Continued functioning of the secretory pathway is essential for ribosome synthesis.

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Mol Cell Biol. 1994 April; 14(4): 2493-2502

Continued functioning of the secretory pathway is essential for ribosome synthesis.

K Mizuta and J R Warner

Department of Cell Biology, Albert Einstein College of Medicine, Bronx, New York 10461.

ABSTRACT

To explore the regulatory elements that maintain the balancedsynthesis of the components of the ribosome, we isolated a temperature-sensitive(ts) mutant of Saccharomyces cerevisiae in which transcriptionboth of rRNA and of ribosomal protein genes is defective atthe nonpermissive temperature. Temperature sensitivity for growthis recessive and segregates 2:2. A gene that complements thets phenotype was cloned from a genomic DNA library. Sequenceanalysis revealed that this gene is SLY1, encoding a proteinessential for protein and vesicle transport between the endoplasmicreticulum and the Golgi apparatus. In the strain carrying ourts allele of SLY1, accumulation of the carboxypeptidase Y precursorwas detected at the nonpermissive temperature, indicating thatthe secretory pathway is defective. To ask whether the effectof the ts allele on ribosome synthesis was specific for sly1or was a general result of the inactivation of the secretionpathway, we assayed the levels of mRNA for several ribosomalproteins in cells carrying ts alleles of sec1, sec7, sec11,sec14, sec18, sec53, or sec63, representing all stages of secretion.In each case, the mRNA levels were severely depressed, suggestingthat this is a common feature in mutants of protein secretion.For the mutants tested, transcription of rRNA was also substantiallyreduced. Furthermore, treatment of a sensitive strain with brefeldinA at a concentration sufficient to block the secretion pathwayalso led to a decrease of the level of ribosomal protein mRNA,with kinetics suggesting that the effect of a secretion defectis manifest within 15 to 30 min. We conclude that the continuedfunction of the entire secretion pathway is essential for themaintenance of ribosome synthesis. The apparent coupling ofmembrane synthesis and ribosome synthesis suggest the existenceof a regulatory network that connects the production of thevarious structural elements of the cell.

Mol Cell Biol. 1994 April; 14(4): 2493-2502

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