Effect of zinc deficiency on autologous rosette-forming cells

Ability to form autologous rosettes (A-rosettes) is characteristic of a certain population of immature T cells, present in the thymus of various species including man. In mice, few A-rosettes are normally found in peripheral blood and spleen but their number increases markedly in spleen following thymectomy. In our studies, A-rosette formation could be demonstrated to be significantly enhanced in the spleen of C57B1/Ks mice after the animals had been maintained 3, 6, and 8 weeks on a zinc-deficient diet (Zn^?) and to increase progressively with duration of feeding the Zn^? diet. These changes were quickly reversed by feeding a normal diet containing zinc but could not be eliminated by complete adrenalectomy, a finding that ruled out their dependence on pituitary-adrenal as is function attributable to stress. Pair-fed controls and mice fed a zinc-supplemented diet ad libitum showed few A-rosettes, as expected.     

Effect of Dietary Selenium and Cancer Cell Xenograft on Peripheral T and B Lymphocytes in Adult Nude Mice

Selenium (Se) is known to regulate tumorigenesis and immunity at the nutritional and supranutritional levels. Because the immune system provides critical defenses against cancer and the athymic, immune-deficient NU/J nude mice are known to gradually develop CD8⁺ and CD4⁺ T cells, we investigated whether B and T cell maturation could be modulated by dietary Se and by tumorigenesis in nude mice. Fifteen homozygous nude mice were fed a Se-deficient, Torula yeast basal diet alone (Se−) or supplemented with 0.15 (Se+) or 1.0 (Se++) mg Se/kg (as Na₂SeO₄) for 6 months, followed by a 7-week time course of PC-3 prostate cancer cell xenograft (2 × 10⁶ cells/site, 2 sites/mouse). Here, we show that peripheral B cell levels decreased in nude mice fed the Se −  or Se++ diet and the CD4⁺ T cell levels increased in mice fed the Se++ diet. During the PC-3 cell tumorigenesis, dietary Se status did not affect peripheral CD4⁺ or CD8⁺ T cells in nude mice whereas mice fed with the Se++ diet appeared to exhibit greater peripheral CD25⁺CD4⁺ T cells on day 9. Dietary Se status did not affect spleen weight in nude mice 7 weeks after the xenograft. Spleen weight was associated with frequency of peripheral CD4⁺, but not CD8⁺ T cells. Taken together, dietary Se at the nutritional and supranutritional levels regulates peripheral B and T cells in adult nude mice before and after xenograft with PC-3 prostate cancer cells.     

Ferulic acid maintains the self-renewal capacity of embryo stem cells and adipose-derived mesenchymal stem cells in high fat diet-induced obese mice

Self-renewal is required for embryo stem cells (ESCs) and adipose-derived mesenchymal stem cells (ADMSCs). This study examined the ability of ferulic acid in mouse ESCs and ADMSCs, in a high fat diet-induced mouse model. Initially, five natural compounds of ferulic acid, xanthohumol, curcumin, ascorbic acid, and quercetin were screened in ESCs using an alkaline phosphate ⁺(AP⁺) assay, as a self-renewal biomarker. A ferulic acid treatment was the highest AP⁺ staining in hop-hit screening compounds. Also a ferulic acid increased Nanog mRNA levels in ESCs. The in vivo effects of ferulic acid were next examined in an obese mouse model. C57BL/6 J male mice were fed either a high fat diet (HFD) or control diet with ferulic acid (5 g/kg diet) for 8 weeks. Ferulic acid exhibited weight loss and improved glucose homeostasis, lipid profiling, and hepatic steatosis in a HFD-induced mouse model. Next, ADMSCs (Sca-1⁺CD45⁻), a hallmark of fat stem cells, were then isolated and quantified from mouse abdominal adipose tissue. A HFD decreased the Sca-1⁺CD45⁻ cell population of ADMSCs, but HFD-induced obese mice given ferulic acid showed an increased the Sca-1⁺CD45⁻ cell population of ADMSCs. Moreover, ferulic acid enhanced NANOG mRNA levels in human ADMSCs and its related gene mRNA expression. Overall, this study suggests that ferulic acid preserves self-renewal in ESCs, and contributes to ADMSCs self-renewal and effective weight control in obesity.     

