Abstract
Ricin A chain (RTA) inhibits protein synthesis by removing a specific adenine from the highly conserved alpha-sarcin/ricin loop in the large rRNA. Expression of RTA with its own signal sequence in yeast resulted in its translocation into the endoplasmic reticulum (ER) and subsequent glycosylation. Because RTA must unfold within the ER, it may be vulnerable to host defenses, such as the unfolded protein response (UPR). UPR was induced in cells expressing an active site mutant but not the wild type RTA, indicating that the active site of RTA played a role in perturbing the ER stress response. The inactive RTA without the signal sequence did not induce UPR, indicating that translocation into the ER was critical for induction of UPR. The wild type RTA inhibited activation of UPR not only due to ER stress induced by the protein itself but also by global effectors such as tunicamycin and dithiothreitol. Mature RTA without the signal sequence also inhibited UPR, providing evidence that inhibition of UPR occurred on the cytosolic face of the ER. RTA could not inhibit UPR when the spliced form of HAC1 mRNA was provided in trans, indicating that it had a direct effect on UPR upstream of HAC1-dependent transcriptional activation. Only the precursor form of HAC1 mRNA was detected in cells expressing RTA after exposure to ER stress, demonstrating that ricin inhibits activation of UPR by preventing HAC1 mRNA splicing. The RTA mutants that depurinated ribosomes but did not kill cells were not able to inhibit activation of UPR by tunicamycin, providing evidence that the inability to activate UPR in response to ER stress contributes to the cytotoxicity of ricin.
Highlights
Ricin is a member of a class of molecules termed ribosomeinactivating proteins that remove a highly conserved adenine from the ␣-sarcin ricin loop of the large rRNA [1]
To determine whether RTA affected expression of genes induced during unfolded protein response (UPR), we examined the mRNA levels corresponding to KAR2, DER1, and GCN4
To determine more precisely the step inhibited in the UPR signaling pathway, we examined the splicing of HAC1 mRNA
Summary
Growth Conditions and Plasmids—The RTA plasmid contained the 35-residue signal sequence and the 267-residue mature RTA downstream of the GAL1 promoter [5]. 0.2 A600 units of cells were pelleted and frozen for subsequent lacZ reporter assays. Cells were placed in a 30 °C water bath for at least 5 min to pre-equilibrate the lysates After this incubation, 100 l of orthonitrophenyl-D-galactopyranoside (4 mg/ml in Z-buffer) was added, samples were placed at 30 °C, and the timer was started. Analysis of Protein Expression—The total cell lysate from frozen yeast cells harvested during the time course of induction was fractionated into membrane and cytosolic fractions as previously described [27]. For real-time RTPCR analysis, cDNA was synthesized from 1 g of total RNA in a 20-l reaction containing 1ϫ first-strand buffer (Invitrogen), 40 units/l RNA Guard RNase inhibitor (Promega, Madison, WI), 0.5 g of poly d(T) oligonucleotide (Promega), 40 mm dNTPs, and Superscript II (Invitrogen) reverse transcriptase.
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