptake (0.03 U/mL of THR) was decreased by approximately 30%. Staurosporine, a protein kinase C inhibitor, decreased thrombin-induced aggregation in a concentration-dependent manner, but it had no effect on the external calcium uptake. While PMA had a synergistic effect with thrombin in the stimulation of platelet aggregation, it actually decreased the cytosolic-free calcium response to thrombin. It is concluded that zinc deficiency impairs thrombin-stimulated platelet aggregation and calcium uptake and that protein kinase C activity is essential for rat platelet aggregation. Protein kinase C does not stimulate calcium uptake and must act downstream of the calcium uptake defect. A model of rat platelet activation is presented depicting impaired Ca²⁺ uptake as the primary defect in zinc deficiency.     

Effects of Zinc Supplementation and Deficiency on Bone Metabolism and Related Gene Expression in Rat

One hundred male rats were randomly divided into four groups (n = 25) and fed a Zn-adequate diet (ZA, 46.39 mg/kg), Zn-deficient diet (ZD, 3.20 mg/kg), Zn-overdose diet (ZO, 234.39 mg/kg), or were pair-fed a Zn-adequate diet (PF) for 5 weeks, respectively. The body weight, femur weight, and activity of alkaline phosphatase (ALP) were reduced in the ZD group but were increased in the ZO group. Zn concentrations in both liver and femur were elevated in the ZO group, whereas femur Zn was decreased in the ZD group. The concentrations of calcium and phosphorus were lower in the ZD than those in other groups. Serum calcium concentration was decreased in the ZD. The relative expression level of ALP was decreased in both ZD and PF, and no significant differences were observed between ZO and ZA. Insulin-like growth factor-I (IGF-I) mRNA level was reduced in the ZD but unchanged in the ZO and PF group. Zn deficiency also decreased ALP mRNA level as compared with that of PF group. Carbonic anhydrase II mRNA level was not affected by Zn. Nevertheless, dietary Zn influenced the growth, bone metabolism, and expression of IGF-I and ALP in male growing rats.     

Dietary Zinc Deficiency Effects Dorso-lateral and Ventral Prostate of Wistar Rats: Histological,Biochemical and Trace Element Study

Zinc deficiency has become a global problem affecting the developed and developing countries due to inhibitors in the diet which prevents its absorption or due to a very low concentration of bioavailable zinc in the diet. Being present in high concentration in the prostate and having diverse biological function, we investigated the effects of dietary zinc deficiency for 2 and 4 weeks on dorso-lateral and ventral prostate. Sixty prepubertal rats were divided into three groups: zinc control (ZC), pair fed (PF) and zinc deficient (ZD) and fed on 100 μg/g (zinc control and pair fed groups) and 1 μg/g (zinc deficient) diet. Zinc deficiency was associated with degenerative changes in dorso-lateral and ventral prostate as made evident by karyolysis, karyorhexis, cytoplasmolysis, loss of cellularisation, decreased intraluminar secretion and degeneration of fibromuscular stroma. In response, protein carbonyl, nitric oxide, acid phosphatase, 3β-hydroxysteroid dehydrogenase and 17β-hydroxysteroid dehydrogenase increased, exhibiting variable level of significance. Total protein and total zinc concentration in dorso-lateral and ventral prostate as well as in serum decreased (P?P?相似文献   

Docosahexaenoic acid but not eicosapentaenoic acid withstands dietary cholesterol-induced decreases in platelet membrane fluidity