Isolation of GIF from porcine brain and studies of its zinc transfer kinetics with apo-carbonic anhydrase

Neuronal growth inhibitory factor (GIF) of porcine brain, was isolated and purified by a similar procedure which was used on the isolation of human and bovine GIF. The native porcine protein with stoichiometry of 4Cu⁺, 3Zn²⁺ was obtained for the first time. The kinetics of zinc transfer from Cu₄Zn₃MT-3 to apo-carbonic anhydrase were studied, and zinc transfer rate constants and thermodynamic parameters were obtained. It is found that like other MTs, porcine Cu₄Zn₃MT-3 can also transfer its zinc atom to apoCA, even much easier than other MTs. A possible association mechanism has been proposed, the formation of Cu₄Zn₃MT3-apoCA complex may be the rate-determining step. The obtained data indicate besides its neuronal growth inhibitory function, GIF might play a role in cellular Zn homeostasis in brain.     

Zinc homeostatic proteins in the CNS are regulated by crosstalk between extracellular and intracellular zinc

Release of Zn²⁺ from presynaptic glutamatergic terminals has long been considered the principle challenge necessitating the existence of zinc homeostatic proteins (ZHP) in the mammalian nervous system. It is now known that neural cells also possess an intracellular zinc pool, termed here [Zn²⁺]_i, which functions in a cell signaling context. A major challenge is characterizing the interaction of these two populations of zinc ions. To assess the relationship of this Zn²⁺ pool to cellular ZHP production, we employed immunofluorescence and immunoblot analysis to compare the expression of ZHP's ZnT‐1 and MT‐I/II in olfactory bulb and hippocampus of wild‐type and ZnT‐3 KO mice, which lack synaptic Zn²⁺. In both areas, the respective distribution and concentration of ZnT‐1 and MT‐I/II were identical in ZnT‐3 KO and control animals. We subsequently examined ZHP content in ZnT‐3 KO and WT mice treated with a membrane‐permeable Zn²⁺ chelator. In both olfactory bulb and hippocampus of the KO mice, the ZHP content was significantly reduced 15 h after chelation of [Zn²⁺]_i compared to WT controls. Our findings support the conclusion that ZHP expression is regulated by crosstalk between synaptic and intracellular pools of Zn²⁺. J. Cell. Physiol. 224: 567–574, 2010. © 2010 Wiley‐Liss, Inc.     

Effect of zinc administration on thyrotropin releasing hormone-stimulated prolactinemia in healthy men

Previous in vitro studies have demonstrated zinc (Zn⁺⁺) inhibition of basal and of potassium (K⁺) or thyrotropin-releasing hormone (TRH)-stimulated prolactin (PRL) secretion, in a selective, reversible, and dose-dependent manner. Thus, Zn⁺⁺ may regulate physiologically pituitary PRL secretion. Furthermore, studies with patients with uremia, cirrhosis or prolactinoma, have shown the coexistence of hypozincemia and hyperprolactinemia and zinc supplementation did not correct hyperprolactinemia in these patients. In normal individuals Zn⁺⁺ administration produced controversial results on PRL secretion. Here, we investigated whether zinc administration affects TRH-stimulated PRL in healthy men. We found that Zn⁺⁺ administration does not change the TRH-stimulated PRL. Therefore, in normal conditions, Zn⁺⁺ does not inhibit TRH-stimulated prolactinemia. In addition, we found that acute increases of blood PRL and TRH do not alter blood Zn⁺⁺ levels.     

Atrial natriuretic peptide relation to plasma and heart zinc concentrations of wistar rats exposed to cold and hot ambients

Plasma atrial natriuretic peptide (ANP) and zinc levels, as well as heart tissue zinc concentrations were determined, in male Wistar rats after the exposure of 114 rats at low temperature (4°C) and 95 rats at high temperature (35–36°C) for 28 d. Plasma ANP was estimated by radioimmunoassay and Zn²⁺ concentrations by atomic absorption spectrometry. Values were compared to a control group exposed at 20–22°C (76 rats). Plasma ANP and Zn²⁺ levels, as well as heart tissue Zn²⁺ concentrations of control rats did not show statistically significant variations during the study, whereas rats exposed to cold and hot ambients showed significant variations of the parameters. A significant increase of plasma ANP and plasma zinc and heart tissue Zn²⁺ concentrations developed during cold exposure, whereas a gradual decrease of plasma ANP and Zn²⁺ levels was revealed during hot adaptation. Results also indicate that plasma ANP and zinc levels are proportionally related, whereas there is an inverse relationship between plasma ANP levels and heart Zn²⁺ concentrations, in both cold and hot exposed rats. In conclusion, our results show that ANP in relation to zinc probably play an important role in cold and hot acclimatization of rats.     

