Renal K(+) retention is activated during pregnancy through a mechanism unknown to date. Here, we showed that the renal stimulation of H,K-ATPase type 2 (HKA2), whose expression was recently identified to be progesterone-dependent, is part of the mechanism favoring K(+) accumulation during gestation. Moreover, investigation of the gestational phenotype of HKA2-null mice compared to their wild-type (WT) littermate revealed a decrease in fertility (gestation was successful in 33 % of HKA2-null mice vs. 83 % of WT mice) and in litter size (6.5 ± 0.6 and 7.8 ± 0.4 fetuses per litter, respectively). We also observed that urinary K(+) excretion decreased by 20 % and plasma K(+) concentration rose slightly (11 %) in WT mice during gestation (relative to basal conditions). In contrast, the renal excretion of K(+) and plasma K(+) levels in HKA2-null mice remained constant during gestation, whereas fecal K(+) excretion increased. As a consequence, HKA2-null mice did not accumulate K(+) in their extracellular compartment as efficiently as WT mice did. Finally, the link between inefficient K(+) balance adaptations and gestational complications was established when we observed that these complications could be reversed with an increased K(+) uptake. Altogether, these results define a novel physiological role for the HKA2 transporter and uncover a link between K(+) metabolism and fertility.