Membrane Antigen Expression of Syngeneically but Heterotopically Transplanted Hepatocytes in Rats

The expression of membrane antigens on rat hepatocytes transplanted syngeneically and heterotopically was analyzed immunohistochemically using monoclonal antibodies against rat hepatocytes. Isolated adult and fetal hepatocytes were able to survive in the spleen, salivary gland, thymus, or subcapsular region of the kidney for various periods after transplantation. Fairly clear expression of HAM2, 4, and 8 antigens was observed on hepatocytes transplanted into syngeneic spleen, suggesting that the cells might be functionally equivalent to hepatocytes in situ. HAM4 antigen was localized specifically on the newly formed bile-canalicular faces of hepatocytes. The expression of HAM2 (MHC class I) antigen on the transplanted hepatocytes appeared much stronger on the side facing lymphoid tissues, than on the other faces, suggesting that some immunological reactions may take place between hepatocytes and lymphoid tissue. HAM8 antigen, which is localized on gap junctions between neighboring hepatocytes in rat liver, was also recognized between transplanted hepatocytes. In salivary glands where hepatocytes were transplanted, bile-canaliculus-like structures were observed not only between neighboring hepatocytes but also between hepatocytes and salivary acinar cells, suggesting good interaction between the two different epithelial cell types. Hepatocytes transplanted into thymus appeared viable, but most showed fatty degeneration. Some healthy hepatocytes survived in the interlobular connective tissue and the thymic cortical tissue. When fetal hepatocytes were transplanted heterotopically, they formed a mass consisting of hepatocytes and bile duct-like structures 7 wk after transplantation. The inoculated hepatocytes possessed HAM4 antigen, which was not recognized on fetal hepatocytes at day 14 of gestation. These results suggest that transplanted hepatocytes can grow in any syngeneic tissues, and that a common feature on such hepatocytes is a rich reticulin fiber network, visualized by silver staining. To judge the state of transplanted hepatocytes, monoclonal antibodies against rat hepatocyte surface antigens might therefore be a useful tool.

[1]  T. Hirai,et al.  Immunohistochemical analysis of rat liver using a monoclonal antibody (HAM8) against gap junction , 1993, The Anatomical record.

[2]  H. Fujii The regeneration of transplanted hepatocytes within the mesenteric fat pad of mice. , 1993, Transplantation.

[3]  T. Fukumoto POSSIBLE DEVELOPMENTAL INTERACTIONS OF HEMATOPOIETIC CELLS AND HEPATOCYTES IN FETAL RAT LIVER , 1992 .

[4]  Y. Fujikura,et al.  Distribution of the surface antigen HAM-4 and cytoskeleton during reformation of bile-canalicular structures in rat primary cultured hepatocytes. , 1992, Experimental cell research.

[5]  R. Margreiter,et al.  Hepatocellular transplantation into the lung for temporary support of acute liver failure in the rat. , 1992, Gastroenterology.

[6]  K. Yamaguchi,et al.  Immunoelectron microscopic localization of cell surface antigens on rat hepatocytes detected with monoclonal antibodies (HAM2 and HAM4). , 1991, Cell structure and function.

[7]  R. Burk,et al.  Permanent engraftment and function of hepatocytes delivered to the liver: Implications for gene therapy and Liver Repopulation , 1991, Hepatology.

[8]  F D Ledley,et al.  Mouse hepatocytes migrate to liver parenchyma and function indefinitely after intrasplenic transplantation. , 1991, Proceedings of the National Academy of Sciences of the United States of America.

[9]  R. Margreiter,et al.  Hepatocyte transplantation into the lung for treatment of acute hepatic failure in the rat. , 1991, Transplantation proceedings.

[10]  D. Vergani,et al.  Class I and class II major histocompatibility complex antigen expression on hepatocytes: A study in children with liver disease , 1990, Hepatology.

[11]  P. Traber,et al.  Long‐term maintenance of the adult pattern of liver‐specific expression for P‐450b, P‐450e, albumin and α‐fetoprotein genes in intrasplenically transplanted hepatocytes , 1990, Hepatology.

[12]  P. Belitsky,et al.  Induction of MHC class II expression in recipient tissues caused by allograft rejection. , 1990, Transplantation.

[13]  R. N. Macsween,et al.  Intrasplenic hepatocyte transplantation in rats with experimental liver injury: Morphological and morphometric studies , 1989, The Journal of pathology.

[14]  F. Kurokawa,et al.  An antigen specific to hyperplastic liver nodules defined with monoclonal antibody: a new marker for preneoplastic cells in rat chemical hepatocarcinogenesis. , 1988, Tumour biology : the journal of the International Society for Oncodevelopmental Biology and Medicine.

[15]  M. Matsumoto,et al.  Expression of a hepatocyte membrane antigen during hepatocarcinogenesis and in the developing liver of the rat , 1988, International journal of cancer.

[16]  J. Platt,et al.  INCREASED EXPRESSION OF CLASS I MAJOR HISTOCOMPATIBILITY COMPLEX ANTIGENS ON HEPATOCYTES IN REJECTING HUMAN LIVER ALLOGRAFTS , 1987, Transplantation.

[17]  T. Fukumoto,et al.  Purification and characterisation of MHC class I antigen from rat liver with monoclonal antibody. , 1986, The International journal of biochemistry.

[18]  K. Kanai,et al.  A monoclonal antibody to a rat hepato-renal membrane antigen. , 1985, Clinical and Experimental Immunology.

[19]  Y. Fujikura,et al.  Monoclonal Antibodies against Fetal Rat Liver Cells , 1984 .

[20]  H. Sugiyama,et al.  Monoclonal antibodies to rat liver cell membrane glycoproteins. , 1984, Molecular immunology.

[21]  M. Kusano,et al.  Observations on the Fine Structure of Long-Survived Isolated Hepatocytes Inoculated into Rat Spleen , 1982 .

[22]  M. Kusano,et al.  Observations on the fine structure of long-survived isolated hepatocytes inoculated into rat spleen. , 1982, Gastroenterology.

[23]  Alan F. Williams,et al.  Mouse monoclonal antibodies against rat major histocompatibility antigens. Two Ia antigens and expression of Ia and class I antigens in rat thymus , 1982, European journal of immunology.

[24]  W. McMaster,et al.  Identification of Ia glycoproteins in rat thymus and purification from rat spleen , 1979, European journal of immunology.

[25]  M. Kusano,et al.  MORPHOLOGY AND FUNCTION OF ISOLATED HEPATOCYTES TRANSPLANTED INTO RAT SPLEEN , 1979, Transplantation.

[26]  P. Seglen Preparation of rat liver cells. 3. Enzymatic requirements for tissue dispersion. , 1973, Experimental cell research.

[27]  P. Seglen Preparation of rat liver cells. II. Effects of ions and chelators on tissue dispersion. , 1973, Experimental cell research.

[28]  J F A McMANUS,et al.  Histological and histochemical uses of periodic acid. , 1948, Stain technology.

[29]  G. Gömöri Silver Impregnation of Reticulum in Paraffin Sections. , 1937, The American journal of pathology.