Abigail M. Tokheim scite author profile

Abigail M. Tokheim

5Publications

59Citation Statements Received

96Citation Statements Given

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173

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University of Minnesota

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Identification of mouse brain proteins associated with isoform 3 of metallothionein

et al. 2005

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Using immunological approaches and mass spectrometry, five proteins associated with metallothionein-3 in mouse brains have been identified. Metallothionein-3 and associated proteins were isolated using immunoaffinity chromatography over immobilized anti-mouse brain MT3 antibody. Proteins in the recovered pool were separated by SDS-polyacrylamide gel electrophoresis, and distinct bands were excised and the proteins digested using trypsin. Peptides were extracted and analyzed using electrospray ionization mass spectrometry. Initial identification was done comparing the identified peptide mass:charge ratios to the MASCOT database. Confirmation of proteins was accomplished by sequencing of selected peptides using tandem mass spectrometry and comparison to the MASCOT database. The proteins were heat-shock protein 84 (mouse variant of heat-shock protein 90), heat-shock protein 70, dihydropyrimidinase-like protein 2, creatine kinase, and ␤ actin. Independently using antibodies against metallothionein-3, creatine kinase, and heat-shock protein 84 showed that all three proteins were coimmunoprecipitated from whole mouse brain homogenates with each of the three antibodies. Mixing purified samples of metallothionein and human brain creatine kinase also generated a complex that could be immunoprecipitated either by anti-metallothionein-3 or anticreatine kinase antibody. These data are consistent with metallothionein-3 being present in the mouse brain as part of a multiprotein complex providing new functional information for understanding the role of metallothionein-3 in neuronal physiology.Keywords: metallothionein-3; partner proteins; mass spectrometry; proteomics; mouse brain Metal ions are both essential constituents to cell growth and development and toxic elements when present in an excess, unchaperoned form. Organisms have developed metal-regulating networks to provide the control of the concentrations and availability of different metal ions. A major constituent of this network is the family of low-molecular weight, cysteine rich, inducible metal-binding proteins called metallothioneins (MTs) (Kägi and Schäffer 1988;Kägi 1993;Klaassen 1999). The metal ions are coordinated to Cys sulfur atoms in metal-thiolate clusters (Otvos and Armitage 1980;Boulanger et al. 1983). Multiple isoforms of MTs are known. MT1 and MT2 are the better characterized proteins, and are induced by increased concentrations of heavy metals, such as Cd 2+ , among others. Although MT3 is often considered to be specific to brain tissue, it also is reported to be found in human kidney (Garrett et al. 1999a) and numerous cancers (Garrett et al. 1999b;Sens et al. 2000;Dutta et al. 2002). Unlike MT1 and MT2, MT3 is not induced by heavy metals, indicating that the amounts of MT isoforms are regulated differently in cells.Metallothionein-3 was originally isolated from brain as a growth inhibitory factor (GIF) using bioassays demonstrating the inhibition of neuronal cell growth, a property not exhibited by MT1 and MT2. Many reports indicate that mR...

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Metallothionein-3 and neuronal nitric oxide synthase levels in brains from the Tg2576 mouse model of Alzheimer's disease

et al. 2006

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Using antiserum against the recombinant isoform 3 of mouse brain metallothionein (MT3), the amount of MT3 protein was determined in whole brain homogenates from the Tg2576 transgenic mouse model of Alzheimer's Disease. Twenty-two month old transgenic positive mice showed a 27% decrease of MT3 normalized to the total protein in the extracts compared to same age, control transgenic negative mice. Metallothioneins bind seven molar equivalents of divalent metal ions per mole of protein so metal levels also were measured in these whole brain extracts using inductively coupled plasma atomic absorption (ICP-AA) spectrometry. No significant difference was observed for any metal assayed. Because neuronal nitric oxide synthase (nNOS) is involved in neurodegenerative disease and nitric oxide specifically interacts with MT3, the concentration and total nNOS activity also were evaluated. The transgenic positive mice showed a decrease of 28% in nNOS protein compared to the same age transgenic negative mice. Normalized to the amount of nNOS protein, total NOS activity was higher in the transgenic positive mice. These data showed that protein levels of both MT3 and nNOS were reduced in transgenic positive mice that show many characteristics of Alzheimer's Disease. In vitro studies suggested that MT3 was not a likely candidate for directly affecting nNOS activity in the brain.

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Association of calcineurin with mitochondrial proteins

Tokheim

Martin

2006

Proteins

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Using mouse hearts from Swiss Webster mice, calcineurin was immunoprecipitated using commercially available anti-calcineurin antibody and the resulting complex analyzed by using sodium dodecyl sulfate-gel electrophoresis with silver staining. Distinct proteins were observed and subjected to in situ trypsin digestion followed by extraction of the resulting peptides. Peptides from each protein band were loaded onto a target for matrix-assisted laser desorption/ionization time-of-flight mass spectrometry and analyzed. The resulting peptide mass spectrum was compared with the Mascot and Protein Prospector databases and resulted in the specific identification of heart mitochondrial proteins, specifically Mn-superoxide dismutase (SOD), aconitase (ACN), and malate dehydrogenase (MDH). Each of the three mitochondrial enzymes was identified with approximately 15-25% sequence coverage and all with statistical significance (P < 0.05) according to the Mascot database search engine. Tandem mass spectrometry analysis of the peptide fragmentation spectra confirmed the identification of these protein partners and also yielded the identification of mitochondrial isocitrate dehydrogenase (ICDH) as another protein in the immunoprecipitated complex. Using antibody preparations against Mn-SOD, ACN, and ICDH showed the presence of calcineurin and each of the three proteins in the immunoprecipitated complex by Western slot blotting. The activity of ACN, but not MDH or ICDH, was enhanced after incubation with calcineurin indicating one possible regulatory function for the complex. The mitochondrial forms of Mn-SOD, ACN, MDH, and ICDH were identified as partner proteins of calcineurin with all the proteins present in a single multiprotein complex.

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Antiserum specific for the intact isoform-3 of metallothionein

Tokheim

Armitage

Martin

2005

Journal of Biochemical and Biophysical Methods

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Evidence for the Cd2+ Activation of the Aryl Sulfatase from Helix pomatia

2005

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Often used to remove sulfate groups from carbohydrates, the regulatory properties of the aryl sulfatase from Helix pomatia remain little characterized. As many hydrolytic enzymes utilize exogenous metal ions in catalysis, the effect of various divalent metal ions on the sulfatase was investigated. Evidence for metal ion activation was collected, with Cd(2+) being notable for effective activation. The enzyme was inhibited by Cu(2+). The response of other common hydrolases to divalent metal ions was characterized. Activation by Cd(2+) was not observed for chymotrypsin, rabbit liver esterase, or beta-galactosidase. Instead, Cd was found to inhibit both the esterase and the galactosidase. Inhibition by Cu(2+) and Zn(2+) was also observed for some of these hydrolases.

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