In:
Hepatology Research, Wiley, Vol. 45, No. 7 ( 2015-07), p. 804-813
Abstract:
Despite the great advances and excellent outcomes of liver transplantation ( LT ), small‐for‐size ( SFS ) graft syndrome is a life‐threatening complication that remains to be overcome. In the present study, we investigated the therapeutic effect of combined treatment with granulocyte colony‐stimulating factor ( G ‐ CSF ) and a dipeptidyl peptidase IV ( DPP‐IV ) inhibitor on SFS liver graft syndrome. Methods The transplantation of small‐sized L ewis donor livers into green fluorescent protein ( GFP ) transgenic W istar rats was performed and the recipients were randomly assigned to one of four groups (without treatment, DPP‐IV inhibitor treatment, G ‐ CSF treatment and G ‐ CSF / DPP‐IV inhibitor combination). Recombinant human G ‐ CSF was injected s.c. at a dose of 2 μg/kg per day starting 5 days prior to transplantation. G ‐ CSF was combined with the p.o. administration of a DPP‐IV inhibitor (2 mg/kg per day) after transplantation until the end of the observation period. Results The post‐transplant survival and liver function of rats treated with G ‐ CSF / DPP‐IV inhibitor combination therapy were significantly improved with an increased number of recipient‐derived GFP positive cells into the liver grafts. A confocal microscopy study showed cytokeratin ( CK )‐18 and GFP positive hepatic progenitor cells in the parenchyma of the liver allografts. Untreated rats and rats treated with either G ‐ CSF or DPP‐IV inhibitor did not exhibit the prolonged survival and had less GFP and CK ‐18 positive cells in the liver grafts after SFS LT . Conclusion Our results suggest that combined treatment with G ‐ CSF and DPP‐IV inhibitor may synergistically induce migration and differentiation of recipient‐derived stem cells into the hepatic progenitor cells, resulting in the amelioration of SFS liver graft syndrome.
Type of Medium:
Online Resource
ISSN:
1386-6346
,
1872-034X
Language:
English
Publisher:
Wiley
Publication Date:
2015
detail.hit.zdb_id:
2006439-1
