IL-6-induced changes in synthesis of alpha 1-acid glycoprotein in human hepatoma Hep3B cells are distinctively regulated by monoclonal antibodies directed against different epitopes of IL-6 receptor (gp80)
Daveau, M.; Liautard, J.; Gaillard, J.P.; Hiron, M.; Brochier, J.; Lebreton, J.P.
European Cytokine Network 5(6): 601-608
1994
ISSN/ISBN: 1148-5493 PMID: 7537107 Document Number: 432785
The synthesis of the human acute-phase alpha 1-acid glycoprotein (AGP) is primarily controlled by IL-6 and IL-1 in liver cells. In the present study, monoclonal antibodies against human gp80 interleukin-6 receptor (IL-6R) were utilized to study the role of the IL-6R in the control of the IL-6-induced AGP synthesis in the human hepatoma Hep3B cell line. Two of the 4 MAbs used in this study, M164 and M195, identified 2 different epitopes involved in IL-6 binding and two others, M91 and M182, recognized epitopes not involved in IL-6 binding. Dose-response experiments indicated that up to 55% of AGP synthesis was inhibited by 10(5) ng/ml of MAbs 164 or 195 when Hep3B cells were treated by IL-6 for 48h. Kinetics of the inhibition of AGP synthesis after addition of anti-IL-6R indicated that the decrease of the IL-6-induced AGP synthesis by Hep3B cells was obtained immediately after the addition of the anti-IL-6R MAbs. Of the two MAbs not involved in IL-6 binding, M91 was unable to interfere with the IL-6-induced AGP synthesis whereas, surprisingly, M182 decreased it by about 25%. Since M182 was also able to interfere with the proliferative response of an IL-6 dependent plasma cell line, our results suggested that M182 may be directed to a structure involved in the IL-6/IL-6R gp130 complex formation.