Induction of metallothionein and stomatin by interleukin-6 and glucocorticoids in a human amniotic cell line


Correspondence to J. Content, Institut Pasteur du Brabant, Département de Virologie, rue Engeland, 642, B-1180 Bruxelles, Belgium
Fax: +32 2 373 31 74.


Interleukin 6 (IL-6) is an important mediator of various kinds of inflammatory and immune responses. The human amniotic cell line UAC has an increased number of IL-6 receptors after treatment by glucocorticoids. To find a possible activity of IL-6 on these cells, a cDNA library of IL-6- and dexamethasone-treated cells was screened with cDNA probes from both induced and non-induced cells.

Two cDNAs showed a differential hybridization signal. The first one corresponds to metallothionein, a group of small cysteine-rich proteins thought to participate in the metabolism and storage of zinc and to protect cells against oxidative damage.

A second cDNA corresponds to the recently cloned cDNA of band 7 integral membrane protein also called stomatin. In hereditary stomatocytosis, absence of this protein in erythrocyte membranes is associated with high Na+ and low K+ intracellular concentrations [Stewart, G. W., Hepworth-Jones, B. E., Keen, J. N., Dash, B. C. J., Argent, A. C. & Casimir, C. M. (1992) Blood 79, 1593–1601].

In UAC cells both metallothionein and stomatin are induced by dexamethasone and IL-6 in a more than additive manner. Western blot analysis shows that stomatin protein is induced in a similar way as its mRNA.

IL-6 and dexamethasone induce a state of resistance against hydrogen peroxide toxicity in UAC cells. Metallothionein induction might be partly responsible for this cytoprotection against oxidative stress.