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Hepatectomy-Related Hypophosphatemia: A Novel Phosphaturic Factor in the Liver-Kidney Axis
Authors:Kengo Nomura  Sawako Tatsumi  Atsumi Miyagawa  Yuji Shiozaki  Shohei Sasaki  Ichiro Kaneko  Mikiko Ito  Shinsuke Kido  Hiroko Segawa  Mitsue Sano  Tsutomu Fukuwatari  Katsumi Shibata  Ken-ichi Miyamoto
Affiliation:*Department of Molecular Nutrition Institution of Health Biosciences, The University of Tokushima Graduate School, Tokushima, Japan; and;Department of Food Science and Nutrition, School of Human Cultures, The University of Shiga Prefecture, Hassaka-cho, Hikone, Shiga, Japan
Abstract:
Marked hypophosphatemia is common after major hepatic resection, but the pathophysiologic mechanism remains unknown. We used a partial hepatectomy (PH) rat model to investigate the molecular basis of hypophosphatemia. PH rats exhibited hypophosphatemia and hyperphosphaturia. In renal and intestinal brush-border membrane vesicles isolated from PH rats, Na+-dependent phosphate (Pi) uptake decreased by 50%–60%. PH rats also exhibited significantly decreased levels of renal and intestinal Na+-dependent Pi transporter proteins (NaPi-IIa [NaPi-4], NaPi-IIb, and NaPi-IIc). Parathyroid hormone was elevated at 6 hours after PH. Hyperphosphaturia persisted, however, even after thyroparathyroidectomy in PH rats. Moreover, DNA microarray data revealed elevated levels of nicotinamide phosphoribosyltransferase (Nampt) mRNA in the kidney after PH, and Nampt protein levels and total NAD concentration increased significantly in the proximal tubules. PH rats also exhibited markedly increased levels of the Nampt substrate, urinary nicotinamide (NAM), and NAM catabolites. In vitro analyses using opossum kidney cells revealed that NAM alone did not affect endogenous NaPi-4 levels. However, in cells overexpressing Nampt, the addition of NAM led to a marked decrease in cell surface expression of NaPi-4 that was blocked by treatment with FK866, a specific Nampt inhibitor. Furthermore, FK866-treated mice showed elevated renal Pi reabsorption and hypophosphaturia. These findings indicate that hepatectomy-induced hypophosphatemia is due to abnormal NAM metabolism, including Nampt activation in renal proximal tubular cells.Inorganic phosphate (Pi) absorption in the renal proximal tubules and small intestine is important for Pi homeostasis.1 The Na+-dependent Pi (Na/Pi) transport system includes type IIa and type IIc Na/Pi transporters, which are localized in the apical membrane of the proximal tubular cells, and type IIb Na/Pi transporters, which are localized in the apical membrane of the intestinal epithelial cells.1,2 Pi (re)absorption is regulated by the dietary Pi content, parathyroid hormone (PTH), and the active metabolite of vitamin D, 1α, 25-dihydroxyvitamin D3 [1,25(OH)2D3].3 Other phosphaturic hormones, termed phosphatonins, also control renal Pi handling.4 The discovery that fibroblast growth factor (FGF) 23, the first identified phosphatonin,5 originated from osteocytes established the concept of the bone-kidney axis.6,7The incidence of liver transplantation has steadily increased and the incidence of partial hepatectomy (PH) has also consequently increased.8 Hypophosphatemia frequently occurs after liver resection.911 Acute hypophosphatemia causes septicemia and is associated with a poor prognosis.11,12 Acute hypophosphatemia is of considerable clinical relevance because many hepatectomized patients develop marked hypophosphatemia and, thus, large doses of Pi replacement are required to maintain metabolic homeostasis.13 Urinary Pi excretion is markedly increased in many patients. After hepatectomy, hypophosphatemia is associated with hyperphosphaturia.13For many years, the increased metabolic demand of the regenerating liver was considered the underlying pathologic mechanism of hypophosphatemia. The magnitude of Pi uptake by the recovering liver, however, cannot explain the severity of the resulting hypophosphatemia.11 Hepatectomy-induced hypophosphatemia is associated with an increased renal fractional excretion index for Pi unrelated to intact FGF23, FGF7, or secreted frizzled-related protein 4 as a phosphaturic factor,14 indicating that other factors have a role in the pathogenesis of hypophosphatemia.Nicotinamide (NAM) inhibits intestinal and renal Na/Pi transport activity in normal rats.1517 Administration of NAM to rats produces a specific dose-dependent inhibition of Na/Pi transport across the renal brush-border membrane (BBM) and an increase in urinary Pi excretion.16,17 NAM suppresses hyperphosphatemia in hemodialysis patients.18 Nicotinamide phosphoribosyltransferase (Nampt) catalyzes the first rate-limiting step in converting NAM to NAD,19,20 which is essential for cellular metabolism, energy production, and DNA repair.2022 Nampt exists in two known forms: intracellular Nampt (iNampt) and secreted extracellular Nampt (eNampt).23 eNampt also generates an intermediate product, nicotinamide mononucleotide (NMN).23Our findings indicate that the acceleration of NAM metabolism through Nampt function in the kidney is involved in the hepatectomy-induced hypophosphatemia in rodent models. This study also suggests that NAM metabolism through the liver-kidney axis is important in Pi homeostasis.
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