Metabolism-mediated induction of zinc tolerance in <Emphasis Type="Italic">Brassica rapa</Emphasis> by <Emphasis Type="Italic">Burkholderia cepacia</Emphasis> CS2-1

Brassica rapa (Chinese cabbage) is an essential component of traditional Korean food. However, the crop is often subject to zinc (Zn⁺) toxicity from contaminated irrigation water, which, as a result, compromises plant growth and production, as well as the health of human consumers. The present study investigated the bioaccumulation of Zn⁺ by Burkholderia cepacia CS2-1 and its effect on the heavy metal tolerance of Chinese cabbage. Strain CS2-1 was identified and characterized on the basis of 16S rRNA sequences and phylogenetic analysis. The strain actively produced indole-3-acetic acid (3.08 ± 0.21 μg/ml) and was also able to produce siderophore, solubilize minerals, and tolerate various concentrations of Zn⁺. The heavy metal tolerance of B. rapa plants was enhanced by CS2-1 inoculation, as indicated by growth attributes, Zn⁺ uptake, amino acid synthesis, antioxidant levels, and endogenous hormone (ABA and SA) synthesis. Without inoculation, the application of Zn⁺ negatively affected the growth and physiology of B. rapa plants. However, CS2-1 inoculation improved plant growth, lowered Zn⁺ uptake, altered both amino acid regulation and levels of flavonoids and phenolics, and significantly decreased levels of superoxide dismutase, endogenous abscisic acid, and salicylic acid. These findings indicate that B. cepacia CS2-1 is suitable for bioremediation against Zn⁺-induced oxidative stress.     

Development of Functional Rat-Derived T Cells in SCID Mice Engrafted with the Fetal Thymus of LEC Rats Which Are Defective in CD4+ T Cells

We reported that LEC rats are genetically deficient in the development of thymic CD4⁺8^? cells and that this defect is caused by bone marrow (BM)-derived stem cells. To determine which BM-derived cells are responsible for the arrest of T-cell development in LEC rats, fetal thymuses of LEC rats, or LEA rats which bear the same major histocompatibility complex (MHC) as LEC rats but are immunologically normal, were engrafted under the kidney capsule of severe combined immunodeficiency (SCID) mice (LEC-TG and LEA-TG mice, respectively). We then examined the differentiation of T cells and their immunological functions in the SCID mice. A large number of rat-derived CD4⁺ T cells appeared in the peripheral blood, lymph nodes (LN) and spleens in LEC-TG mice. Furthermore, the peripheral LN cells in LEC-TG mice appeared to be functional. These cells produced IL-2 upon Con A stimulation, whereas LN cells from LEC rats produced no IL-2 in the same conditions. Thymopoiesis was observed at 3 weeks in LEC-TG as well as LEA-TG mice. The distribution of thymocyte subsets with respect to CD4 and CD8 expression in LEC-TG mice closely resembled that of LEA rat thymus and that in LEA-TG mice, suggesting that normal T-cell differentiation occurred in LEC-TG mice. The results indicated that BM-derived progenitor T cells of LEC rats could differentiate to functional CD4⁺ T cells.     

IL-22 produced by Th22 cells aggravates atherosclerosis development in ApoE−/− mice by enhancing DC-induced Th17 cell proliferation

