Protoporphyrin IX regulates peripheral benzodiazepine receptor associated protein 7 (PAP7) and divalent metal transporter 1 (DMT1) in K562 cells

The divalent metal transporter 1 (DMT1) is essential for cellular uptake of iron, mediating iron absorption across the duodenal brush border membrane. We have previously shown that with iron feeding DMT1 in the brush border membrane undergoes endocytosis into the subapical compartment of enterocytes. To understand the mechanisms of iron-induced endocytosis of DMT1, we used the yeast two-hybrid system to find proteins that interact with DMT1 and isolated from a rat duodenal cDNA library a protein that interacts specifically with the IRE containing isoform of DMT1 {DMT1 [iron-responsive element (IRE)]}. The protein (Genbank AY336075 ) is 97.5% identical with peripheral benzodiazepine receptor-associated protein 7 (PAP7), a protein that interacts with the peripheral benzodiazepine receptor. PAP7 is ubiquitously expressed in the rat and in multiple cell lines with consensus sequences including a nuclear localization signal and a Golgi dynamic domain. PAP7, expressed on the brush border of rat duodenum, copurified with DMT1 in brush border membrane vesicles, and following iron feeding, was internalized in parallel with the internalization of DMT1. To determine if PAP7 plays a role in cellular iron metabolism, we downregulated PAP7 expression in K562 cells with small interfering RNA. Following the decrease in PAP7 protein, DMT1 (IRE) protein but not mRNA was significantly downregulated but without effect on DMT1 (non-IRE), transferin (Tf)R1, or ferritin expression. Lowered levels of PAP7 resulted also in decreased cell proliferation and G1cell cycle arrest. These data are consistent with PAP7 interacting with DMT1 (IRE) and regulating DMT1 (IRE) expression in K562 cells by modulating expression of DMT1 (IRE) protein.

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DMT1 Expression Is Regulated by DMT1 Associated Protein (DAP) in K562 Cells.

Blood ◽

10.1182/blood.v110.11.2661.2661 ◽

2007 ◽

Vol 110 (11) ◽

pp. 2661-2661

Author(s):

Yasumasa Okazaki ◽

Hong Yin ◽

Yuxiang Ma ◽

Emiko Okazaki ◽

Mary Yeh ◽

...

Keyword(s):

Mitochondrial Protein ◽

Protoporphyrin Ix ◽

K562 Cells ◽

Benzodiazepine Receptor ◽

Mrna Levels ◽

Intracellular Iron ◽

Divalent Metal Transporter 1 ◽

Divalent Metal Transporter ◽

Excess Iron ◽

C Terminus

Abstract While iron is essential for cell growth and survival excess iron through oxidative stress may produce hepatitic cirrhosis and hepatocellular carcinoma, diabetes mellitus, and cardiomyopathy. Iron is absorbed across the duodenum with transport across the brush border mediated by DMT1 and across the basolateral surface by ferroportin with mechanisms that are inversely regulated by body iron concentrations. We have identified in rat intestine DAP, a novel protein that binds to the C-terminus of DMT1 (IRE) but not to the C-terminus of the non-IRE isoform (Blood, Nov 2004; 104: 53). DAP is a 526 amino acid protein that has been previously described as binding to the peripheral benzodiazepine receptor, an intrinsic mitochondrial protein involved in steriodogenesis and possibly in protoporphyrin IX transport into the mitochrondria. To investigate if DAP may have a role in regulation of intracellular iron transport DAP expression was down regulated using a vector containing a siRNA for DAP transfected into K562 cells by electroporation. Expression levels of DAP, transferrin receptor 1 (TfR1), divalent metal transporter 1 (DMT1) and ferritin were examined by western blot and quantitative quantitivative PCR assays from days 1 to 6 after transfection. Following transfection with the DAP siRNA DAP mRNA levels were decreased 50% by day 1 with DAP protein levels decreasing by 50% at day 3. The DAP siRNA also decreased DMT1 protein expression by about 50% for the DMT1 (IRE) protein but had no effect on the protein derived from the non-IRE isoform. The leels of DMT1 mRNA were not affected by DAP siRNA. The decrease of DAP expression was not associated with any change in TfR1 or ferritin expression, suggesting that altered levels of DAP did not affect intracellular iron pools. Transfection with the DAP siRNA resulted also in more protean effects decreasing cell proliferation, the transition from S-phase to G2 in cell cycle, and protein synthesis. These data are consistent with DAP regulating DMT1 expression in K562 cells by modulating turnover of DMT1 (IRE) protein and also having more global effects on cellular metabolism.

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Divalent Metal Transporter 1 Knock-Down Modulates IL-1β Mediated Pancreatic Beta-Cell Pro-Apoptotic Signaling Pathways through the Autophagic Machinery

International Journal of Molecular Sciences ◽

10.3390/ijms22158013 ◽

2021 ◽

Vol 22 (15) ◽

pp. 8013

Author(s):

Taewook Kang ◽

Honggang Huang ◽

Thomas Mandrup-Poulsen ◽

Martin R. Larsen

Keyword(s):

Cell Death ◽

Divalent Metal ◽

Β Cells ◽

Β Cell ◽

Divalent Metal Transporter 1 ◽

Divalent Metal Transporter ◽

Knock Down ◽

Metal Transporter ◽

Cell Functions ◽

Protective Proteins

Pro-inflammatory cytokines promote cellular iron-import through enhanced divalent metal transporter-1 (DMT1) expression in pancreatic β-cells, consequently cell death. Inhibition of β-cell iron-import by DMT1 silencing protects against apoptosis in animal models of diabetes. However, how alterations of signaling networks contribute to the protective action of DMT1 knock-down is unknown. Here, we performed phosphoproteomics using our sequential enrichment strategy of mRNA, protein, and phosphopeptides, which enabled us to explore the concurrent molecular events in the same set of wildtype and DMT1-silenced β-cells during IL-1β exposure. Our findings reveal new phosphosites in the IL-1β-induced proteins that are clearly reverted by DMT1 silencing towards their steady-state levels. We validated the levels of five novel phosphosites of the potential protective proteins using parallel reaction monitoring. We also confirmed the inactivation of autophagic flux that may be relevant for cell survival induced by DMT1 silencing during IL-1β exposure. Additionally, the potential protective proteins induced by DMT1 silencing were related to insulin secretion that may lead to improving β-cell functions upon exposure to IL-1β. This global profiling has shed light on the signal transduction pathways driving the protection against inflammation-induced cell death in β-cells after DMT1 silencing.

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