Characterization of gene expression in the kidney of renal tubular cell-specific NFAT5 knockout mice.

Nuclear factor of activated T cells 5 (NFAT5; also called TonEBP/OREBP) is a transcription factor that is activated by hypertonicity and induces osmoprotective genes to protect cells against hypertonic conditions. In the kidney, renal tubular NFAT5 is known to be involved in the urine concentration mechanism. Previous studies have suggested that NFAT5 modulates the immune system and exerts various effects on organ damage, depending on organ and disease states. Pathophysiological roles of NFAT5 in renal tubular cells, however, still remain obscure. We conducted comprehensive analysis by performing transcription start site (TSS) sequencing on the kidney of inducible and renal tubular cell-specific NFAT5 knockout (KO) mice. Mice were subjected to unilateral ureteral obstruction to examine the relevance of renal tubular NFAT5 in renal fibrosis. TSS sequencing analysis identified 722 downregulated TSSs and 1,360 upregulated TSSs, which were differentially regulated ≤-1.0 and ≥1.0 in log2 fold, respectively. Those TSSs were annotated to 532 downregulated genes and 944 upregulated genes, respectively. Motif analysis showed that sequences that possibly bind to NFAT5 were enriched in TSSs of downregulated genes. Gene Ontology analysis with the upregulated genes suggested disorder of innate and adaptive immune systems in the kidney. Unilateral ureteral obstruction significantly exacerbated renal fibrosis in the renal medulla in KO mice compared with wild-type mice, accompanied by enhanced activation of immune responses. In conclusion, NFAT5 in renal tubules could have pathophysiological roles in renal fibrosis through modulating innate and adaptive immune systems in the kidney.NEW & NOTEWORTHY TSS-Seq analysis of the kidney from renal tubular cell-specific NFAT5 KO mice uncovered novel genes that are possibly regulated by NFAT5 in the kidney under physiological conditions. The study further implied disorders of innate and adaptive immune systems in NFAT5 KO mice, thereby exacerbating renal fibrosis at pathological states. Our results may implicate the involvement of renal tubular NFAT5 in the progression of renal fibrosis. Further studies would be worthwhile for the development of novel therapy to treat chronic kidney disease.

Insufficiency of urinary acid excretion of overweight or obese patients with chronic kidney disease and its involvement with renal tubular injury.

AIM: Metabolic acidosis occurs due to insufficient urinary ammonium excretion as chronic kidney disease (CKD) advances. Because obese subjects tend to have excessive consumption of protein and sodium chloride, they are prone to chronic acid loading and may therefore be predisposed to acid-induced kidney injury. We investigated the involvement of obesity in ammoniagenesis within damaged kidneys. METHODS: In the clinical study, urinary ammonium excretion was compared between 13 normal-weight and 15 overweight/obese CKD outpatients whose creatinine clearance was higher than 25 mL/min. For animal experiments, NH4 Cl was loaded to KKAy/TaJcl (KKAy), a metabolic syndrome model, and control BALB/c mice for 20 weeks. Kidney injury was evaluated through histological analysis and the expression of proinflammatory markers. RESULTS: Urinary ammonium excretion was lower in overweight/obese patients than in normal-weight patients, while intakes of protein and sodium chloride were higher in overweight/obese patients, implying that subclinical metabolic acidosis occurs in overweight/obese patients. The increase in urinary ammonium excretion induced by NH4 Cl loading was attenuated in KKAy mice after 16 weeks, whereas the increase was maintained in BALB/c mice throughout the study period. Histological study and real-time polymerase chain reaction analysis showed proximal tubular injury and enhanced expression levels of neutrophil gelatinase-associated lipocalin (NGAL) protein and messenger RNA, respectively, in KKAy mice but not in BALB/c mice. Finally, urinary NGAL concentration was higher in overweight/obese patients than in normal-weight patients in the early stage of CKD. CONCLUSION: Obesity could facilitate the induction of subclinical metabolic acidosis and acid accumulation in the kidney, which may potentially exacerbate kidney injury in CKD patients.

