A sciatic nerve transection and repair model was established in Sprague-Dawley rats by transecting the tendon of obturator internus muscle in the greater sciatic foramen and suturing with nylon sutures. The models were treated with tacrolimus gavage (4 mg/kg per day) for 0, 2, 4 and 6 weeks. Specimens were harvested at 6 weeks of intragastric administration. Masson staining revealed that the collagen fiber content and scar area in the nerve anastomosis of the sciatic nerve injury rats were significantly reduced after tacrolimus administration. Hematoxylin-eosin staining showed that tacrolimus significantly increased myelinated nerve fiber density, average axon diameter and myelin sheath thickness. Intragastric administration of tacrolimus also led to a significant increase in the recovery rate of gastrocnemius muscle wet weight and the sciatic functional index after sciatic nerve injury. The above indices were most significantly improved at 6 weeks after of tacrolimus gavage. The myelinated nerve fiber density in the nerve anastomosis and the sciatic nerve functions had a significant negative correlation with the scar area, as detected by Spearmanʼs rank correlation analysis. These findings indicate that tacrolimus can promote peripheral nerve regeneration and accelerate the recovery of neurological function through the reduction of scar formation. RESEARCH HIGHLIGHTS: (1) Tacrolimus can reduce collagen fiber content and scar area in nerve anastomosis of sciatic nerve injury in rats.(2) Tacrolimus increases myelinated nerve fiber density, average axon diameter and myelin sheath thickness in nerve anastomosis of sciatic nerve injury in rats.(3) Tacrolimus promotes neuronal functional recovery in rats with sciatic nerve injury.(4) The myelinated nerve fiber density and sciatic nerve function index are negatively related to the scar area.(5) Tacrolimus reduces scar formation, thus promoting peripheral nerve regeneration and accelerating the recovery of neurological function.