ABSTRACT Background Antiretrovirals have the potential to cause drug interactions leading to inefficacy or toxicity via induction of efflux transporters through nuclear receptors, altering drug concentrations at their target sites. Research Design and Methods This study used molecular dynamic simulations and qRT-PCR to investigate bictegravir’s interactions with nuclear receptors PXR and CAR, and its effects on efflux transporters (P-gp, BCRP, MRP1) in rat PBMCs. PBMC/plasma drug concentrations were measured using LC-MS/MS to assess the functional impact of transporter expression. Results Bictegravir significantly increased the expression of ABC transporters, with Car identified as a key mediator. This suggests that bictegravir’s influence on nuclear receptors could affect drug transport and efficacy at the cellular level. Conclusions Bictegravir activates nuclear receptors enhancing efflux transporter expression. Understanding these interactions is crucial for preventing drug–drug interactions and reducing toxicity in clinical use. Combining CAR antagonists with bictegravir may prevent drug resistance and toxicity. However, these findings are based on preclinical data and necessitate further clinical trials to confirm their applicability in clinical settings.