Manganese transporter Slc30a10 controls physiological manganese excretion and toxicity
Courtney J. Mercadante, … , Deepa B. Rao, Thomas B. Bartnikas
Courtney J. Mercadante, … , Deepa B. Rao, Thomas B. Bartnikas
Published December 2, 2019; First published September 17, 2019
Citation Information: J Clin Invest. 2019;129(12):5442-5461. https://doi.org/10.1172/JCI129710.
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Categories: Research Article Genetics Metabolism

Manganese transporter Slc30a10 controls physiological manganese excretion and toxicity

Abstract

Manganese (Mn), an essential metal and nutrient, is toxic in excess. Toxicity classically results from inhalational exposures in individuals who work in industrial settings. The first known disease of inherited Mn excess, identified in 2012, is caused by mutations in the metal exporter SLC30A10 and is characterized by Mn excess, dystonia, cirrhosis, and polycythemia. To investigate the role of SLC30A10 in Mn homeostasis, we first generated whole-body Slc30a10–deficient mice, which developed severe Mn excess and impaired systemic and biliary Mn excretion. Slc30a10 localized to canalicular membranes of hepatocytes, but mice with liver Slc30a10 deficiency developed minimal Mn excess despite impaired biliary Mn excretion. Slc30a10 also localized to the apical membrane of enterocytes, but mice with Slc30a10 deficiency in small intestines developed minimal Mn excess despite impaired Mn export into the lumen of the small intestines. Finally, mice with Slc30a10 deficiency in liver and small intestines developed Mn excess that was less severe than that observed in mice with whole-body Slc30a10 deficiency, suggesting that additional sites of Slc30a10 expression contribute to Mn homeostasis. Overall, these results indicated that Slc30a10 is essential for Mn excretion by hepatocytes and enterocytes and could be an effective target for pharmacological intervention to treat Mn toxicity.

Authors

Courtney J. Mercadante, Milankumar Prajapati, Heather L. Conboy, Miriam E. Dash, Carolina Herrera, Michael A. Pettiglio, Layra Cintron-Rivera, Madeleine A. Salesky, Deepa B. Rao, Thomas B. Bartnikas

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Figure 9

Enterocyte Slc30a10 contributes to the regulation of Mn levels.

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Enterocyte Slc30a10 contributes to the regulation of Mn levels. (A) Slc3...
(A) Slc30a10/Hprt1 RNA ratios in 8-week-old female C57BL/6NJ mouse tissues. Small intestines were equally sectioned into 7 segments (sm. int. 1–7). (B) Fluorescence images of frozen duodenal and cecal sections from 2-month-old Slc30a10+/+ and Slc30a10GFP/GFP mice. DAPI (blue); GFP (green). Original magnification, ×20 and ×60 (enlarged insets); scale bars: 200 μm. (C and D) Four-month-old Slc30a10lox/lox and Slc30a10lox/lox Vil mice were analyzed for (C) tissue Slc30a10/Hprt1 RNA ratios, normalized to female lox/lox levels (“Duodenum” refers to the proximal 4 cm of small intestines; “small intestines” refers to the remaining organ) and (D) organ Mn levels. For all panels except B, data are presented as individual values and represent the mean ± SEM. For C and D, outliers (not shown) were identified by ROUT. Two-tailed P values were calculated by unpaired t test. Removal of 1 outlier in C and 2 outliers in D did not affect the designation of the comparisons with a P value below 0.05. Removal of the outlier in D (16.5 in female Slc30a10lox/lox Vil liver) changed the P value from P > 0.05 to P < 0.01. n = 5–8 replicates/group. *P < 0.05, **P < 0.01, ***P < 0.001, and ****P < 0.0001.