Peter Uciechowski

Intracellular zinc homeostasis in leukocyte subsets is regulated by different expression of zinc exporters ZnT‐1 to ZnT‐9

Intracellular zinc homeostasis is strictly regulated by zinc binding proteins and zinc transporters. In the present study, we quantified in a first global view the expression of all characterized human zinc exporters (hZnT‐1‐9) in different leukocyte subsets in response to zinc supplementation and depletion and analyzed their influence on alterations in the intracellular zinc concentration. We found that hZnT‐1 is the most regulated zinc exporter. Furthermore, we discovered that hZnT‐4 is localized in the plasma membrane similar to hZnT‐1. hZnT‐4 is most highly expressed in Molt‐4, up‐regulated after treatment with PHA and is responsible for the measured decrease of intracellular zinc content after high zinc exposure. In addition, we found that hZnT‐5, hZnT‐6, and hZnT‐7 in Raji as well as hZnT‐6 and hZnT‐7 in THP‐1 are up‐regulated in response to cellular zinc depletion. Those zinc exporters are all localized in the Golgi network, and this type of regulation explains the observed zinc increase in both cell types after up‐regulation of their expression during zinc deficiency and, subsequently, high zinc exposure. Furthermore, we detected, for the first time, the expression of hZnT‐8 in peripheral blood lymphocytes, which varied strongly between individuals. While hZnT‐2 was not detectable, hZnT‐3 and hZnT‐9 were expressed at low levels. Further on, the amount of expression was higher in primary cells than in cell lines. These data provide insight into the regulation of intracellular zinc homeostasis in cells of the immune system and may explain the variable effects of zinc deficiency on different leukocyte subsets.

Diagnosis of paroxysmal nocturnal haemoglobinuria using immunophenotyping of peripheral blood cells.

Paroxysmal nocturnal haemoglobinuria (PNH) is now generally accepted as a disease in which bone marrow derived cells are deficient in phosphatidylinositolglycan (PIG)‐anchored surface molecules. A series of new monoclonal antibodies detecting PIG‐anchored surface structures on human leucocytes (CD48, CD55, CD59) has recently been described. In the present study 12 patients with the diagnosis PNH and a positive Ham test were examined for PIG‐anchored surface antigen expression on various cell lineages using immunofluorescence. In all patients deficient cells were detected in erythrocyte, granulocyte and monocyte analysis. A deficient lymphocyte subset was also observed in all but one of these patients. Using two‐colour analysis, all lymphocyte subpopulations such as T, B and NK cells were found to be affected. In addition, peripheral blood cells of 22 patients with severe aplastic anaemia (SAA) were tested for the PIG‐anchoring defect. In five of these patients the defect was detected, and in four of the five the lack of PIG‐anchored molecules was confined to the granulocyte and monocyte lineages apparently without affecting the erythrocytes. The results of these studies demonstrate that cytofluorographic testing of peripheral blood cells provides a simple and reliable method for establishing the diagnosis of PNH. Furthermore, especially in the case of aplastic anaemia patients, the sensitivity of immunophenotyping might be superior to conventional laboratory tests.

Zinc supplementation in the elderly reduces spontaneous inflammatory cytokine release and restores T cell functions.

Aging is associated with low-grade inflammation on the one hand and mild zinc deficiency on the other. These conditions contribute to decreased immune functions, resulting in increased incidences of infections and autoimmune diseases. The aim of this study was to give more insight into the question, to what extent is low-grade inflammation caused by zinc deficient status. Here we report the effect of improved intracellular zinc status on low-grade inflammatory activity in 19 healthy elderly subjects. Our experiments show that adjustment of labile zinc by moderate zinc supplementation reduces spontaneous cytokine release and defects in termination of inflammatory activity. This results in reduced amounts of unspecific preactivated T cells and leads to improved T cell response upon mitogenic stimulation. Therefore, in contrast to other anti-inflammatory drugs, zinc does not suppress, but improves immune reaction upon pathogen invasion. These results suggest that mildly zinc-deficient, healthy elderly subjects might benefit from moderate zinc supplementation due to a more balanced immune response with reduced incidences of infections and autoimmune diseases.

Polymorphonuclear leucocytes selectively produce anti-inflammatory interleukin-1 receptor antagonist and chemokines, but fail to produce pro-inflammatory mediators.

