The Expression of NHE8 in Liver and Its Role in Carbon Tetrachloride-Induced Liver Injury.

BACKGROUND AND AIMS: Sodium-hydrogen exchanger 8 (NHE8) is expressed in array of tissues and has pleiotropic functions beyond simply exchanging sodium and hydrogen across cell membrane. This study investigates the expression pattern of liver NHE8 and its roles in carbon tetrachloride (CCl4)-induced liver injury. METHODS: NHE8 expression pattern was investigated in mouse livers of different ages and in HepG2 cells. CCl4 was given to mice to determine NHE8 expression in CCl4-induced liver injury. Tumor necrosis factor (TNF)-α and interleukin (IL)-1ß were used to treat HepG2 cells to evaluate their effect on NHE8 expression. The CCl4-induced acute and chronic liver injuries were also used in NHE8KO mice to determine the role of NHE8 deficiency in liver injury. RESULTS: NHE8 was mainly detected in the peripheral area of hepatocytes in mouse liver and in HepG2 cells. The liver NHE8 expression was 47% of NHE1, and liver NHE8 expression was the lowest at suckling age and reached plateau at 4 weeks of age. Similar to dextran sulfate sodium colitis reduced intestinal NHE8, CCl4-induced acute liver injury also inhibited NHE8 expression. The absence of NHE8 in the liver displayed abnormal hepatocyte morphology and has elevated expression of IL-1ß and Lgr5. However, unlike NHE8 deficiency enhanced dextran sulfate sodium-induced colon tissue damage, the absence of NHE8 in the liver did not exacerbate CCl4-induced liver injury. Although both TNF-α and IL-1ß were elevated in CCl4-induced liver injury, they could not inhibit NHE8 expression in hepatocytes, which is in contrast with TNF-α-mediated NHE8 inhibition in the intestine. CONCLUSION: Liver NHE8 has unique roles that are different from the intestine.

An indisputable role of NHE8 in mucosal protection.

The loss of the intestinal Na+/H+ exchanger isoform 8 (NHE8) results in an ulcerative colitis-like condition with reduction of mucin production and dysbiosis, indicating that NHE8 plays an important role in intestinal mucosal protection. The aim of this study was to investigate the potential rebalance of the altered microbiota community of NHE8-deficient mice via fecal microbiota transplantation (FMT) and feeding probiotic VSL#3. We also aimed to stimulate mucin production by sodium butyrate administration via enema. Data from 16S rRNA sequencing showed that loss of NHE8 contributes to colonic microbial dysbiosis with reduction of butyrate-producing bacteria. FMT increased bacterial adhesion in the colon in NHE8 knockout (NHE8KO) mice. Periodic-acid Schiff reagent (PAS) stain and quantitative PCR showed no changes in mucin production during FMT. In mice treated with the probiotic VSL#3, a reduction of Lactobacillus and segmented filamentous bacteria (SFB) in NHE8KO mouse colon was detected and an increase in goblet cell theca was observed. In NHE8KO mice receiving sodium butyrate (NaB), 1 mM NaB stimulated Muc2 expression without changing goblet cell theca, but 10 mM NaB induced a significant reduction of goblet cell theca without altering Muc2 expression. Furthermore, 5 mM and 10 mM NaB-treated HT29-MTX cells displayed increased apoptosis, while 0.5 mM NaB stimulated Muc2 gene expression. These data showed that loss of NHE8 leads to dysbiosis with reduction of butyrate-producing bacteria and FMT and VSL#3 failed to rebalance the microbiota in NHE8KO mice. Therefore, FMT, VSL#3, and NaB are not able to restore mucin production in the absence of NHE8 in the intestine.NEW & NOTEWORTHY Loss of Na+/H+ exchanger isoform 8 (NHE8), a Slc9 family of exchanger that contributes to sodium uptake, cell volume regulation, and intracellular pH homeostasis, resulted in dysbiosis with reduction of butyrate-producing bacteria and decrease of Muc2 production in the intestine in mice. Introducing fecal microbiota transplantation (FMT) and VSL#3 in NHE8 knockout (NHE8KO) mice failed to rebalance the microbiota in these mice. Furthermore, administration of FMT, VSL#3, and sodium butyrate was unable to restore mucin production in the absence of NHE8 in the intestine.