Betaine is an important osmolyte and is, compared with other organs, much more abundant in the kidneys, where it enters cells in the medulla by betaine-GABA transporter 1 (BGT1) to balance osmoregulation in the countercurrent system. In wild-type (wt-)BGT1-expressing oocytes, GABA-mediated currents were diminished by preincubation of oocytes with 100 nM PMA or 5 μM dioctanoyl-sn-glycerol, activators of PKC, whereas the application of staurosporine before the application of dioctanoyl-sn-glycerol restored the response to GABA. Four potential phosphorylation sites on BGT1 were mutated to alanine by site-directed mutagenesis. Three mutants (T235A, S428A, and S564A) evoked GABA currents comparable in magnitude to currents observed in wt-BGT1-expressing oocytes, whereas GABA currents in T40A were barely detectable. Uptake of [(3)H]GABA was also determined in human embryonic kidney-293 cells expressing enhanced green fluorescent protein (EGFP)-tagged BGT1 with the same mutations. T235A, S428A, and S564A showed upregulation of GABA uptake after hypertonic stress and downregulation by PMA similar to EGFP-wt-BGT1. In contrast, T40A did not respond to either hypertonicity or PMA. Confocal microscopy of the EGFP-BGT1 mutants expressed in Madin-Darby canine kidney cells revealed that T40A was present in the cytoplasm after 24 h of hypertonic stress. whereas the other mutants and EGFP-wt-BGT1 were in the plasma membrane. All mutants, including T40A, comigrated with wt-BGT1 on Western blots, suggesting that they are full-length proteins. T40A, however, cannot be phosphorylated, as revealed using a specific anti-phosphoantibody, and, therefore, T40 may be important for the trafficking and insertion of BGT1 in the plasma membrane.
Keywords: endocytosis; membrane trafficking; osmotic stress; protein kinase C.
Copyright © 2014 the American Physiological Society.