Analysis of stress-induced gene expression in fish cell lines exposed to heavy meals and heat shock

We have examined the effect of heavy metals on the expression of two major groups of stress-induced proteins in fish cell lines: the 70 kDa heat-shock proteins (hsp70) and metallothioneins (MTs). The rainbow trout hepatoma (RTH) cell line synthesized the hsp70 protein in response to zinc and heat shock, while chinook salmon embryonic (CHSE) cells synthesized this protein in response to these inducers, as well as cadmium. The synthesis of this 70 kDa protein was correlated with the accumulation of hsp70 mRNA as measured by hybridization to a trout hsp70 gene probe. Heavy metals also induced the synthesis of MT in RTH cells. However, heat shock did not result in induction of MT and its mRNA. Unlike RTH cells, CHSE cells did not synthesize MT following exposure to cadmium or zinc. When these cells were treated with 5-azacytidine prior to heavy metal treatment, accumulation of MT mRNA was observed. Northern blot analysis of total RNA from 5-azacytidine treated CHSE cells, using a trout MT (tMT-B) cDNA probe, indicated that the time-course of induction and the maximal level of MT mRNA accumulation in response to cadmium and zinc paralleled that observed in RTH cells. Copper and dexamethasone were ineffective in inducing MT mRNA in 5-azacytidine-treated CHSE cells. These results indicate that MT is specifically induced in response to heavy metal treatment, whereas the synthesis of hsp70 appears to be a general stress response. Furthermore, MT is differentially regulated by heavy metals and dexamethasone in these cell lines and the expression of MT is cell-type-specific.     

5-Azacytidine increases the total cellular copper content and basal level metallothionein mRNA accumulation of human Hep G2 cells.

In this study we have demonstrated the ability of 5-azacytidine to elevate the basal level expression of the metallothionein (MT)-IF and MT-IG genes and increase the basal level expression of the MT-IIA gene in Hep G2 cells, a cell line which exhibits heavy metal inducible MT gene expression. Atomic absorption analysis of 5-azacytidine treated Hep G2 cells detected a 2-fold increase in the total cellular copper content. Pretreatment of 5-azacytidine exposed cells with hydroxyurea and cycloheximide indicated that the increase in total cellular copper content was a direct response to 5-azacytidine treatment. S1 nuclease analysis illustrated that pretreatment of Hep G2 cells with KCN, a copper specific chelator and uptake inhibitor, suppressed 5-azacytidine- and copper-inducible MT-IG gene expression. Thus, the increase in MT gene expression in response to 5-azacytidine treatment can be correlated to an increase in the total cellular copper content. Possible mechanisms on how 5-azacytidine could alter the influx/efflux of copper in Hep G2 cells are discussed.     

Differences in metallothionein gene expression in primary cultures of rainbow trout hepatocytes and the RTH-149 cell line

Primary cultures of rainbow trout, Salmo gairdneri, hepatocytes were used to study the expression of metallothionein (MT) genes in response to steroid hormone treatment. The expression pattern was compared to that of an immortal cell line (RTH-149). MT mRNA accumulated in both cell cultures after exposure to zinc while 17 beta-oestradiol had no effect in either system. Treatment with cortisol and corticosterone resulted in a 2-fold increase of metallothionein mRNA levels in the primary cultures but had no effect in the RTH-149 cell culture. Primary cultures that were exposed to zinc or cortisol showed a high temporal correlation (r = 0.974) between MT mRNA and MT protein levels. The basal level expression was 3-4-fold higher in primary cultures than in RTH-149 cells. The present study demonstrates the inducibility of rainbow trout MT genes in response to glucocorticoids. It further indicates that primary cultures are to be preferred to immortal cell lines when investigating the inducibility of MT mRNA.     

Assay of protamine messenger RNA from rainbow trout testis.

A low molecular weight RNA fraction possessing protamine mRNA activity was prepared from rainbow trout testis polysomes. Addition of low molecular weight RNA to a Krebs II ascites S-30 cell-free protein synthesis system strongly stimulated [14C]arginine incorporation into acid-insoluble material. This stimulation was completely abolished by 10-4 M aurintricarboxylic acid, an inhibitor of eukaryotic protein synthesis at the level of initiation. Starch gel electrophoresis showed that labeled arginine was incorporated in vitro into products identical with both authentic protamine and histones as found previously (Gilmour, R. S., and Dixon, G. H. (1972) J. Biol. Chem. 247, 4621-4627). The 4 to 6 S RNA fraction, isolated from the polysomal low molecular weight RNA by sucrose gradient fractionation, enhanced the incorporation of [14C]arginine into acid-insoluble material and when this product was examined by starch gel electrophoresis, it co-migrated with authentic rainbow trout protamine.     

Functional analysis of cathepsin B-like cysteine proteases from Leishmania donovani complex. Evidence for the activation of latent transforming growth factor beta

Cathepsin B-like genes from Leishmania donovani and Leishmania chagasi have been isolated and characterized. It is a single gene, which is constitutively expressed in all the life cycle stages of the parasite. Studies using cathepsin B-specific inhibitor treatment suggested that cathepsin B does not seem to play a role in the promastigote stages of the parasite, however it aids in the parasite survival within the host macrophages. Antisense mRNA inhibition of cathepsin B gene also revealed that it plays an important role in the parasite survival within the host macrophages. Furthermore, for the first time, we have shown that Leishmania whole cell lysates as well as the recombinant cathepsin B protein cleaved human recombinant latent transforming growth factor (TGF)-beta1 into a mature peptide releasing the latency associated protein, in a cell-free incubation system. Mink lung epithelial cell growth inhibition assay revealed that the cleaved TGF-beta1 was biologically active, suggesting that Leishmania cathepsin B can cleave latent TGF-beta1 into mature and active form. These results suggest that cathepsin B plays an important role in Leishmania survival within the host macrophages by activating latent TGF-beta1.