1B) Furthermore, when extracellular zinc was

added, Fluo

1B). Furthermore, when extracellular zinc was

added, FluoZin-3 fluorescence increased (Supporting Information Fig. 1C), indicating rapid sequestration of the additional zinc into zincosomes, whereas cytoplasmic zinc was maintained at a constant level (Supporting Information Fig. 1D). It has previously been described that FluoZin-3 labels the lysosomal compartment of T cells 8. This was confirmed by double labeling of CTLL-2 cells with FluoZin-3 and LysotrackerRed DND-99 (Fig. 1D), showing that the punctuate FluoZin-3 signal co-localizes selleck chemicals llc with lysosomes. Surprisingly, FluoZin-3 labels a pool of zinc that is not detected by Zinquin. The latter has been found in vesicular structures in related cell types, such as human chronic lymphatic leukemia cells or Jurkat human T lymphoblasts when these cells were treated with zinc and pyrithione or were undergoing apoptosis 16, 17. In contrast to Zinquin, the free-acid form of FluoZin-3 is not membrane-permeant 18; so it is unlikely

that Zinquin is excluded from the lysosomal compartment, whereas FluoZin-3 is not. The most likely reason for the different labeling lies in the form in which the vesicular zinc may be stored. In the case of metallothionein, Zinquin has been shown to detect protein bound zinc 19. However, this does not mean that Zinquin can detect any form of tightly protein bound zinc, because only four of the seven zinc ions in MT are bound with high affinity,

whereas the remaining three are bound with lower affinity 20, and at least the most weakly PF-02341066 purchase bound zinc ion (log K 7.7) should be readily available to Zinquin (KDZn/Zinquin=370 nM (1:1 complex) or 85 nM (1:2 complex)) 16. Vesicular zinc in macrophages has recently been found to be stored bound to a zinc sink, formed by an average coordination environment of 1.0 sulfur, 2.5 histidines, and 1.0 oxygen 15. FluoZin-3 has a higher affinity for zinc (KDZn/FluoZin-3=8.9 nM) than Zinquin 21, and it is possible that the storage form of lysosomal zinc in T cells has an affinity that allows only detection by FluoZin-3, but not Zinquin. These data indicate a fast release of free zinc ions from lysosomes within 2 min, comparable to the response of monocytes to LPS 22. Adenosine triphosphate In contrast, it differs considerably from the zinc wave described in mast cells, which has been suggested to originate from the ER. There, a slow increase of free zinc starts a few minutes after triggering of the Fcε receptor 23. Next, we investigated the role of zinc signals in two major signaling pathways triggered by the IL-2R. The zinc chelator TPEN (N,N,N′,N′-tetrakis-(2-pyridylmethyl)-ethylenediamine) abrogated IL-2-induced phosphorylation of ERK (Fig. 2A). In addition, adding zinc together with the ionophore pyrithione resulted in phosphorylation of ERK, even in the absence of IL-2, whereas extracellular zinc or pyrithione alone had only marginal effects.

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