Th22 cells are a novel subset of CD4⁺ T cells that primarily mediate biological effects through IL-22, with both Th22 cells and IL-22 being closely associated with multiple autoimmune and chronic inflammatory diseases. In this study, we investigated whether and how Th22 cells affect atherosclerosis. ApoE^−/− mice and age-matched C57BL/6J mice were fed a Western diet for 0, 4, 8 or 12 weeks. The results of dynamic analyses showed that Th22 cells, which secrete the majority of IL-22 among the known CD4⁺ cells, play a major role in atherosclerosis. ApoE^−/− mice fed a Western diet for 12 weeks and administered recombinant mouse IL-22 (rIL-22) developed substantially larger plaques in both the aorta and aortic root and higher levels of CD3⁺ T cells, CD68⁺ macrophages, collagen, IL-6, Th17 cells, dendritic cells (DCs) and pSTAT3 but lower smooth muscle cell (SMC) α-actin expression than the control mice. Treatment with a neutralizing anti–IL-22 monoclonal antibody (IL-22 mAb) reversed the above effects. Bone marrow-derived DCs exhibited increased differentiation into mature DCs following rIL-22 and ox-LDL stimulation. IL-17 and pSTAT3 were up-regulated after stimulation with IL-22 and ox-LDL in cells cocultured with CD4⁺ T cells and mature DC supernatant, but this up-regulation was significantly inhibited by IL-6mAb or the cell-permeable STAT3 inhibitor S31-201. Thus, Th22 cell-derived IL-22 aggravates atherosclerosis development through a mechanism that is associated with IL-6/STAT3 activation, DC-induced Th17 cell proliferation and IL-22–stimulated SMC dedifferentiation into a synthetic phenotype.     

Dietary Enterococcus faecium NCIMB 10415 and Zinc Oxide Stimulate Immune Reactions to Trivalent Influenza Vaccination in Pigs but Do Not Affect Virological Response upon Challenge Infection

Swine influenza viruses (SIV) regularly cause significant disease in pigs worldwide. Since there is no causative treatment of SIV, we tested if probiotic Enterococcus (E.) faecium NCIMB 10415 or zinc (Zn) oxide as feed supplements provide beneficial effects upon SIV infection in piglets. Seventy-two weaned piglets were fed three different diets containing either E. faecium or different levels of Zn (2500 ppm, Zn^high; 50 ppm, Zn^low). Half of the piglets were vaccinated intramuscularly (VAC) twice with an inactivated trivalent SIV vaccine, while all piglets were then infected intranasally with H3N2 SIV. Significantly higher weekly weight gains were observed in the E. faecium group before virus infection, and piglets in Zn^high and E. faecium groups gained weight after infection while those in the control group (Zn^low) lost weight. Using ELISA, we found significantly higher H3N2-specific antibody levels in the E. faecium+VAC group 2 days before and at the day of challenge infection as well as at 4 and 6 days after challenge infection. Higher hemagglutination inhibition (HI) titers were also observed in the Zn^high+VAC and E. faecium+VAC groups at 0, 1 and 4 days after infection. However, there were no significant differences in virus shedding and lung lesions between the dietary groups. Using flow cytometry analysis significantly higher activated T helper cells and cytotoxic T lymphocyte percentages in the PBMCs were detected in the Zn^high and E. faecium groups at single time points after infection compared to the Zn^low control group, but no prolonged effect was found. In the BAL cells no influence of dietary supplementation on immune cell percentages could be detected. Our results suggest that feeding high doses of zinc oxide and particularly E. faecium could beneficially influence humoral immune responses after vaccination and recovery from SIV infection, but not affect virus shedding and lung pathology.     

Dietary Nucleotides Increase the Proportion of a TCRγδ+ Subset of Intraepithelial Lymphocytes (IEL) and IL-7 Production by Intestinal Epithelial Cells (IEC); Implications for Modification of Cellular and Molecular Cross-talk between IEL and IEC by Dietary Nucleotides

We have investigated the effects of dietary nucleotides on intraepithelial lymphocytes (IEL) and intestinal epithelial cells (IEC) in weanling mice. The proportion of T-cell receptor (TCR) γδ⁺ IEL in BALB/c mice fed a diet supplemented with nucleotides (NT(+) diet) was significantly higher than that in mice fed the nucleotide-free diet, while the proportion of TCRαβ⁺ IEL in NT(+) diet-fed mice was significantly decreased. The change of the TCRαβ⁺/TCRγδ⁺ ratio was mainly observed in a CD8αα⁺ subset of IEL. IEC from NT(+) diet-fed mice produced a higher level of IL-7, which is important in the development of TCRγδ⁺ IEL, than those from control diet-fed mice. The expression levels of IL-7 and IL-2 receptors on IEL were not different between the two dietary groups. Our findings suggest that the increased population of a TCRγδ⁺ IEL subset by feeding nucleotides may be caused by the increased production of IL-7 by IEC.     

