(963.3) Increase in Salt Concentration in the Culture Media Enhances Protein Expression of Tumor Necrosis Factor-Alpha Receptor Type 1 in Cultured Renal Cortical Collecting Duct Cells But Not in Proximal Tubular Cells

Poster Board Number: E643

Dewan Majid (Tulane University School of Medicine), Alexander Castillo (Tulane University School of Medicine)

Tumor necrosis factor-alpha (TNFα) exerts its biological responses via interaction with its’ two cell surface receptors, type 1 (TNFR1) and type 2 (TNFR2) which are differentially expressed and regulated in the kidney. Previously, we have demonstrated that circulating TNFα exerts natriuresis via its action on TNFR1 but not on TNFR2 and such TNFR1 activation exerts inhibitory action on distal tubular sodium transport, particularly tubular ENaC activity. As TNFα level is elevated during dietary intake of high salt (HS), we hypothesized that increases in salt concentration in renal tissue enhances TNFα -TNFR1 activity in the renal tubules to induce natriuretic response to HS intake. To test this hypothesis, we examined the protein expression of TNFR1 and TNFR2 in cultured proximal (human kidney [HK-2] cell line) and distal (murine cortical collecting duct [M-1] cell line) tubular cells at different concentrations of NaCl in the culture media. Both these HK-2 and M-1 cells were incubated for 24 hours in control media with normal NaCl concentration (120 mM) and at media containing higher NaCl (140 mM and 160 mM) concentrations. TNF receptors protein expressions were analyzed by the Western Blot technique using appropriate antibodies for TNFR1 (rabbit anti-TNFR1; Abcam cat # 19139) and TNFR2 (rabbit anti-TNFR2; Abcam cat # 109322), which were normalized by expression of β-actin or GAPDH proteins using appropriate antibodies. The blot image was quantified and measured as band intensity density with Image J software. The quantitative immunoblot analysis in HK-2 cells showed that there were no significant changes in the band intensity unit (IU) in TNFR1 (120 mM, 70.1±12.8 IU; 140 mM, 73.7±9.9 IU; 160 mM, 57.2±9.8 IU; n=6 in each condition) or TNFR2 protein (120 mM, 83.9 ±6.3 IU; 140 mM, 66.8±14.1 IU; 160 mM, 77.8±2.3 IU; n=6 in each condition) levels. On the other hand, TNFR1 protein expression was significantly higher in M-1 cells incubated in 160 mM NaCl conc. (135.6 ±7.8 IU, n=7; Plt; 0.005) than that in 120 mM (109.3±2.8 IU, n=7) and in 140 mM (91.1±10.8 IU, n=7) NaCl conc. However, TNFR2 protein expression in M-1 cells did not significantly alter with the changes in NaCl conc. in the media (120 mM, 137±20.1 IU; 140 mM, 128±7.2 IU; 160 mM, 143±7.2 IU; n=7 in each condition).  These data indicate that TNFR1 activity is upregulated in renal collecting duct cells (CCD) in response increases in tissue NaCl concentration in the kidney. Such upregulation of TNFR1 activity in the CCD induced by high salt concentration, exerts inhibitory action on distal sodium transport and plays a role in enhancing urinary sodium excretion during dietary HS intake.

NIGMS IDeA program; COBRE grant: 1P30GM103337