Genetic suppressor screen identifies Tgp1 (glycerophosphocholine transporter), Kcs1 (IP<sub>6</sub> kinase), and Plc1 (phospholipase C) as determinants of inositol pyrophosphate toxicosis in fission yeast.

Overview

The inositol pyrophosphate metabolite 1,5-IP₈ governs repression of fission yeast phosphate homeostasis genes pho1, pho84, and tgp1 by lncRNA-mediated transcriptional interference. Asp1 pyrophosphatase mutations that increase IP₈ levels elicit precocious lncRNA termination, leading to derepression of the PHO genes. Deletions of the Asp1 pyrophosphatase domain result in growth impairment or lethality via IP₈ agonism of transcription termination. It was assumed that IP₈ toxicity ensues from dysregulation of essential genes. In this study, a suppressor screen revealed that IP₈ toxicosis of Asp1 pyrophosphatase mutants is caused by: (i) a >40-fold increase in the expression of the inessential tgp1 gene encoding a glycerophosphodiester transporter and (ii) the presence of glycerophosphocholine in the growth medium. The suppressor screen yielded missense mutations in two upstream enzymes of inositol polyphosphate metabolism: the phospholipase C enzyme Plc1 that generates IP₃ and the essential Kcs1 kinase that converts IP₆ to 5-IP₇, the immediate precursor of IP₈.