ABSTRACT: Uterine natural killer (uNK) cells are a tissue-resident lymphocyte population critical for pregnancy success. Although mouse models have demonstrated that uNK cell deficiency results in abnormal placentation and poor pregnancy outcomes, the generalizability of this knowledge to humans remains unclear. Here, we compared tissue samples collected from a cohort of human recipients of uterus transplant (UTx) at high risk for pregnancy complications with healthy controls using flow cytometry, immunofluorescence microscopy, and single-cell RNA sequencing (scRNA-seq). Subsets of tissue-resident uNK cells were reduced in endometrial and decidual samples from recipients of UTx compared with healthy control samples. Loss of tissue-resident uNK cells was associated with histopathologic evidence of maternal vascular malperfusion in placentas from recipients of UTx and related pregnancy complications including preeclampsia. scRNA-seq of UTx endometrial biopsies and deciduae further revealed that the NK cell reduction in recipients of UTx correlated with impaired transcriptional programming of NK tissue residency arising from the inhibition of signaling by nuclear factor of activated T cells (NFAT). In vitro culture of uNK cells from healthy controls with the NFAT inhibitor tacrolimus resulted in down-regulation of adhesion molecules. Together, these experiments suggested that NFAT-dependent genes modulate multiple molecular tissue residency programs in uNK cells, including early residency programs involving activator protein-1 (AP-1) family transcription factors and later residency programs characterized by up-regulation of surface integrins by transforming growth factor–β (TGF-β). Collectively, these data identify a previously undescribed role for NFAT in uNK tissue residency and provide mechanistic insights into the biologic basis of pregnancy complications due to alteration of tissue-resident NK cell subsets in humans.