Correction: DAPIT Over-Expression Modulates Glucose Metabolism and Cell Behaviour in HEK293T Cells

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RESEARCH PRODUCT

Correction: DAPIT Over-Expression Modulates Glucose Metabolism and Cell Behaviour in HEK293T Cells

Eric Dufour Heikki Kainulainen Giuseppe Cannino Pierre Rustin Heidi Kontro

subject

Epithelial-Mesenchymal Transition mitochondrial metabolism Biolääketieteet - Biomedicine Cell Active Transport Cell Nucleus Gene Dosage Respiratory chain lcsh:Medicine Gene Expression Mitochondrion ta3111 glukoosi Neoplasms medicine Humans Lactic Acid glucose lcsh:Science Transcription factor Multidisciplinary ATP synthase biology Cell growth ta1184 lcsh:R HEK 293 cells Correction Mitochondrial Proton-Translocating ATPases Mitochondria Cell biology HEK293 Cells Diabetes Associated Protein in Insulin-sensitive Tissues medicine.anatomical_structure Cell culture biology.protein ATP synthase lcsh:Q Research Article

description

Introduction Diabetes Associated Protein in Insulin-sensitive Tissues (DAPIT) is a subunit of mitochondrial ATP synthase and has also been found to associate with the vacuolar H+-ATPase. Its expression is particularly high in cells with elevated aerobic metabolism and in epithelial cells that actively transport nutrients and ions. Deletion of DAPIT is known to induce loss of mitochondrial ATP synthase but the effects of its over-expression are obscure. Results In order to study the consequences of high expression of DAPIT, we constructed a transgenic cell line that constitutively expressed DAPIT in human embryonal kidney cells, HEK293T. Enhanced DAPIT expression decreased mtDNA content and mitochondrial mass, and saturated respiratory chain by decreasing H+-ATP synthase activity. DAPIT over-expression also increased mitochondrial membrane potential and superoxide level, and translocated the transcription factors hypoxia inducible factor 1α (Hif1α) and β-catenin to the nucleus. Accordingly, cells over-expressing DAPIT used more glucose and generated a larger amount of lactate compared to control cells. Interestingly, these changes were associated with an epithelial to mesenchymal (EMT)-like transition by changing E-cadherin to N-cadherin and up-regulating several key junction/adhesion proteins. At physiological level, DAPIT over-expression slowed down cell growth by G1 arrest and migration, and enhanced cell detachment. Several cancers also showed an increase in genomic copy number of Usmg5 (gene encoding DAPIT), thereby providing strong correlative evidence for DAPIT possibly having oncogenic function in cancers. Conclusions DAPIT over-expression thus appears to modulate mitochondrial functions and alter cellular regulations, promote anaerobic metabolism and induce EMT-like transition. We propose that DAPIT over-expression couples the changes in mitochondrial metabolism to physiological and pathophysiological regulations, and suggest it could play a critical role in H+-ATP synthase dysfunctions. Public Library of Science open access

year	journal	country	edition	language
2015-01-01	PLOS ONE

https://doi.org/10.1371/journal.pone.0131990