To determine the differenetial effects of docosahexaenoic (DHA) and eicosapentaenoic (EPA) acid on platelet membrane fluidity under hypercholesterolemic conditions. DHA and EPA were orally administered (300 mg/kg body weight^.day) to hypercholesterolemic rats for 12 weeks. Membrane fluidity, evaluated by fluorescence polarization of nonpolar 1,6-diphenyl-1,3,5-hexatriene (DPH), of the platelets of high cholesterol (HC; 1%)-fed rats decreased significantly compared with that of the platelets of normocholesterolemic rats. In HC-fed rats, dietary administration of DHA, unlike that of EPA, significantly increased platelet membrane fluidity. A high cholesterol diet significantly increased platelet aggregation, compared with the platelet aggregation of normocholesterolemic rats. DHA administration significantly decreased the aggregation, whereas EPA had no effect. Levels of EPA in the platelets of the EPA-fed HC rats and those of DHA in the platelets of the DHA-fed HC rats increased by 482 and 174%, respectively, compared with those in the platelets of the HC-fed rats. The unsaturation index and the ratio of saturated to (poly)unsaturated fatty acid of the platelet membrane increased only in the DHA-fed rats. The phospholipid content in platelet membranes remained unaltered in all groups, whereas the cholesterol content decreased significantly in DHA-fed rats, resulting in a significant decrease in the cholesterol/phospholipid molar ratio only in the platelet membranes of DHA-fed rats. These results suggest that DHA is a more potent membrane-fluidizer than EPA in withstanding cholesterol-induced decreases in platelet membrane fluidity and a stronger ameliorative modulator of platelet hyperaggregation.     

Increases of Calcium,Phosphorus, and Magnesium in Both the Right and Left Fibrous Trigones of Human Heart with Aging

We previously reported that reduced platelet endogenous antioxidant enzymes activities are related to the low plasma zinc level in patients with end-stage renal failure (ESRF). In this study, we attempt to evaluate whether dietary zinc deprivation reduces the activities of endogenous antioxidant and then enhances oxidative stress in the unstimulated platelet of normal and 5/6 nephrectomized (Nx) rats because increased platelet oxidative stress is suggested to involve in the incidence of thrombotic and atherosclerotic diseases. Male Sprague–Dawley rats (n = 48) were fed a zinc-deficient diet and deionized distilled water for 1 week to induce reduction of plasma zinc level. Half of the rats continued on this diet for 4 weeks as zinc-deplete group, and the other half were maintained on the same diet but with zinc-supplemented water (120 mg/L zinc sulfate solution) to correct the reduction of plasma zinc level as zinc-replete group. Half of each group underwent 5/6 Nx, while the other half underwent sham operation. Another 12 normal rats were fed standard rat chow (containing 23.4% protein and 50 ppm zinc) and drank deionized distilled water as normal control rats. In zinc-deplete rats including sham-operated and 5/6 Nx rats exhibited lower endogenous antioxidant enzymes activities such as reduced glutathione (GSH), superoxide dismutase (SOD), and glutathione peroxidase (GPX) and higher malondialdehyde (MDA) levels than normal control rats in the unstimulated platelets. However, in zinc-replete rats including sham-operated and 5/6 Nx rats have a normal endogenous antioxidant enzymes activity and normal MDA levels in the unstimulated platelets. We suggest that in uremia, the low plasma zinc level may be a risk factor for thrombotic and atherosclerotic diseases because it reduces the activities of endogenous antioxidant enzymes and increases oxidative stress in the unstimulated platelet. Supported by grant 92-117 from Taipei Veterans General Hospital     

Protein carbonyl, 3β-, and 17β-hydroxysteroid dehydrogenases in testes and serum FSH, LH, and testosterone levels in zinc deficient Wistar rats

The present study evaluated protein oxidation, alteration in hydroxysteroid dehydrogenases (3β- and 17β HSD) in testes and serum hormonal profiles of dietary zinc deficient Wistar rats. Pre-pubertal rats were divided into three groups: zinc control (ZC), pairfed (PF), and zinc deficient (ZD) and fed 100 ppm (ZC and PF groups) and 1.0 ppm (ZD group) zinc diet for 2- and 4-weeks. The testes from zinc deficient groups exhibited significant increase in total protein (2 weeks) and protein carbonyl (2- and 4-weeks) concentration as well as 3β- and 17β-hydroxysteroid dehydrogenase activities (4 weeks), whereas a significant decrease was recorded in total protein (testes 4 weeks; serum 2- and 4-weeks), total zinc (testes and serum 2- and 4-weeks), 3β- and 17β-hydroxysteroid dehydrogenase activities (testes 2 weeks), and serum hormonal profiles (FSH and testosterone 2- and 4-weeks). However, LH was below the detectable limits. These results reflect that zinc deficiency during pre-pubertal period affected total protein and zinc status, elevates protein oxidation, and causes dysregulation of the hydroxysteroid dehydrogenases. Low level of zinc attenuated the gonadal physiology which indicates that the metabolic regulation of testes is mediated by combined effects of a specific response (caused by decreased zinc concentration) and a nonspecific response (inhibition of gonadotrophin secretion). All these contribute to testicular dysfunction.     

