Immunohistochemical studies on endothelial cell phenotype in hepatocellular carcinoma
S Nakamura
Second Department of Surgery, Hamamatsu University School of Medicine, Handa-cho, Hamamatsu-city, Japan
Search for more papers by this authorH Muro
Second Department of Surgery, Hamamatsu University School of Medicine, Handa-cho, Hamamatsu-city, Japan
Search for more papers by this authorS Suzuki
Second Department of Surgery, Hamamatsu University School of Medicine, Handa-cho, Hamamatsu-city, Japan
Search for more papers by this authorT Sakaguchi
Second Department of Surgery, Hamamatsu University School of Medicine, Handa-cho, Hamamatsu-city, Japan
Search for more papers by this authorH Konno
Second Department of Surgery, Hamamatsu University School of Medicine, Handa-cho, Hamamatsu-city, Japan
Search for more papers by this authorS Baba
Second Department of Surgery, Hamamatsu University School of Medicine, Handa-cho, Hamamatsu-city, Japan
Search for more papers by this authorA S Syed
Second Department of Surgery, Hamamatsu University School of Medicine, Handa-cho, Hamamatsu-city, Japan
Search for more papers by this authorS Nakamura
Second Department of Surgery, Hamamatsu University School of Medicine, Handa-cho, Hamamatsu-city, Japan
Search for more papers by this authorH Muro
Second Department of Surgery, Hamamatsu University School of Medicine, Handa-cho, Hamamatsu-city, Japan
Search for more papers by this authorS Suzuki
Second Department of Surgery, Hamamatsu University School of Medicine, Handa-cho, Hamamatsu-city, Japan
Search for more papers by this authorT Sakaguchi
Second Department of Surgery, Hamamatsu University School of Medicine, Handa-cho, Hamamatsu-city, Japan
Search for more papers by this authorH Konno
Second Department of Surgery, Hamamatsu University School of Medicine, Handa-cho, Hamamatsu-city, Japan
Search for more papers by this authorS Baba
Second Department of Surgery, Hamamatsu University School of Medicine, Handa-cho, Hamamatsu-city, Japan
Search for more papers by this authorA S Syed
Second Department of Surgery, Hamamatsu University School of Medicine, Handa-cho, Hamamatsu-city, Japan
Search for more papers by this authorAbstract
To examine the phenotype of the sinusoidal endothelial cells (SECs) surrounding tumor cells and the process of capillarization in hepatocellular carcinoma (HCC), 51 primary HCCs, 4 adrenal metastases, and 3 portal tumor thrombi were immunohistochemically stained with monoclonal antibodies (MAbs) for CD4, CD14 (lipopolysaccharide-binding protein complex receptors), and CD32 (Fc gamma receptor II), which are specifically found on the SECs in normal liver, but not on ordinary vascular endothelial cells (ECs). Immunostaining was also performed for CD36 (thrombospondin receptors), EN4 antigen (Ag) (a pan-vascular endothelial cell Ag), PAL-E Ag (a venous and capillary EC Ag), factor VIII-related Ag (FVIIIRAg), and laminin. MAb 25F9, which identifies macrophages, was simultaneously used with the other MAbs to distinguish macrophages from SECs in HCCs (HCC SECs). CD4, CD14, and/or CD32 were found on HCC SECs only in 12 well-differentiated primary HCCs showing a thin trabecular or pseudoglandular tumor cell arrangement. These 12 tumors were smaller than those without CD4-, CD14-, and/or CD32-positive SECs (P < .05). Among them, 7, 5, and 11 tumors were negative or only partially positive for laminin, PAL-E Ag, and FVIIIRAg, respectively. Staining for laminin and PAL-E Ag showed an inverse relationship to the expression of CD4, CD14, and CD32 on HCC SECs and the tumor differentiation. In conclusion, the phenotypes of the SECs in early and well-differentiated HCC are thought to be similar to those of the SECs in normal liver. With progressing tumor dedifferentiation the HCC SECs lose the phenotypes peculiar to liver SECs and acquire the characteristics of capillary ECs, though both types of phenotypical change occur independently of each other.
