David Eide

..Finally, zinc deficiency up-regulates the mammalian ER stress response indicating a conserved requirement for zinc in ER function among eukaryotes...

..We previously used transcriptome profiling with DNA microarrays to identify 46 potential Zap1 target genes in the yeast genome. In this new study, we used complementary methods to identify additional Zap1 target genes...

..We propose that SCD-EDS is the result of vesicular zinc trapping and ER zinc deficiency rather than overload...

..Thus, this creative study provides a previously unconsidered explanation for the abundance of dual-transporter systems in biology...

..Thus, cells require zinc transport mechanisms to allow cells to efficiently accumulate the metal ion and distribute it within the cell. Our current knowledge of these transport systems in eukaryotes is the focus of this review...

..We refer to the resulting accumulation profile as the yeast 'ionome'...

..The Zap1 zinc-responsive transcription factor regulates several genes in yeast, and the identity of these genes has led to new insights regarding how cells respond to the stress of zinc deficiency...

..In addition, through studies of the model eukaryotic cell, Saccharomyces cerevisiae, we are now beginning to understand the strategies cells use to limit this stress and reduce its damage...

..Last, we show that these properties are evolutionarily conserved indicating their importance to Zap1 function. These results indicate that the kinetic lability of ZF1/2 in vivo is a key component of Zap1 zinc responsiveness...

..Finally, our results indicate that, in the context of the full-length Zap1 protein, AD1 and AD2 are both critical to the full control of gene expression in response to zinc...

..Thus, we conclude that TSA1 induction by Zap1p is an adaptive response to deal with the increased oxidative stress caused by zinc deficiency...

..These studies have led to new insights into how cells adapt to nutrient-limiting growth conditions...

..The activity of these transporters is regulated at both transcriptional and posttranscriptional levels in response to zinc. These different mechanisms work together to precisely balance zinc uptake and its storage and utilization...

..These studies suggest that these zinc fingers play an unprecedented role as zinc sensors to control activation domain function...

..These data suggest that Pho8 receives its metal cofactor in the vacuole rather than in earlier compartments of the secretory pathway...

..Thus, these data indicate that while Sod1 activity is critical for low zinc growth, diminished Sod1 activity is not a major source of the elevated ROS observed under these conditions...

..These results suggest that heteromeric complexes formed by different CDF members may be a common phenomenon for this ubiquitous family of metal ion transporters...

..Our results implicate zinc as a major determinant of the ability of the cell to store these other important nutrients...

..Using mutant alleles defective for metal-responsive inactivation, we also show that Zrt1 inactivation may be an important mechanism for preventing cadmium uptake and toxicity in zinc-limited cells...

..Comparisons of the protein sequences, ionic selectivity, and gene expression patterns of the two transporters suggest that they may play different roles in the physiology of the whole plant...

..Mutations in SLC39A4 have been identified in patients with acrodermatitis enteropathica, a genetic disease of zinc deficiency...

..We propose that this "proactive" strategy of homeostatic regulation, such as we document here for ZRC1, may represent a common but largely unrecognized phenomenon...

..We found that ADH3, the major mitochondrial alcohol dehydrogenase, is regulated in a manner similar to ADH1. Thus, during zinc deficiency, Zap1 mediates the repression of two of the most abundant zinc-requiring enzymes...

..Moreover, these systems had high affinities for zinc with apparent K(m) values in the 100-200 nm range. These results provide biochemical insight into the important role of Zrc1 and related proteins in eukaryotic zinc homeostasis...

..Derepression of FET4 may allow the Fet4 transporter to play an even greater role in metal acquisition under anaerobic conditions. Thus, Fet4 is a multisubstrate metal ion transporter under combinatorial control by iron, zinc, and oxygen...

..These results indicate that the unusual pattern of ZRT2 regulation among Zap1 target genes involves the antagonistic effect of Zap1 binding to a low-affinity ZRE repressor site and high-affinity ZREs required for activation...

..Moreover, our results indicate that zinc-responsive endocytosis is a conserved mechanism controlling activity of many mammalian zinc uptake transporters...

..We propose that the IZH genes affect zinc homeostasis either directly or indirectly by altering sterol metabolism...

..Furthermore, given its expression in tissues important to zinc homeostasis, we propose that Zip5 plays a central role in controlling organismal zinc status...

..These data suggest a role of GintZnT1 in Zn compartmentalization and in the protection of G. intraradices against Zn stress...

..In addition, this work indicates that the control of zinc by ZIP transporters may play a critical role in regulating developmental processes...

..These findings suggest that zinc-regulated trafficking of human and mouse ZIP4 is a key mechanism controlling dietary zinc absorption and cellular zinc homeostasis...

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..These effects suggest a zinc sensing mechanism for regulating Zip4 trafficking in response to zinc...

..The present results demonstrate that zinc regulation of AD activity of ZF2 is dependent on determinants in ZF1 as well as the alpha-helix segment of ZF2...

..These results indicate differential regulation of FRO1 in roots and shoots, and improper FRO1 regulation in response to a shoot-derived signal of iron status in the roots of the brz and dgl mutants...

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..The fourth mechanism we will assess is if DBD function per se is Zn regulated. These studies will lead to fundamental insights into metallosensing and Zn homeostasis. ..

..This proposal is focused on Zip13, a zinc transporter recently linked to some cases of Ehlers-Danlos Syndrome, and the role this protein plays in controlling the vesicular storage of zinc. ..

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..4) Identify potential intermolecular repressors of Zap1p activity. 5) Characterize zinc-binding by Zap1p in vitro. These experiments will lead to a greater understanding of zinc homeostasis in human cells. ..

..These studies should provide greater insight into the processes of zinc homeostasis in all eukaryotes. ..

..These individuals will be encouraged to present posters to be displayed in two poster sessions. We also will obtain funds to provide travel awards for up to 10 postdocs or senior graduate students. ..