Cholesterol-induced stimulation of platelet aggregation is prevented by a hempseed-enriched diet

Hypercholesterolemia indirectly increases the risk for myocardial infarction by enhancing the ability of platelets to aggregate. Diets enriched with polyunsaturated fatty acids (PUFAs) have been shown to reduce the detrimental effects of cholesterol on platelet aggregation. This study investigated whether dietary hempseed, a rich source of PUFAs, inhibits platelet aggregation under normal and hypercholesterolemic conditions. Male New Zealand white rabbits were fed one of 6 dietary interventions: regular control diet (RG); control diet + 10% hempseed (HP); control diet + 10% partially delipidated hempseed (DHP); control diet + 0.5% cholesterol (OL); control diet + 0.5% cholesterol + 10% hempseed (OLHP); control diet + 5% coconut oil (CO). After 8 weeks, blood was collected to measure ADP- and collagen-induced platelet aggregation and plasma levels of fatty acids, cholesterol, and triglycerides. The hempseed-fed animals (HP and OLHP) displayed elevated plasma levels of PUFAs and a prominent enhancement in 18:3n-6 (gamma-linolenic acid, GLA) levels, a unique PUFA found in hempseed. The cholesterol-supplemented groups (OL and OLHP) had significantly elevated plasma levels of cholesterol and triglycerides, but platelet aggregation was significantly augmented only in the OL group. The addition of hempseed to this diet (OLHP) normalized aggregation. The direct addition of GLA to the OL platelet samples blocked the cholesterol-induced stimulation of platelet aggregation. The results of this study demonstrate that when hempseed is added to a cholesterol-enriched diet, cholesterol-induced platelet aggregation returns to control levels. This normalization is not due to a reduction in plasma cholesterol levels, but may be partly due to increased levels of plasma GLA.     

Zinc-deficient rats have more limited bone recovery during repletion than diet-restricted rats

The objective of this study was to investigate the effects of dietary zinc deficiency and diet restriction on bone development in growing rats, and to determine whether any adverse effects could be reversed by dietary repletion. Weanling rats were fed either a zinc-deficient diet ad libitum (ZD; <1 mg zinc/kg) or nutritionally complete diet (30 mg zinc/kg) either ad libitum (CTL) or pair-fed to the intake of the ZD group (DR; diet-restricted) for 3 weeks (deficiency phase) and then all groups were fed the zinc-adequate diet ad libitum for 3, 7, or 23 days (repletion phase). Excised femurs were analyzed for bone mineral density (BMD) using dual-energy x-ray absorptiometry, and plasma was analyzed for markers of bone formation (osteocalcin) and resorption (Ratlaps). After the deficiency phase, ZD had lower body weight and reduced femur BMD, zinc, and phosphorus concentrations compared with DR; and these parameters were lower in DR compared with CTL. Femur calcium concentrations were unchanged among the groups. Reduced plasma osteocalcin in ZD and elevated plasma Ratlaps in DR suggested that zinc deficiency limits bone formation while diet restriction accelerates bone resorption activity. After 23 days of repletion, femur size, BMD, and zinc concentrations remained lower in ZD compared with DR and CTL. Body weight and femur phosphorus concentrations remained lower in both ZD and DR compared with CTL after repletion. There were no differences in plasma osteocalcin concentrations after the repletion phase, but the plasma Ratlaps concentrations remained elevated in DR compared with CTL. In summary, both ZD and DR lead to osteopenia during rapid growth, but the mechanisms appear to be due to reduced modeling in ZD and higher turnover in DR. Zinc deficiency was associated with a greater impairment in bone development than diet restriction, and both deficiencies limited bone recovery during repletion in growing rats.     

