Metabolic acidosis plays a key role in transient global cerebral ischemiareperfusion (I/R) induced delayed neuronal death (DND) of the hippocampal CA1 region of gerbils. Na+ coupled HCO3 - transporters (NBCs) mediated Na+/HCO3- - co-transportation can be activated by the pH gradient of intracellular and extracellular environments induced by acidosis. However, whether NBCs are activated and involved in I/R-induced neuronal injury is unknown. In this work, we studied neuronal apoptosis, astrocyte activation, and hippocampusdependent memory task using a well-established transient global cerebral I/R model of gerbils and investigated whether the specific NBCs inhibitor S0859 could reverse this injury. To explore the role of S0859 in I/R-induced DND, we established a transient global cerebral I/R model of Mongolian gerbils and studied neuronal apoptosis by using Nissl stain and TUNEL assay. The excitability and NBCs current were analyzed by whole-cell patch-clamp, while the cognitive function was evaluated by Barnes maze. We found that I/R increased the NBCs current, inhibited the excitability of CA1 neurons, and led to apoptosis in CA1 neurons. Selective NBCs inhibitor S0859 protected CA1 neurons from I/R induced neuronal cell death, astrocyte accumulation, and spatial memory impairment. These findings indicate that NBCs mediate transient global cerebral I/R induced DND of CA1 neurons, and NBCs inhibitors could be a promising target to protect neuronal functions after I/R.