References
- 1 Wisse E. An electron microscopic study of the fenestrated endothelial lining of rat liver sinusoids. J Ultrast Res 1970; 31: 125–150.
- 2 Widrman JJ, Cotran RS, Fahimi HD. Mononuclear phagocytes [Kupffer cells] and endothelial cells: identification of two functional cell types in rat liver sinusoids by endogenous peroxidase activity. J Cell Biol 1972; 52: 159–170.
- 3 Smedsrod B, Pertoft H, Gustafson S, Laurent TC. Scavenger functions of the liver endothelial cell. Biochem J 1990; 266: 313–327.
- 4 Van der Laan-Klamer SM, Atmosoerodjo-Briggs JE, Harms G, Hoede-maeker PJ, Hardonk MJ. Immunohistochemical demonstration of Fc receptors in rat tissues using immune complexes as ligand. Histochemis-try 1985; 82: 477–482.
- 5 Muro H, Shirasawa H, Maeda M, Nakamura S. Fc receptors of liver sinusoidal endothelium in normal rats and humans. A histologic study with soluble immune complexes. Gastroenterology 1987; 93: 1078–1085.
- 6 Scoazec J-K, Feldmann G. In situ immunophenotyping study of endothelial cells of the human hepatic sinusoid: results and functional implications. Hepatology 1991; 14: 789–797.
- 7 Micklem KJ, Stress WP, Willis AC, Cordell JL, Jones M, Mason DY. Different isoforms of human FcRII distinguished by CDw32 antibodies. J Immunol 1990; 144: 2295–2303.
- 8 Muro H, Shirasawa H, Kosugi I, Nakamura S. Defect of Fc receptors and phenotypical changes in sinusoidal endothelial cells in human liver cirrhosis. Am J Pathol 1993; 143: 105–120.
- 9 Ito I, Muro H, Kosugi I, Shirasawa H. Alterations in Fc receptor activity in sinusoidal endothelial cells and Kupffer cells during D-galactosamine (GaIN)- induced liver injury in rats. A histological study. Virchow Arch B Cell Pathol 1990; 58: 417–425.
- 10 Scoazec J-Y, Feldmann G. Both macrophages and endothelial cells of the human hepatic sinusoid express the CD4 molecule, a receptor for the human immunodeficiency virus. Hepatology 1990; 12: 505–510.
- 11 Hancock WW, Zola H, Atkins RC. Antigenic heterogeneity of human mononuclear phagocytes: immunohistologic analysis using monoclonal antibodies. Blood 1983; 62: 1271–1279.
- 12 Nagura H, Koshikawa T, Fukuda Y, Asai J. Hepatic vascular endothelial cells heterogenously express surface antigens associated with mono-cytes, macrophages and T lymphocytes. Virchow Arch A [Pathol Anat] 1986; 409: 407–416.
- 13 Schaffner F, Popper H. Capillarization of hepatic sinusoids in man. Gastroenterology 1963; 44: 239–242.
- 14 Muro H, Shirasawa H, Kosugi I, Ito I. Defect of sinusoidal Fc receptors and immune complex uptake in CCl4-induced liver cirrhosis in rats. Gastroenterology 1990; 99: 200–210.
- 15
Donato MF,
Colombo M,
Matarazzo M,
Paronetto F.
Distribution of basement membrane components in human hepatocellular carcinoma.
Cancer
1989;
63:
272–279.
10.1002/1097-0142(19890115)63:2<272::AID-CNCR2820630212>3.0.CO;2-L CAS PubMed Web of Science® Google Scholar
- 16
Haratake J,
Scheuer PJ.
An immunohistochemical and ultrastructural study of the sinusoids of hepatocellular carcinoma.
Cancer
1990;
65:
1985–1993.
10.1002/1097-0142(19900501)65:9<1985::AID-CNCR2820650918>3.0.CO;2-C CAS PubMed Web of Science® Google Scholar
- 17
Sugihara S,
Nakashima O,
Kiyomatsu K,
Edamitsu O,
Kojiro M.
Patho-morphologic study on macrophages in hepatocellular carcinoma.
Acta Hepatol Jpn
1990;
31:
12–18.