Tracing of Zinc Nanocrystals in the Anterior Pituitary of Zinc-Deficient Wistar Rats

The aim of this study was to trace zinc nanocrystals in the anterior pituitary of zinc-deficient Wistar rats by using autometallographic technique. Male Wistar rats (30–40 days of age, pre-pubertal period) of 40–50 g body weight were divided into the following: the ZC (zinc control) group—fed with 100 ppm zinc in diet, the ZD (zinc-deficient) group—fed with zinc-deficient (1.00 ppm) diet and the PF (pair-fed) group—received 100 ppm zinc in diet. The experiments were set for 2 and 4 weeks. Pituitary was removed and processed for the autometallographic technique. The control and pair-fed groups retained their normal morphological features. However, male Wistar rats fed on zinc-deficient diet for 2 and 4 weeks displayed a wide range of symptoms such as significant (P < 0.05) decrease in diet consumption, body weight and pituitary weight and decrease in gradation of intensity of zinc nanocrystals in the nuclei. The present findings suggest that the dietary zinc deficiency causes decreased intensity of zinc nanocrystals localization and their distribution in the pituitary thereby contributing to the dysfunction of the pituitary of the male Wistar rats. The severity of zinc deficiency symptoms progressed after the second week of the experiment. Decreased intensity of zinc nanocrystals attenuates the pituitary function which would exert its affect on other endocrine organs impairing their functions indicating that the metabolic regulation of pituitary is mediated to a certain extent by zinc and/or hypothalamus-hypophysial system which also reflects its essentiality during the period of growth.     

Effect of an acute zinc depletion on rat lipoprotein distribution and peroxidation

The aim of this study was to determine the extent to which zinc depletion leads to lipoprotein modifications by measuring both lipoprotein-fraction distribution and peroxidation in zinc-depleted rats. The animals were divided into three groups and fed for 8 wk a zinc-adequate diet (100 ppm) ad libitum (AL), a zinc-deficient diet (0.2 ppm) ad libitum (ZD), or a zinc-adequate diet according to the pair feeding method (PF). Trace-element status, tissular lipids, and lipoprotein-fraction study were performed. The MDA production by the lipoprotein fraction was measured before and after induced peroxidation. Cholesterol and phospholipids were increased in ZD rats. An important increase of VLDL and IDL was observed and a significant enhanced production of MDA by the LDL was related to zinc deficiency. From this observation, we may conclude that LDL fractions of ZD rats are more susceptible to induced oxidative damage. These results suggest that in zinc deficiency, the lipoprotein fragility is an aggravating factor of peroxidation and the dyslipoproteinemia may lead to an atherogenic risk.     

Decreased food intake rather than zinc deficiency is associated with changes in plasma leptin, metabolic rate, and activity levels in zinc deficient rats( small star, filled)

This study investigated the hypothesis that the reduced food intake and poor weight gain in zinc deficient rats is due to: increased plasma leptin concentration, increased physical activity and/or increased metabolic rate. Weanling rats were assigned to three groups: controls fed ad libitum (C), zinc deficient (ZD), and pair-fed controls (PF), and tested in a metabolic chamber and activity monitor at baseline and weekly for four weeks. At the end of the study, all groups were compared for differences in plasma leptin concentrations. ZD and PF animals had markedly reduced food intake and weight gain. ZD had reduced stereotypic and locomotor activity compared to PF animals and both groups demonstrated an abolished peri-nocturnal activity spike and were much less active than controls. This was associated with a reduced total metabolic rate by day 30: ZD (0.73 +/- 0.07 kcal/hr, p = 0.0001) and PF (0.83 +/- 0.06 kcal/hr, p = 0.0001) groups vs. controls (1.82 +/- 0.09 kcal/hr). Plasma leptin concentrations in ZD (1.55 +/- 0.06 &mgr;g/L) were lower than controls (2.01 +/- 0.18 &mgr;g/L, p < 0.03), but neither ZD nor controls were statistically different from PF (1.68 +/- 0.05 &mgr;g/L). Both low leptin concentrations and low metabolic rates in the ZD and PF rats were associated with decreased food intake rather than zinc deficiency. The reduced food intake and poor weight gain observed in zinc deficient rats could not be explained by elevated leptin concentrations, hypermetabolism, or increased activity. Low serum leptin concentrations, hypometabolism, and decreased activity are more likely the result of the anorexia of zinc deficiency.     