[Elective Surgery was Postponed in a Patient with Hematopoietic Malignancy due to Bleeding from the Insertion Site of an Epidural Catheter: A Case Report].

A 29-year-old man suspected of having a hematopoietic malignancy was scheduled to undergo video- assisted splenectomy. Because of his good general con- dition on a preanesthetic evaluation, combined general and epidural anesthesia was selected. However, after insertion of an epidural catheter in the operating room, surgery had to be postponed due to bleeding from the catheter insertion site. The hematological examination done right after the postponement revealed hemo- phagocytic syndrome and the patient rapidly developed disseminated intravascular coagulation. This case suggested that in a patient with hematopoietic malig- nancy a hematological examination should be carried out on the day of surgery; besides, neuraxial blockade should be avoided because bleeding could be acutely induced due to changes in the patient's condition.

Salt-Sensitive Hypertension of the Renal Tubular Cell-Specific NFAT5 (Nuclear Factor of Activated T-Cells 5) Knockout Mice.

[Figure: see text].

Regulation of Rhcg, an ammonia transporter, by aldosterone in the kidney.

Rhesus C glycoprotein (Rhcg), an ammonia transporter, is a key molecule in urinary acid excretion and is expressed mainly in the intercalated cells (ICs) of the renal collecting duct. In the present study we investigated the role of aldosterone in the regulation of Rhcg expression. In in vivo experiments using C57BL/6J mice, Western blot analysis showed that continuous subcutaneous administration of aldosterone increased the expression of Rhcg in membrane fraction of the kidney. Supplementation of potassium inhibited the effect of aldosterone on the Rhcg. Next, mice were subjected to adrenalectomy with or without administration of aldosterone, and then ad libitum 0.14 M NH4Cl containing water was given. NH4Cl load increased the expression of Rhcg in membrane fraction. Adrenalectomy decreased NH4Cl-induced Rhcg expression, which was restored by administration of aldosterone. Immunohistochemical studies revealed that NH4Cl load induced the localization of Rhcg at the apical membrane of ICs in the outer medullary collecting duct. Adrenalectomy decreased NH4Cl-induced membrane localization of Rhcg, which was restored by administration of aldosterone. For in vitro experiments, IN-IC cells, an immortalized cell line stably expressing Flag-tagged Rhcg (Rhcg-Flag), were used. Western blot analysis showed that aldosterone increased the expression of Rhcg-Flag in membrane fraction, while the increase in extracellular potassium level inhibited the effect of aldosterone. Both spironolactone and GÓ§6983, a PKC inhibitor, inhibited the expression of Rhcg-Flag in the membrane fraction. These results suggest that aldosterone regulates the membrane expression of Rhcg through the mineralocorticoid receptor and PKC pathways, which is modulated by extracellular potassium level.

Apoptosis of odontoclasts under physiological root resorption of human deciduous teeth.

This study was designed to establish the apoptosis of odontoclasts during physiological root resorption of human deciduous teeth. Deciduous teeth were fixed, decalcified, and embedded in paraffin for immunohistochemical (IHC) observations and in Epon for transmission electron microscopy (TEM). Apoptotic cells were identified by terminal deoxynucleotidyl transferase (TdT)-mediated dUTP-digoxigenin nick-end labeling (TUNEL), and then tartrate-resistant acid phosphatase (TRAP) activity was determined on the same sections. Epon-embedded specimens were sectioned serially into 0.5-microm semithin sections; some of these sections were re-embedded in Epon, sectioned into 0.1-microm ultrathin sections, and observed by TEM. IHC revealed that the nuclei of TRAP-positive odontoclasts on the dentine were generally TUNEL-negative. Around these odontoclasts, a few TRAP-positive structures were present together with TUNEL-positive structures, e.g., a TRAP-positive structure with one TUNEL-positive nucleus, a TRAP-positive structure with one TUNEL-positive nucleus plus one or two TUNEL-negative nuclei, or a TRAP-positive structure with no nucleus. By TEM, some odontoclasts showed nuclear fragments including compacted chromatin. The results suggest that, during apoptosis, odontoclasts fragment into variously sized cellular parts including three or fewer nuclei.