(in Japanese)
10.2957/kanzo.31.12 Google Scholar
- 18
Tobe K,
Tsuchiya T,
Fujiwara R,
Yamada G,
Nagashima H,
Sasaoka K,
Mimura H, et al.
Kupffer cells in well-differentiated tissue of hepatocellular carcinoma.
Acta Hepatol Jpn
1985;
26:
630–637.
(in Japanese)
10.2957/kanzo.26.630 Google Scholar
- 19 Kin M, Torimura T, Ueno T, Inuzuka S, Tanikawa K. Sinusoidal capillarization in small hepatocellular carcinoma. Pathol Int 1994; 44: 771–778.
- 20 Sakamoto M, Ino Y, Fujii T, Hirohashi S. Phenotype changes in tumor vessels associated with the progression of hepatocellular carcinoma. Jpn J Clin Oncol 1993; 23: 98–104.
- 21 Gibson JB, Sobin LH. Histological typing of tumors of the liver, biliary tract and pancreas. In: International Histological Classification of Tumors. World Health Organization. Geneva: 1978: 19–25.
- 22
Edmondson HA,
Steiner PE.
Primary carcinoma of the liver. A study of 100 among 48900 necropsies.
Cancer
1954;
7:
462–503.
10.1002/1097-0142(195405)7:3<462::AID-CNCR2820070308>3.0.CO;2-E CAS PubMed Web of Science® Google Scholar
- 23 Jonker M, Sligerland W, Niphuis H, Golub ES, Thornton GB, Smit L, Goudsmit J. Epitope definition of CD4 by primate studies and the anti-ID response to CD4-specific mAb: failure to induce anti-ID specific for HIV. In: W Knapp, B Dorken, WR Gilks, EP Rieber, RE Schmidt, H Stein, AEGK von dem Borne, eds. Leukocyte Typing IV. White Cell Differentiation Antigens. Oxford: Oxford University Press, 1989: 319–322.
- 24 Marder VJ, Mannuci PM, Firkin BG, Hoyer LW, Meyer D. Standard nomenclature for factor VIII and von Willebrand factor: a recommendation by the International Committee on Thrombosis and Hematemesis. Thromb Haemostas 1985; 54: 871–872.
- 25 Farace F, Mitjavila MT, Betaieb A, Dokhelar MC, Wiels J, Finale Y, Kieffer N, et al. New hematopoietic differentiation antigens detected by anti-K562 monoclonal antibodies. Cancer Res 1988; 48: 5759–5765.
- 26 Asch AS, Barnwell J, Silverstein RL, Nachman RL. Isolation of the thrombospondin membrane receptor. J Clin Invest 1987; 79: 1054–1061.
- 27 Schlingemann RO, Dingjan GM, Emeris JJ, Block J, Warnaar SO, Ruiter DJ. Monoclonal antibody PAL-E specific for endothelium. Lab Invest 1985; 52: 71–76.
- 28 Zwadlo G, Brocker EB, von Bassewitz DB, Feige U, Sorg C. A monoclonal antibody to a differentiation antigen present on mature human macrophages and absent from monocytes. J Immunol 1985; 134: 1487–1492.
- 29 Cui YC, Tai PC, Gatter KC, Mason DY, Spry CJF. A vascular endothelial cell antigen with restricted distribution in human foetal, adult and malignant tissues. Immunology 1983; 49: 183–189.
- 30 Parravicini CL, Soligo D, Cattoretti G, Berti E, Gaiera G, Biberfeld P. Endothelial reactivity of CD31, CD36, and anti-GMP-140 (CD62) mAb in normal tissues and vascular neoplasms. In: W Knapp, B Dorken, WR Gilks, EP Rieber, RE Schmidt, H Stein, AEGK von dem Borne, eds. Leukocyte Typing IV. White Cell Differentiation Antigens. Oxford: Oxford University Press, 1989: 985–988.
- 31 Engvall E, Davis GE, Dickerson K, Ruoslahti E, Varon S, Manthorpe M. Mapping of domains in human laminin using monoclonal antibodies: localization of the neurite-promoting site. J Cell Biol 1986; 103: 2457–2465.