TLR4-dependent upregulation of the platelet NLRP3 inflammasome promotes platelet aggregation in a murine model of hindlimb ischemia

Platelets play a critical role in the pathophysiology of peripheral arterial disease (PAD). The mechanisms by which muscle ischemia regulates aggregation of platelets are poorly understood. We have recently identified the Nod-like receptor nucleotide-binding domain leucine rich repeat containing protein 3 (NLRP3) expressed by platelets as a critical regulator of platelet activation and aggregation, which may be triggered by activation of toll-like receptor 4 (TLR4). In this study, we performed femoral artery ligation (FAL) in transgenic mice with platelet-specific ablation of TLR4 (TLR4 PF4) and in NLRP3 knockout (NLRP3^?/?) mice. NLRP3 inflammasome activity of circulating platelets, as monitored by activation of caspase-1 and cleavage of interleukin-1β (IL-1β), was upregulated in mice subjected to FAL. Genetic ablation of TLR4 in platelets led to decreased platelet caspase 1 activation and platelet aggregation, which was reversed by the NLRP3 activator Nigericin. Two weeks after the induction of FAL, ischemic limb perfusion was increased in TLR4 PF4 and NLRP3^?/? mice as compared to control mice. Hence, activation of platelet TLR4/NLRP3 signaling plays a critical role in upregulating platelet aggregation and interfering with perfusion recovery in muscle ischemia and may represent a therapeutic target to improve limb salvage.     

Influence of dietary fatty acids on membrane fluidity and activation of rat platelets

The apparent steady-state fluorescence anisotropy of DPH- or TMA-DPH-labeled washed rat platelets is strongly affected by factors that also influence the turbidity by these platelet suspensions. Sonicated preparations from platelet lipids have a low turbidity and give anisotropy values which are hardly affected by the experimental conditions. We studied the effect of four high-fat diets on membrane fluidity, lipid composition and activation tendency of washed platelets. The diets contained 50 energy% of oils with different levels of saturated and (poly)unsaturated fatty acids. Only small diet-induced differences in DPH fluorescence anisotropy were found, which were comparable for intact platelets and platelet lipids. These differences were unrelated to the degree of saturation of the dietary fatty acids. Platelets from rats fed mainly saturated fatty acids differed significantly from other diet groups in a higher unsaturation degree of phospholipids and a lower cholesterol/phospholipid ratio, but this was not detected by DPH in terms of decreased anisotropy. These platelets aggregated less than other platelets in response to thrombin or collagen. The lower response to collagen persisted in indomethacin-treated platelets activated with the thromboxane A2 mimetic U46619, indicating a different sensitivity of these platelets for thromboxane A2. We conclude that in rat platelets: (a) the overall membrane fluidity and phospholipid unsaturation degree are subject to strong homeostatic control; (b) steady-state anisotropy with DPH or TMA-DPH label is inadequate to reveal subtile changes in lipid profile; (c) changes in platelet responsiveness to thrombin and thromboxane A2, rather than (plasma) membrane fluidity, determine the effect of dietary fatty acids on platelet aggregation.     

Arachidonic acid-induced human platelet aggregation independent of cyclooxygenase and lipoxygenase

It is generally agreed that arachidonic acid (20:4ω6) can stimulate platelet aggregation after conversion to prostaglandin G₂ and H₂ and thence to thromboxane A₂. This action is prevented by cyclooxygenase inhibitors. Washed platelets were isolated on metrizamide gradient and resuspended in a Ca²⁺-free buffer. Their stimulation by C 20:4 6 was followed by ¹⁴C serotonin (5HT) release, thromboxane (TX) synthesis and an increase of light transmission, not dependent on aggregation, accompanied by slight lysis (14%). The addition of extrinsic Ca²⁺ suppressed lysis and allowed the formation of aggregates. Under these conditions, cyclooxygenase inhibitors such as acetyl salicylic acid, indomethacin or flurbiprofen totally suppressed TX synthesis without preventing platelet aggregation or [¹⁴C]-5HT release. Other C 20 polyunsaturated fatty acids could not substituted for C 20:4ω6 in inducing aggregation, and Ca²⁺ was found to be a prerequesite for protection of the cell against lysis as well as for aggregation in the absence or TX formation. The use fo the lipoxygenase inhibitor BW 755 C did not prevent C 20:4ω6-induced aggregation of aspirin-treated platelets, suggesting that the phenomenon was independent of this pathway also. The total suppression of oxidative metabolism with these inhibitors was verified by the analysis of icosanoids using glass capillary column gas chromatography. It is suggested that under these condition, C 20:4ω6-induced platelet aggregation might be due to an increased membrane permeability to Ca²⁺ induced by this fatty acid in the absence of oxidation.     