The influence of sex and strain on trace element dysregulation in the brain due to diet-induced obesity

BackgroundThe objective of this study was to identify interaction effects between diet, sex, and strain on trace element dysregulation and gene expression alterations due to diet-induced obesity (DIO) in the hippocampus, striatum, and midbrain.MethodsMale and female C57BL/6 J (B6 J) and DBA/2 J (D2 J) mice were fed either a low fat (10 % kcal) diet (LFD) or high fat (60 % kcal) diet (HFD) for 16 weeks, then assessed for trace element concentrations and gene expression patterns in the brain.ResultsIn the hippocampus, zinc was significantly increased by 48 % in D2 J males but decreased by 44 % in D2 J females, and divalent metal transporter 1 was substantially upregulated in B6 J males due to DIO. In the striatum, iron was significantly elevated in B6 J female mice, and ceruloplasmin was significantly upregulated in D2 J female mice due to DIO. In the midbrain, D2 J males fed a HFD had a 48 % reduction in Cu compared to the LFD group, and D2 J females had a 37 % reduction in Cu compared to the control group.ConclusionsThe alteration of trace element homeostasis and gene expression due to DIO was brain-region dependent and was highly influenced by sex and strain. A significant three-way interaction between diet, sex, and strain was discovered for zinc in the hippocampus (for mice fed a HFD, zinc increased in male D2 Js, decreased in female D2 Js, and had no effect in B6 J mice). A significant diet by sex interaction was observed for iron in the striatum (iron increased only in female mice fed a HFD). A main effect of decreased copper in the midbrain was found for the D2 J strain fed a HFD. These results emphasize the importance of considering sex and genetics as biological factors when investigating potential associations between DIO and neurodegenerative disease.     

Co2+ binding to α-lactalbumin

α-Lactalbumin possesses multiple Zn²⁺ binding sites, with the strongest site having an affinity constant of 5×10⁵ M^?1 [Permyakovet al. (1991),J. Protein Chem. 100, 577]. The binding of zinc at secondary sites is accompanied by destabilization of the protein structure and progressive protein aggregation. This pronounced destabilization is reflected in a shift of the thermal denaturation transition temperature by more than 40°. The present work examines Co²⁺ binding to bovineα-lactalbumin, where for this analog of Zn²⁺, multiple binding sites were also found from spectrofluorimetric titrations. The strong site Co²⁺ binding constant was 1.3×10⁶ M^?1. However, in contrast to Zn²⁺ binding, Co²⁺ does not cause protein aggregation nor any significant thermal destabilization of the protein. Fluroescence energy transfer measurements between Tb³⁺ in the strong calcium site to Co²⁺ in the strong Zn²⁺ site gave a distance in the range of 14–18 Å, which was in excellent agreement with recent crystallographic data for humanα-lactalbumin [Renet al. (1993), J. Biol. Chem.268, 19292–19298] However, the X-ray structure did not identify the additional zinc sites found from earlier solution studies, presumably due to restrictive crystal packing interactions. The results from the current work confirm that the strong cobalt (zinc) site in solution is the same zinc site elucidated by X-ray crystallography.     

Effect of Zinc Supplementation on Inflammatory Markers and Adipokines in Young Obese Women

Obesity is a chronic inflammatory state characterized by altered adipokine production and increased levels of inflammatory cytokines. The study explored the effect of zinc supplementation on inflammatory markers and adipocyte hormones in young obese women. Twenty five non-obese women and forty obese women (body mass index ≥25 kg/m²) aged 19–28 years were recruited for this study. Twenty obese women of the study group took 30 mg/day of supplemental zinc as zinc gluconate for 8 weeks and 20 obese women of control group took placebo. Usual dietary zinc intake was estimated from 3-day diet records. Serum zinc and urinary zinc concentration were measured by Atomic Absorption Spectrophotometry. Inflammatory markers such as high sensitivity C-reactive protein (hs-CRP), tumor necrosis factor-alpha (TNF-α), and interleukin (IL)-6 and adipocyte hormones such as lepin and adiponectin were measured by enzyme immunoassay. Inflammatory markers and leptin were significantly higher, but adiponectin was significantly lower in obese women than non-obese women. Zinc supplementation increased serum zinc by 15 % and urinary zinc by 56 % (P?<?0.05). The levels of hs-CRP (P?=?0.03) and IL-6 (P?=?0.006) significantly decreased with zinc supplementation, but not in placebo group. Serum leptin and plasma adiponectin concentration did not differ with either zinc supplementation or placebo. The levels of IL-6 and leptin were inversely associated with dietary zinc intake. These results suggest that zinc may have a favorable effect on obesity-related inflammation in young adults.     

