Hendryk Gemeiner, Amauri Antonio Menegário, Carlos Eduardo Eismann, Lucas Pellegrini Elias, Jorge Henrique Pedrobom, Thiago de Araujo Dourado, Hung Kiang Chang, Fabiano Tomazini da Conceição, Rodrigo Braga Moruzzi
{"title":"结合超滤和扩散梯度薄膜技术研究尼罗罗非鱼肝脏细胞质中Cu和Zn的形态/分离。","authors":"Hendryk Gemeiner, Amauri Antonio Menegário, Carlos Eduardo Eismann, Lucas Pellegrini Elias, Jorge Henrique Pedrobom, Thiago de Araujo Dourado, Hung Kiang Chang, Fabiano Tomazini da Conceição, Rodrigo Braga Moruzzi","doi":"10.1093/mtomcs/mfad018","DOIUrl":null,"url":null,"abstract":"<p><p>This work aims to evaluate the size and lability of Cu and Zn bound to proteins in the cytosol of fish liver of Oreochromis niloticus by employing solid-phase extraction (SPE), diffusive gradients in thin films (DGT), and ultrafiltration (UF). SPE was carried out using Chelex-100. DGT containing Chelex-100 as binding agent was employed. Analyte concentrations were determined by ICP-MS. Total Cu and Zn concentrations in cytosol (1 g of fish liver in 5 ml of Tris-HCl) ranged from 39.6 to 44.3 ng ml-1 and 1498 to 2106 ng ml-1, respectively. Data from UF (10-30 kDa) suggested that Cu and Zn in cytosol were associated with ∼70% and 95%, respectively, with high-molecular-weight proteins. Cu-metallothionein was not selectively detected (although 28% of Cu was associated with low-molecular-weight proteins). However, information about the specific proteins in the cytosol will require coupling UF with organic mass spectrometry. Data from SPE showed the presence of labile Cu species of ∼17%, while the fraction of labile Zn species was >55%. However, data from DGT suggested a fraction of labile Cu species only of 7% and a labile Zn fraction of 5%. This data, as compared with previous data from literature, suggests that the DGT technique gave a more plausible estimation of the labile pool of Zn and Cu in cytosol. The combination of results from UF and DGT is capable of contributing to the knowledge about the labile and low-molecular pool of Cu and Zn.</p>","PeriodicalId":89,"journal":{"name":"Metallomics","volume":"15 4","pages":""},"PeriodicalIF":2.9000,"publicationDate":"2023-04-03","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Combining ultrafiltration and diffusive gradients in thin films techniques for speciation/fractionation of Cu and Zn in cytosol of liver of Nile tilapia (Oreochromis niloticus).\",\"authors\":\"Hendryk Gemeiner, Amauri Antonio Menegário, Carlos Eduardo Eismann, Lucas Pellegrini Elias, Jorge Henrique Pedrobom, Thiago de Araujo Dourado, Hung Kiang Chang, Fabiano Tomazini da Conceição, Rodrigo Braga Moruzzi\",\"doi\":\"10.1093/mtomcs/mfad018\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>This work aims to evaluate the size and lability of Cu and Zn bound to proteins in the cytosol of fish liver of Oreochromis niloticus by employing solid-phase extraction (SPE), diffusive gradients in thin films (DGT), and ultrafiltration (UF). SPE was carried out using Chelex-100. DGT containing Chelex-100 as binding agent was employed. Analyte concentrations were determined by ICP-MS. Total Cu and Zn concentrations in cytosol (1 g of fish liver in 5 ml of Tris-HCl) ranged from 39.6 to 44.3 ng ml-1 and 1498 to 2106 ng ml-1, respectively. Data from UF (10-30 kDa) suggested that Cu and Zn in cytosol were associated with ∼70% and 95%, respectively, with high-molecular-weight proteins. Cu-metallothionein was not selectively detected (although 28% of Cu was associated with low-molecular-weight proteins). However, information about the specific proteins in the cytosol will require coupling UF with organic mass spectrometry. Data from SPE showed the presence of labile Cu species of ∼17%, while the fraction of labile Zn species was >55%. However, data from DGT suggested a fraction of labile Cu species only of 7% and a labile Zn fraction of 5%. This data, as compared with previous data from literature, suggests that the DGT technique gave a more plausible estimation of the labile pool of Zn and Cu in cytosol. 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引用次数: 0
摘要
采用固相萃取(SPE)、薄膜扩散梯度(DGT)和超滤(UF)等方法,研究了尼罗鱼肝脏细胞质中Cu和Zn与蛋白质结合的大小和稳定性。采用Chelex-100进行固相萃取。采用含Chelex-100的DGT作为结合剂。用ICP-MS测定分析物浓度。细胞溶胶(1 g鱼肝加5 ml Tris-HCl)中Cu和Zn的总浓度分别为39.6 ~ 44.3 ng ml-1和1498 ~ 2106 ng ml-1。来自UF (10-30 kDa)的数据表明,细胞质中Cu和Zn与高分子量蛋白的相关性分别为70%和95%。没有选择性地检测到铜金属硫蛋白(尽管28%的铜与低分子量蛋白相关)。然而,关于细胞质溶胶中特定蛋白质的信息将需要耦合UF与有机质谱。固相萃取(SPE)数据显示,样品中存在约17%的不稳定Cu,而大于55%的不稳定Zn。然而,DGT的数据表明,不稳定Cu的比例仅为7%,不稳定Zn的比例为5%。这一数据,与以前的文献数据相比,表明DGT技术给出了细胞质中锌和铜的不稳定池的更合理的估计。UF和DGT的结合结果有助于了解Cu和Zn的不稳定和低分子池。
Combining ultrafiltration and diffusive gradients in thin films techniques for speciation/fractionation of Cu and Zn in cytosol of liver of Nile tilapia (Oreochromis niloticus).
This work aims to evaluate the size and lability of Cu and Zn bound to proteins in the cytosol of fish liver of Oreochromis niloticus by employing solid-phase extraction (SPE), diffusive gradients in thin films (DGT), and ultrafiltration (UF). SPE was carried out using Chelex-100. DGT containing Chelex-100 as binding agent was employed. Analyte concentrations were determined by ICP-MS. Total Cu and Zn concentrations in cytosol (1 g of fish liver in 5 ml of Tris-HCl) ranged from 39.6 to 44.3 ng ml-1 and 1498 to 2106 ng ml-1, respectively. Data from UF (10-30 kDa) suggested that Cu and Zn in cytosol were associated with ∼70% and 95%, respectively, with high-molecular-weight proteins. Cu-metallothionein was not selectively detected (although 28% of Cu was associated with low-molecular-weight proteins). However, information about the specific proteins in the cytosol will require coupling UF with organic mass spectrometry. Data from SPE showed the presence of labile Cu species of ∼17%, while the fraction of labile Zn species was >55%. However, data from DGT suggested a fraction of labile Cu species only of 7% and a labile Zn fraction of 5%. This data, as compared with previous data from literature, suggests that the DGT technique gave a more plausible estimation of the labile pool of Zn and Cu in cytosol. The combination of results from UF and DGT is capable of contributing to the knowledge about the labile and low-molecular pool of Cu and Zn.