Primary dysfunction in aggregation and secretion of SHRSP platelets: not secondary to the circulation of "exhausted" platelets

The thrombin-induced secretion of [14C]-serotonin and adenine nucleotides from stroke-prone spontaneously hypertensive rats (SHRSP) platelets was markedly reduced with the development of hypertension accompanying hypo-aggregability compared with that from age-matched Wistar Kyoto rats (WKY) platelets. Calcium Ionophore A23187-induced secretion and aggregation were also attenuated in SHRSP platelets. Additionally, an enhancement of platelet secretion as well as aggregation by extracellular Ca2+ was less in SHRSP platelets than in WKY platelets. The platelet contents of adenine nucleotides and serotonin were not different between SHRSP and WKY at 5-16 weeks of age whereas they became significantly lower in SHRSP beginning at 22 weeks. The serotonin content in SHRSP platelets at 36 weeks of age was only 55% of that in WKY platelets. It is suggested that the reduced platelet aggregation and secretion observed in SHRSP platelets at ages lower than approximately 20 weeks are not secondary phenomena to the circulation of degranulated platelets, but the primary defect of SHRSP platelets appears to be an impaired function of Ca2+.     

Teratogenicity of zinc deficiency in the rat: study of the fetal skeleton

Zinc deficiency (ZD) is teratogenic in rats, and fetal skeletal defects are prominent. This study identifies fetal skeletal malformations that affect calcified and non-calcified bone tissue as a result of gestational zinc deficiency in rats, and it assesses the effect of maternal ZD in fetal bone calcification. Pregnant Sprague-Dawley rats (180-250 g) were fed 1) a control diet (76.4 micrograms Zn/g diet) ad libitum (group C), 2) a zinc-deficient diet (0 microgram/g) ad libitum (group ZD), or 3) the control diet pair-fed to the ZD rats (group PF). On day 21 of gestation, laparotomies were performed. Fetuses were weighed, examined for external malformations, and stained in toto with a double-staining technique for the study of skeletal malformations. Maternal and fetal tissues were used for Zn, Mg, Ca, and P determinations. Gross external malformations were present in 97% of the ZD fetuses. No external malformations were found in fetuses from groups C and PF. Ninety-one percent of cleared ZD fetuses had multiple skeletal malformations, whereas only 3% of the fetuses of group PF had skeletal defects; no skeletal malformations were found in fetuses from group C. Some of the skeletal malformations described in the ZD fetuses, mainly affecting non-calcified bone, were not mentioned in previous reports, thus stressing the importance of using double-staining techniques. Examination of stained fetuses and counting of ossification centers revealed important calcification defects in ZD fetuses. These effects were confirmed by lower Ca and P concentrations in fetal bone with alteration of the Ca:P ratio.     

Activities of liver microsomal fatty acid desaturases in zinc-deficient rats force-fed diets with a coconut oil/safflower oil mixture of linseed oil

