Regulation of Mitochondrial Biogenesis in Diabetic Retinopathy
Jay Kumar, Renu A. Kowluru

TL;DR
This study shows that the LncRNA HOTAIR plays a key role in mitochondrial dysfunction in diabetic retinopathy and contributes to its persistence even after blood sugar levels return to normal.
Contribution
The study identifies HOTAIR as a novel regulator of mitochondrial biogenesis and metabolic memory in diabetic retinopathy.
Findings
HOTAIR is upregulated in retinal cells under high glucose conditions and resists reversal after glucose levels normalize.
Reducing HOTAIR with siRNA improves mitochondrial biogenesis and protects against structural/functional damage.
Regulating HOTAIR during high glucose exposure prevents long-term mitochondrial dysfunction in retinal cells.
Abstract
Mitochondrial dysfunction plays a major role in diabetic retinopathy development and in its resistance to halt after the reversal of hyperglycemia (metabolic memory). Diabetes also upregulates many long noncoding RNAs, RNAs with >200 nucleotides with no reading frame, and several of them resist reversal after hyperglycemia cessation. Our aim was to investigate the role of LncRNA HOTAIR, a master regulator of chromatin dynamics, in mitochondrial biogenesis in diabetic retinopathy and in metabolic memory. Using retinal endothelial cells and Müller cells, incubated in high glucose (20 mM D-glucose), the effect of HOTAIR-siRNA on mitochondrial biogenesis was investigated by quantifying mitochondrial mass, copy numbers, and mtDNA replication, structure, and function. HOTAIR’s role in metabolic memory was investigated by analyzing mitochondrial biogenesis in HOTAIR-siRNA transfected cells…
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Taxonomy
TopicsRetinal Diseases and Treatments · Cancer-related molecular mechanisms research · Mitochondrial Function and Pathology
