The aryl hydrocarbon receptor (AHR) repressor (AHRR) inhibits AHR-mediated transcription and has been associated with reproductive dysfunction and tumorigenesis in humans. Previous studies have characterized the repressor function of AHRRs from mice and fish, but the human AHRR ortholog (AHRR715) appeared to be nonfunctional in vitro. Here, we report a novel human AHRR cDNA (AHRRΔ8) that lacks exon 8 of AHRR715. AHRRΔ8 was the predominant AHRR form expressed in human tissues and cell lines. AHRRΔ8 effectively repressed AHR-dependent transactivation, whereas AHRR715 was much less active. Similarly, AHRRΔ8, but not AHRR715, formed a complex with AHR nuclear translocator (ARNT). Repression of AHR by AHRRΔ8 was not relieved by overexpression of ARNT or AHR coactivators, suggesting that competition for these cofactors is not the mechanism of repression. AHRRΔ8 interacted weakly with AHR but did not inhibit its nuclear translocation. In a survey of transcription factor specificity, AHRRΔ8 did not repress the nuclear receptor pregnane X receptor or estrogen receptor α but did repress hypoxia-inducible factor (HIF)-dependent signaling. AHRRΔ8-Pro185 and -Ala185 variants, which have been linked to human reproductive disorders, both were capable of repressing AHR or HIF. Together, these results identify AHRRΔ8 as the active form of human AHRR and reveal novel aspects of its function and specificity as a repressor.