The present study was conducted to investigate the effect of zinc deficiency on fatty acid desaturation in rats fed two different types of dietary fat, a mixture of coconut oil and safflower oil (7∶1, w/w, “coconut oil diet”) or linseed oil (“linseed oil diet”). In order to ensure an adequate food intake, all rats were force-fed by gastric tube. Zinc deficiency caused statistical significant reducion of Δ9-desaturase activity in liver microsomes of rats fed coconut oil diet and tendencial reduction (p<0.15) in rats fed linseed oil diet compared with control rats fed diets with the same type of fat. In agreement with this effect, zinc deficiency in the rats fed both types of dietary fat increased the ratio between total saturated and total monounsaturated fatty in liver phospholipids and liver microsomes. Zinc deficient rats on the coconut oil diet had unchanged Δ6-desaturase activity with linoleic acid as substrate and lowered activity with α-linolenic acid as substrate. In contrast, zinc deficient rats on the linseed oil diet had increased Δ6-desaturase activity with linoleic acid as substrate and unchanged activity with α-linolenic acid. Because linoleic acid is the main substrate for Δ6-desaturase in the rats fed coconut oil diet, and α-linolenic acid is the main substrate in the rats fed linseed oil diet, it is concluded that in vivo Δ6-desaturation was not changed by zinc deficiency in the rats fed both types of dietary fat. Activity of Δ5-desaturase was also not changed by zinc deficiency in the rats fed both dietary fats. Levels of fatty acids in liver phospholipids and microsomes derived by Δ4-, Δ5-, and Δ6-desaturation were not consistently changed by zinc deficiency in the rats fed both types of dietary fat. Thus, the enzyme studies and also fatty acid composition data of liver phospholipids and microsomes indicate that zinc deficiency does not considerably disturb desaturation of linoleic and α-linolenic acid. Therefore, it is suggested that similarities between deficiencies of zinc and essential fatty acids described in literature are not due to disturbed desaturation of linoleic acid in zinc deficiency. The present study also indicates that zinc deficiency enhances incorporation of eicosapentaenoic acid into phosphatidylcholine of rats fed diets with large amounts ofn-3 polyunsaturated fatty acids.     

Sex differences in platelet thromboxane and arterial prostacyclin production in control and n-6 fatty acid supplemented rats

Sex differences in eicosanoid production in platelets and vessel walls have been studied in control and n-6 fatty acid supplemented rats. In platelet rich plasma (PRP) of control female rats, arachidonic acid (AA) levels in phospholipids (PL), thromboxane B₂ (TxB₂) formation following collagen stimulation and aggregatory responses to collagen were higher than in PRP of male rats. 6 keto PGF_1α release from PRP-perfused isolated aortas were the same for both sexes, but the antiaggregatory activity of the wall was higher in males than in females, in association with a greater sensitivity of male platelets to prostacyclin.The administration of n-6 fatty acid supplements increased AA level in PL, TxB₂ production and aggregation only in male platelets. Production of 6 keto PGF_1α and the antiaggregatory activity of aortic walls were reduced after dietary treatment in males, but biochemical and functional parameters were not correlated in females.The results indicate complex sex-related differences in fatty acid metabolism and eicosanoid production, and in responses to n-6 dietary fatty acids in platelets and the vascular system in the rat.     

Zinc deficiency reduces leptin gene expression and leptin secretion in rat adipocytes

The present study was conducted to measure ob mRNA abundance in the zinc-deficient (ZD) rats and the secretion of leptin from adipose tissue obtained from ZD, zinc-adequate (ZA), and pair-fed (PF) rats. It was found that ob mRNA abundance was greatest (P < 0.05) in adipose tissue obtained from ZA and PF rats. Ob mRNA abundance was similar in PF and ZD rats. To study leptin secretion from adipose tissue in a cell culture model, a method was developed to use excised epididymal adipose tissue from ZD, ZA, and PF rats. Tissue was incubated in Opti-modified Eagle's medium (MEM) cell culture medium in which concentrations of zinc and insulin were manipulated. It was observed that leptin secretion was higher (P < 0.05) in adipose tissue obtained from ZA than ZD and PF rats. Secretion of leptin was higher in adipose tissue of PF than ZD rats (P < 0.05). Surprisingly, media zinc content in this ex vivo model tended to suppress secretion of leptin. This suppression seems to be zinc specific and might be caused by the sequestration of insulin in the culture medium. Our results indicate that the reduction in serum leptin observed in ZD rats is likely caused by not only a reduction in body fat, but also by a decrease in leptin synthesis and secretion per gram of adipose tissue. Taking these results into account along with a prior study (1), it is possible that even a marginal zinc deficiency could affect leptin secretion and serum leptin concentrations. Impaired leptin secretion caused by zinc deficiency might be one factor contributing to hypogonadism observed in zinc deficiency.