A long non-coding RNA mediates the hormone responsiveness of during male urogenital development.

The novel long non-coding RNA (lncRNA) is extraordinarily conserved in both its location (syntenic with an essential gene in anogenital patterning) and sequence. Here we show that is upregulated following the testosterone surge from the developing testis and directly interacts with positively regulating its expression. expression is suppressed by estrogen, which in turn suppresses the expression of .

PGC1α is required for the renoprotective effect of lncRNA Tug1 in vivo and links Tug1 with urea cycle metabolites.

lncRNA taurine-upregulated gene 1 (Tug1) is a promising therapeutic target in the progression of diabetic nephropathy (DN), but the molecular basis of its protection remains poorly understood. Here, we generate a triple-mutant diabetic mouse model coupled with metabolomic profiling data to interrogate whether Tug1 interaction with peroxisome proliferator-activated receptor gamma coactivator 1α (PGC1α) is required for mitochondrial remodeling and progression of DN in vivo. We find that, compared with diabetic conditional deletion of Pgc1α in podocytes alone (db/db; Pgc1α), diabetic Pgc1α knockout combined with podocyte-specific Tug1 overexpression (db/db; Tug; Pgc1α) reverses the protective phenotype of Tug1 overexpression, suggesting that PGC1α is required for the renoprotective effect of Tug1.

Role for carbohydrate response element-binding protein (ChREBP) in high glucose-mediated repression of long noncoding RNA Tug1.

Long noncoding RNAs (lncRNAs) have been shown to play key roles in a variety of biological activities of the cell. However, less is known about how lncRNAs respond to environmental cues and what transcriptional mechanisms regulate their expression. Studies from our laboratory have shown that the lncRNA Tug1 (taurine upregulated gene 1) is crucial for the progression of diabetic kidney disease, a major microvascular complication of diabetes.

A novel long non-coding RNA, Leat1, causes reduced anogenital distance and fertility in female mice.

Defective anorectal and urogenital malformations are some of the most severe congenital anomalies encountered in children. Only a few molecular cues have been identified in early formation of the female urogenital system. Here we describe a novel long non-coding RNA molecule known as Leat1 (long non-coding RNA, EphrinB2 associated transcript 1).

Drp1S600 phosphorylation regulates mitochondrial fission and progression of nephropathy in diabetic mice.

Phosphorylation of Dynamin-related protein1 (Drp1) represents an important regulatory mechanism for mitochondrial fission. Here we established the role of Drp1 Serine 600 (S600) phosphorylation on mitochondrial fission in vivo, and assessed the functional consequences of targeted elimination of the Drp1S600 phosphorylation site in progression of diabetic nephropathy (DN). We generated a knockin mouse in which S600 was mutated to alanine (Drp1S600A).