阿魏酸钠对肺结核模型小鼠免疫功能及肺泡巨噬细胞吞噬功能的调控作用研究

摘要 目的：探讨与分析阿魏酸钠对肺结核模型小鼠免疫功能及肺泡巨噬细胞吞噬功能的调控作用。方法：肺结核模型小鼠(n=36)随机分为模型组、利福平组、阿魏酸钠组,每组各12只。利福平组、阿魏酸钠组分别给予100 mg/kg剂量的利福平与阿魏酸钠,模型组小鼠灌胃等量生理盐水,1次/d,给药6周,观察与记录所有小鼠的一般特征;分别于给药第2周、第4周、第6周,HE染色观察小鼠的病理特征;MDA检测试剂盒和总SOD活性检测试剂盒测定肺组织MDA水平与SOD活性;流式细胞仪检测小鼠T淋巴细胞亚群-CD3⁺T淋巴细胞、CD4⁺T淋巴细胞水平;酶联免疫法检测血清IL-6、IL-8含量;AnnexinV-FITC检测肺泡巨噬细胞凋亡率。结果：利福平组、阿魏酸钠组给药第2周、第4周、第6周的肺组织丙二醛（Malondialdehyde,MDA）水平低于模型组（P<0.05）,超氧化物岐化酶（superoxide dismutase,SOD）活性高于模型组（P<0.05）,利福平组与阿魏酸钠组对比也有明显差异（P<0.05）。利福平组、阿魏酸钠组给药第2周、第4周、第6周的血液CD3⁺T淋巴细胞、CD4⁺T淋巴细胞比例明显高于模型组（P<0.05）,阿魏酸钠组也高于利福平组（P<0.05）。利福平组、阿魏酸钠组给药第2周、第4周、第6周的血清IL-6、IL-8含量明显低于模型组（P<0.05）,阿魏酸钠组也低于利福平组（P<0.05）。利福平组、阿魏酸钠组给药第2周、第4周、第6周的肺泡灌洗液（broncho alveolar lavage fluid,BALF）巨噬细胞凋亡率明显低于模型组（P<0.05）,阿魏酸钠组也明显低于利福平组（P<0.05）。结论：阿魏酸钠在肺结核模型小鼠的应用可抑制炎症因子的表达,并改善氧化状况,还能增强小鼠的免疫功能,降低肺泡灌洗液巨噬细胞凋亡率。     

Reduced cell proliferation and neuroblast differentiation in the dentate gyrus of high fat diet-fed mice are ameliorated by metformin and glimepiride treatment

We investigated the effects of a high-fat diet (HFD) and the subsequent treatment of metformin (met) and glimepiride (glim), which are widely prescribed for type 2 diabetes, on cell proliferation and neuroblast differentiation using Ki67 and doublecortin (DCX) immunohistochemistry, respectively. Animals were fed low-fat diet (LFD) or HFD for 8 weeks. After 5 weeks of the HFD treatment, met alone or met + glim was administered orally once a day for 3 weeks. Body weight and food intake were much higher in the HFD + vehicle-treated group than the LFD-treated group. The administration of met or met + glim to the HFD-treated group resulted in a decrease in weight gain and food intake. Ki67-immunoreactive (⁺) nuclei, DCX⁺ neuroblasts and brain-derived neurotrophic factor (BDNF) protein levels were markedly decreased in the dentate gyrus (DG) of the HFD + vehicle-treated group compared to the LFD-treated group. The administration of met or met + glim to the HFD-treated group prevented the reduction of Ki67⁺ nuclei, DCX⁺ neuroblasts, BDNF levels in the DG. The intraventricular injection of K252a (a BDNF receptor blocker) to the HFD-treated group treated met or met + glim distinctively lowered the reduction of cell proliferation and neuroblast differentiation induced by HFD. These results suggest that a HFD significantly reduces cell proliferation and neuroblast differentiation by reducing BDNF levels and these effects are ameliorated by treatment with met or met + glim.     