The role of neutrophils in the immune response has long been regarded as mainly phagocytic, but recent publications have indicated the production of several cytokines by polymorphonuclear leucocytes (PMN). The results of the individual reports, however, vary considerably. In this study, we established a cytokine profile of pure human neutrophils and demonstrated that minor contamination of peripheral blood mononuclear cells (PBMCs) in PMN preparations can lead to false‐positive results. In our hands, peripheral blood PMN fail to produce the pro‐inflammatory cytokines interleukin (IL)‐1β, IL‐6 and tumour necrosis factor‐α (TNF‐α). Instead, they secrete large amounts of the chemokine IL‐8 and the anti‐inflammatory IL‐1 receptor antagonist (IL‐1ra). Additionally, PMN preparations of a high purity show production of the chemokines macrophage inflammatory protein (MIP)‐1α, MIP‐1β and growth‐related oncogene‐α (GRO‐α), as well as macrophage colony‐stimulating factor (M‐CSF). The neutrophil therefore represents a novelty by producing the antagonist of IL‐1β (i.e. IL‐1ra) in the absence of IL‐1β itself. To support our results, we differentiated stem cells from human cord blood into PMN and monocytes, respectively. These in vitro‐differentiated PMN showed the same cytokine profile as peripheral blood PMN lacking IL‐1β, while differentiated monocytes produced the expected IL‐1β in addition to IL‐1ra. The clear anti‐inflammatory nature of their cytokine profile enables PMN to antagonize pro‐inflammatory signals in experimental conditions. It is therefore possible that PMN play a key role in immune regulation by counteracting a dysregulation of the inflammatory process. Clinical studies, in which administration of recombinant G‐CSF had a favourable effect on the outcome of severe infections and even sepsis without worsening inflammation, could thus be explained by our results.

The Th17/Treg balance is disturbed during aging

Aging is associated with multiple changes in the proliferative and functional abilities of the immune system which are not related to any pathology but consequences in immunosenescence and inflammaging. T helper (TH) 17 cells have been implicated in the development of autoimmune and chronic inflammatory diseases in humans. Additionally, a reciprocal relationship between these pro-inflammatory TH17 and the anti-inflammatory regulatory T cells (Tregs) has been described. Recent studies reported an increase of TH17 cells in aged humans and aged mice, but the role of TH17 cells and their relation to Tregs is poorly understood in human aging. This study investigated the proportion of TH17 (CD4+ IL23 receptor(R)+) cells and Tregs (CD4+ Foxp3+) as well as Interleukin (IL)-17 and IL-10 production in four different age groups from human healthy donors. The data revealed a continual increase of basal CD4+ IL23R+ cell amounts in the different age groups. By analyzing the balance of both T-cell subsets it was observed that, on a basal resting level, TH17 cells were significantly increased in older individuals whereas Tregs were reduced. However, the TH17/Treg ratio decreased age-dependently after stimulation and was accompanied by elevated Foxp3 mRNA and IL-10 protein expressions. In conclusion, changes of the TH17/Treg ratios in combination with altered cytokine expression during aging may contribute to an imbalance between the pro-inflammatory and the anti-inflammatory immune response. This indicates a higher susceptibility to develop inflammatory diseases with increasing age.

Silver ions induce oxidative stress and intracellular zinc release in human skin fibroblasts

Silver compounds used as topical antimicrobial agents are known to exert toxic effects on skin cells. The aim of this study was to investigate whether the toxicity of silver ions, in analogy to other transition metal ions, depends on pro-oxidant effects. We treated human skin fibroblasts with concentrations of AgNO(3) not affecting cell proliferation, mitochondrial activity, or cell viability and found that Ag(+) strongly increases the production of reactive oxygen species, including superoxide anion radicals. These effects correspond to a strong decrease in intracellular reduced glutathione and to an increased susceptibility to H(2)O(2)-induced cell death. In addition, AgNO(3) down-regulates the expression of antioxidant genes such as the transcription factor Nrf2 and its target gene glutamate-cysteine ligase catalytic subunit. Furthermore Ag(+) induces a transient intracellular zinc release and increases the mRNA and protein expression of the zinc-binding protein metallothionein by activating the metal-responsive transcription factor 1, as verified by RNA interference. In conclusion, we show for the first time that Ag(+) induces oxidative stress and affects intracellular zinc homeostasis in human skin fibroblasts. The understanding of the mechanism involved in silver toxicity might contribute to new strategies for managing the therapy of skin infections.

TH1 and TH2 cell polarization increases with aging and is modulated by zinc supplementation.

Elderly subjects suffer from increased levels of activated T cells and a TH1/TH2 imbalance. Zinc deficiency of the aged is correlated with decreased cell-mediated immune responses. The association of age and zinc adjustment with the amounts of TH1 (CCR5+) and TH2 (CCR4+) cell populations in healthy aged old donors enrolled in the European ZINCAGE project was examined. Old and nonagenarian individuals revealed increased TH1, TH2 cell numbers and a decreased TH2/TH1 ratio in comparison to young individuals. The differences between TH2/TH1 ratios of young and old/nonagenarians arose from young females. Adjusted zinc status led to enhanced TH2 and TH1 amounts in fresh whole blood and thawed cells of aged donors whereas increased HLA-DR+ expression and a generally lower CCR5 expression was observed on thawed PBMC. In conclusion, aging is associated with an increase in T helper cell polarization, and changes in TH2/TH1 subsets are more obvious in women than in men. Advanced healthy aging is accompanied by TH cell polarization, too. Moderate zinc supplementation in vivo alters TH proportions. Longer zinc treatment will give more insight into the beneficial effect of zinc on T helper cell modulation.

