ABSTRACT
<p><b>OBJECTIVE</b>To investigate the differentiation of bone marrow derived Thy-1+ beta2M- cells (BDTCs) into liver cells in allyl alcohol (AA) induced liver injury micro-environment.</p><p><b>METHODS</b>BDTCs of male F344 rats were isolated by two-step magnetic separation system (MACS) technique, and infused intraportally into female recipients after labeling with PKH26. Thirty recipients were divided randomly into 3 groups: (1) AA-injured liver + BDTCs infusion, (2) normal liver + BDTCs infusion and (3) AA-injured liver + NS infusion (control). Blood biochemical examination, fluorescence labeled cellular localization, Y-chromosome sry gene in-situ hybridization and immunohistochemistry were carried out to evaluate BDTCs distribution, differentiation and proliferation in recipients's livers after different intervals.</p><p><b>RESULTS</b>Fluoromicroscopy and in situ hybridization suggested that BDTCs of donors were interspersed in pieces and cords among the necro-periportals induced by AA; immunohistochemistry indicated that those implanted cells expressed OV-6, AFP, CK19 and albumin successively, while positive cells were hardly seen in the normal liver + BDTCs infusion group. Compared with the controls, the blood biochemical restitution was more rapid in group (1), (9.8 d +/- 3.1 d vs. 13.7 d +/- 4.2 d).</p><p><b>CONCLUSION</b>The injury micro-environment induced by AA facilitates BDTCs integration with hepatic cell plates and differentiation into mature liver cells. BDTCs differentiation into liver cells might accelerate endogenous liver cell regeneration and reparation.</p>