Leaf cell membrane stability‐based mechanisms of zinc nutrition in mitigating salinity stress in rice

• Excess salt affects about 955 million ha of arable land worldwide, and 49% of agricultural land is Zn‐deficient. Soil salinity and zinc deficiency can intensify plant abiotic stress. The mechanisms by which Zn can mitigate salinity effects on plant functions are not well understood.
• We conducted an experiment to determine how Zn and salinity effects on rice plant retention of Zn, K⁺ and the salt ion Na⁺ affect chlorophyll formation, leaf cell membrane stability and grain yield. We examined the mechanisms of Zn nutrition in mitigating salinity stress by examining plant physiology and nutrition. We used native Zn‐deficient soils (control), four salinity (EC ) and Zn treatments – Zn 10 mg·kg^?1 (Zn₁₀), EC 5 dS ·m^?1 (EC ₅), Zn₁₀+EC ₅ and Zn₁₅+EC ₅, a coarse rice (KS ‐282) and a fine rice (Basmati‐515) in the study.
• Our results showed that Zn alone (Zn₁₀) significantly increased rice tolerance to salinity stress by promoting Zn/K⁺ retention, inhibiting plant Na⁺ uptake and enhancing leaf cell membrane stability and chlorophyll formation in both rice cultivars in native alkaline, Zn‐deficient soils (P  <  0.05). Further, under the salinity treatment (EC ₅), Zn inputs (10–15 mg·kg^?1) could also significantly promote rice plant Zn/K⁺ retention and reduce plant Na⁺ uptake, and thus increased leaf cell membrane stability and grain yield. Coarse rice was more salinity‐tolerant than fine rice, having significantly higher Zn/K⁺ nutrient retention.
• The mechanistic basis of Zn nutrition in mitigating salinity impacts was through promoting plant Zn/K⁺ uptake and inhibiting plant Na⁺ uptake, which could result in increased plant physiological vigour, leaf cell membrane stability and rice productivity.

     

Mesenteric adipose tissue B lymphocytes promote local and hepatic inflammation in non‐alcoholic fatty liver disease mice

Mesenteric adipose tissue (MAT) inflammation is associated with non‐alcoholic fatty liver disease (NAFLD), and immune cells play pivotal roles in the inflammation of adipose tissue. Here, we investigated the roles of MAT B lymphocytes in NAFLD. Mice fed with high‐fat diet (HFD) and normal diet (ND) were killed in time gradients (4, 8 and 12 weeks). Compared with ND‐fed mice, intra‐hepatic CD45⁺CD19⁺ B lymphocytes increased after 4 weeks (P < 0.01) of HFD feeding, and lasted until the 12th week, infiltrated earlier than CD45⁺CD3⁺ T lymphocytes and CD45⁺F4/80⁺ macrophages. The mRNA expression of tumour necrosis factor (TNF)‐α, interleukin (IL)‐6 and monocyte chemotactic protein (MCP)‐1 decreased in MAT of B^null HFD‐fed mice compared to that in wild‐type HFD‐fed mice, along with lesser macrophages. Mesenteric adipose tissue B cells from HFD‐fed mice promoted macrophage differentiation to type‐Ι macrophages and expression of pro‐inflammatory cytokines in vitro. Macrophages pre‐treated with MAT B cells from HFD‐fed mice showed elevated mRNA expression of IL‐6 and TNF‐α and declined IL‐10 levels in adipocytes compared to ND MAT B cell pre‐treated macrophages. Besides, internal near‐infrared scanning and external transwell assay showed that HFD MAT B cells migrated to the liver more than ND MAT B cells. High‐fat diet MAT B cells induced higher MCP‐1 and lower IL‐10 expression in primary hepatocytes compared to ND MAT B cells in co‐culture experiment. These data indicate that B lymphocytes infiltrate early in MAT during the development of NAFLD, which may not only promote MAT inflammation by regulating macrophages but also migrate to the liver and induce hepatocytes inflammation.