- 32 Goyert SM, Ferrero E. Biochemical analysis of myeloid antigen and cDNA expression of gp55 (CD14). In: AJ McMichael, ed. Leukocyte Typing III. White Cell Differentiation Antigens. New York: Oxford University Press, 1988: 613–619,
- 33 Ueno T, Inuzuka S, Tomimura T, Tamaki S, Koh H, Kin M, Minetoma T, et al. Serum hyaluronate reflects hepatic sinusoidal Capillarization. Gastroenterology 1993; 105: 475–481.
- 34 Martinez-Hernandez A. The hepatic extracellular matrix. II. Electron immunohistochemical studies in rats with CCl4-induced cirrhosis. Lab Invest 1985; 53: 166–186.
- 35 Skogh T, Blomhoff R, Eskild W, Berg T. Hepatic uptake of circulating IgG immune complexes. Immunology 1985; 55: 585–594.
- 36 Kosugi I, Muro H, Shirasawa H, Hirano M, Yamashita Y, Miyakawa A. Effects of the subcutaneous injection of complete Freund's adjuvant on Fc receptor activity and IgG immune complex uptake in liver sinusoidal endothelial cells. In: DL Knock, E Wisse, eds. Cells of the Hepatic Sinusoid. Volume 5. Leiden: Kupffer Cell Foundation, 1993: 434–437.
- 37 Wright SD, Ramos RA, Tobias PS, Ulevitch RJ, Mathison JC. CD14: a receptor for complexes of lypopolysaccharide (LPS) and LPS binding protein. Science 1990; 249: 1431–1433.
- 38 Sedmak DD, Davis DH, Singh U, van de Winkel JGJ. Expression of IgG receptor antigens in placenta and on endothelial cells in humans. An immunohistochemical study. Am J Pathol 1991; 138: 175–181.
- 39 Volpes R, van den Oord JJ, Desmet VJ. Adhesive molecules in liver disease. Immunohistochemical distribution of thrombospondin receptors in chronic HBV infection. J Hepatol 1990; 10: 297–304.
- 40
Hata K.
Characteristics of the sinusoidal wall in human hepatocellular carcinoma. Ultrastructural and immunohistochemical study.
Acta Hepatol Jpn
1990;
31:
1210–1217
(in Japanese with English abstract).
10.2957/kanzo.31.1210 Google Scholar
- 41 Le Bail B, Bioulac-Sage P, Senuita R, Quinton A, Saric J, Balabaud C. Fine structure of hepatic sinusoids and sinusoidal cells in disease. J Electron Micro Tech 1990; 14: 257–282.
- 42 Ruck P, Xiao J-C, Kaiserling E. Sinusoids in hepatoblastoma. Arch Pathol Lab Med 1993; 117: 8–9.
- 43 Jaskiewicz K, Chasen MR, Robson SC. Differential expression of extracellular matrix proteins and integrins in hepatocellular carcinoma and chronic liver disease. Anticancer Res 1993; 13: 2229–2238.
- 44 Kondo Y, Kondo F, Wada K, Okabayashi A. Pathologic features of small hepatocellular carcinoma. Acta Pathol Jpn 1986; 36: 1149–1161.
- 45 Sugihara S, Kojiro M, Nakashima T. Ultrastructural study of hepatocellular carcinoma with replacing growth pattern. Acta Pathol Jpn 1985; 35: 549–559.
- 46 Petrovic LM, Burroughs A, Scheuer PJ. Hepatic sinusoidal endothelium: Ulex lectin binding. Histopathology 1989; 14: 233–243.
- 47 Fukuda Y, Nagura H, Imoto M, Yokoyama Y. Immunohistochemical studies on structural changes of the hepatic lobules in chronic liver diseases. Am J Gastroenterol 1986; 81: 1149–1155.
- 48 Bianchi FB, Biagini G, Ballardini G, Cenacchi G, Faccani A, Pisi E, Laschi R, et al. Basement membrane production by hepatocytes in chronic liver disease. Hepatology 1984; 4: 1167–1172.
- 49 Yano H, Iemura A, Fukuda K, Mizoguchi A, Haramaki M, Kojiro M. Establishment of two distinct human hepatocellular carcinoma cell lines from a single nodule showing clonal dedifferentiation of cancer cells. Hepatology 1993; 18: 320–327.
