Abstract
The osmosensitive transcription factor nuclear factor of activated T-cells 5 (NFAT5), also known as tonicity enhancer element binding protein (TonEBP) plays a crucial role in protection of renal medullary cells against hyperosmotic stress, urinary concentration, the adaptive immune response, and other physiological systems. Since it is also important for development, conventional homozygous-null mutations result in perinatal death, which hinders the analysis of NFAT5 function in specific tissues in vivo. Here we describe the generation of mice with a conditional-null allele, in which loxP sites are inserted around exon 4. Mice harboring the floxed allele (NFAT5flx) were mated to a strain expressing a tamoxifen-inducible derivative of the Cre-recombinase (Cre+) under the control of the ubiqitinC promoter. The resultant homozygous conditional knockout mice (Cre+ NFAT5flx/flx) are viable, fertile, and show normal expression of NFAT5 and NFAT5 target genes, indicating that the conditional alleles retain their wild-type function. Induction of Cre-mediated recombination by administration of tamoxifen in 8-week-old mice resulted in a decrease in NFAT5 expression of about 70–90% in all tested tissues (renal cortex, renal outer medulla, renal inner medulla, heart, lung, spleen, skeletal muscle). Accordingly, the expression of the NFAT5 target genes aldose reductase and heat shock protein 70 in the renal medulla was also significantly decreased. Mice harboring this conditional knockout allele should be useful in future studies for gaining a better understanding of tissue and cell-type specific functions of NFAT5 in adult animals under physiological and pathophysiological conditions.
Highlights
The osmosensitive transcription factor tonicity-responsive enhancer binding protein (TonEBP) was first identified in renal medullary cells
The murine nuclear factor of activated T-cells 5 (NFAT5) gene is located on the plus (+) strand of chromosome 8, spans about 86 kb, and is divided into 16 exons
Data are means ± SEM for n = 4; ∗P < 0.05. (B) Protein samples from renal cortex, outer medulla and inner medulla were tested for protein expression of NFAT5 and NFAT5 target genes aldose reductase (AR) and heat shock protein 70 (HSP70) by Western blot
Summary
The osmosensitive transcription factor tonicity-responsive enhancer binding protein (TonEBP) was first identified in renal medullary cells. NFAT5 regulates the expression of central components of the urinary concentrating mechanism, including the kidney-specific ClC-K1 chloride channels and their functional subunit barttin (Küper et al, 2012b), and UT-A1 urea transporters (Nakayama et al, 2000). NFAT5 is, essential for the osmoadaptation of cells in the renal medulla In this kidney region, NFAT5 stimulates the expression of transporters and biosynthetic enzymes for cellular accumulation of organic osmolytes. NFAT5 stimulates the expression of transporters and biosynthetic enzymes for cellular accumulation of organic osmolytes These include the Na-myo-inositol cotransporter (SMIT) (Miyakawa et al, 1999), the Na-Cl-betaine cotransporter (BGT1) (Miyakawa et al, 1998), the Na-Cl-taurine cotransporter (TauT) (Ito et al, 2006), aldose reductase (AR) (Nadkarni et al, 1999), specific heat shock proteins (Woo et al, 2002), and others. The intracellular accumulation of organic osmolytes and heat shock protein 70 (HSP70) protect cells from the adverse effects of hypertonicity
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