Immunosenescence of Polymorphonuclear Neutrophils

All immune cells are affected by aging, contributing to the high susceptibility to infections and increased mortality observed in the elderly. The effect of aging on cells of the adaptive immune system is well documented. In contrast, knowledge concerning age-related defects of polymorphonuclear neutrophils (PMN) is limited. During the past decade, it has become evident that in addition to their traditional role as phagocytes, neutrophils are able to secrete a wide array of immunomodulating molecules. Their importance is underlined by the finding that genetic defects that lead to neutropenia increase susceptibility to infections. Whereas there is consistence about the constant circulating number of PMN throughout aging, the abilities of tissue infiltration, phagocytosis, and oxidative burst of PMN from aged donors are discussed controversially. Furthermore, there are numerous discrepancies between in vivo and in vitro results, as well as between results for murine and human PMN. Most of the reported functional changes can be explained by defective signaling pathways, but further research is required to get a detailed insight into the underlying molecular mechanisms. This could form the basis for drug development in order to prevent or treat age-related diseases, and thus to unburden the public health systems.

Susceptibility to tuberculosis is associated with TLR1 polymorphisms resulting in a lack of TLR1 cell surface expression

Human TLR1 plays an important role in host defense against Mycobacterium tuberculosis. Our aim was to analyze the association of the loss of TLR1 surface expression and TLR1 SNPs with susceptibility to TB. TLR1neg and TLR1pos cells from healthy individuals were identified by flow cytometry and compared by sequencing. TLR1 expression was measured using quantitative real‐time PCR and immunoblotting. TLR1 SNP analyses of healthy individuals and TB patients from EU‐C and Ghana were performed, and association of the TLR1 genotypes with increased risk of developing TB was statistically evaluated. Lack of TLR1 surface expression accompanied by impaired function was strongly associated with TLR1 SNP G743A. Genotyping of EU‐C controls and TB patients revealed an association of TLR1 743A/1805G alleles [OR 2.37 (95% CI 1.13, 4.93), P=0.0219; OR 2.74 (95% CI 1.26, 6.05), P=0.0059] as well as TLR1neg 743AA/1805GG versus TLR1pos genotypes 743AG/1805TG [OR 4.98 (95% CI 1.64, 15.15), P=0.0034; OR 5.70 (95% CI 1.69, 20.35), P=0.0015] and 743AG + GG/1805TG + TT [OR 3.54 (95% CI 1.29, 9.90), P=0.0086; OR 4.17 (95% CI 1.52, 11.67), P=0.0025] with increased susceptibility to TB. No association of G743A with TB was found in Ghana as a result of a low frequency of genotype 743AA. Our data gain new insights in the role of TLR1 in M. tuberculosis defense and provide the first evidence that TLR1 variants are associated with susceptibility to TB in a low‐incidence country.

Zinc deficiency induces production of the proinflammatory cytokines IL-1β and TNFα in promyeloid cells via epigenetic and redox-dependent mechanisms

The deprivation of zinc, caused by malnutrition or as a consequence of aging or disease, strongly affects immune cell functions, causing higher frequency of infections. Among other effects, an increased production of reactive oxygen species (ROS) and proinflammatory cytokines has been observed in zinc-deficient patients, but the underlying mechanisms were unknown. The aim of the current study was to define mechanisms explaining the increase in proinflammatory cytokine production during zinc deficiency, focusing on the role of epigenetic and redox-mediated mechanisms. Interleukin (IL)-1β and tumor necrosis factor (TNF)α production was increased in HL-60 cells under zinc deficiency. Analyses of the chromatin structure demonstrated that the elevated cytokine production was due to increased accessibilities of IL-1β and TNFα promoters in zinc-deficient cells. Moreover, the level of nicotinamide adenine dinucleotide phosphate-oxidase (NADPH) oxidase-produced ROS was elevated under zinc deficiency, subsequently leading to p38 mitogen-activated protein kinase (MAPK) phosphorylation. The increased activation of p38 MAPK appeared to be necessary for posttranscriptional processes in IL-1β and TNFα synthesis. These data demonstrate that IL-1β and TNFα expression under zinc deficiency is regulated via epigenetic and redox-mediated mechanisms. Assuming an important role of zinc in proinflammatory cytokine regulation, this should encourage research in the use of zinc supplementation for treatment of inflammatory diseases.