Effects of luminal nutrients and small bowel transplants on congenital indirect hyperbilirubinemia

The Gunn rat is an excellent model of Crigler-Najjar syndrome, type 1. In previous studies we demonstrated that heterotopic 15-20-cm jejunal transplants from Wistar rats lowered serum bilirubin levels by 40%, and the reduction was transient (6 weeks). In contrast, orthotopic transplants decreased bilirubin levels by 60% and the effect persisted throughout the 8-week study. This study was initiated to identify the luminal substance(s) which are responsible for the persistent bilirubin-lowering effect of jejunal transplants. Thirtyone Wistar to Gunn 15-20-cm jejunal transplants were randomized to receive daily Thiry-Vella graft irrigation with 5 ml of normal saline (n = 8); bile salts (cholate + deoxycholate, 40 mg/ml, n = 5; fats (Microlipid, 20 mg/ml, n = 5); proteins (Casec caseinate, 40 mg/ml, n = 5); and sugars (Moducal + Polycose, 40 mg/ml, n = 8). Bilirubin levels were measured spectrophotometrically at weekly intervals. At 4 and 8 weeks, enzyme-induced bilirubin conjugation activity was measured using added known amounts of added bilirubin. Irrigation of the transplants with saline, protein, and sugar resulted in moderate (40%) lowering of serum total and indirect bilirubin levels. Fat was significantly more effective, lowering mean total bilirubin levels from 9.6 ± 0.4 to 1.6 ± 0.2 mg/dl at 6 weeks. After this time, bilirubin levels increased slightly. Bile salts were slightly less effective, lowering bilirubin levels at 6 weeks by only 75%. However, this effect persisted and at 8 weeks levels averaged 2.4 ± 0.2 mg/dl. Conjugating enzyme activity in the transplants increased from 1.4 ± 0.3 to 2.5 ± 0.5 mg bilirubin conjugated/mg tissue/hr. Luminal fats and bile salts appear to augment enzyme-induced bilirubin conjugation in heterotopic jejunal transplant recipients.