Hmo1p, a High Mobility Group 1/2 Homolog, Genetically and Physically Interacts With the Yeast FKBP12 Prolyl Isomerase

Hmo1p, a High Mobility Group 1/2 Homolog, Genetically and Physically Interacts With the Yeast FKBP12 Prolyl Isomerase

Kara J. Dolinski^a and Joseph Heitman^a
^a Departments of Genetics, Pharmacology and Cancer Biology, Microbiology and Medicine, the Howard Hughes Medical Institute, Duke University Medical Center, Durham, North Carolina 27710

Corresponding author: Joseph Heitman, 322 Carl Bldg., Research Dr., Box 3546 Duke University Medical Center, Durham, NC 27710., heitm001{at}mc.duke.edu (E-mail)

Communicating editor: M. D. ROSE

The immunosuppressive drugs FK506 and rapamycin bind to thecellular protein FKBP12, and the resulting FKBP12-drug complexesinhibit signal transduction. FKBP12 is a ubiquitous, highlyconserved, abundant enzyme that catalyzes a rate-limiting stepin protein folding: peptidyl-prolyl cis-trans isomerization.However, FKBP12 is dispensible for viability in both yeast andmice, and therefore does not play an essential role in proteinfolding. The functions of FKBP12 may involve interactions witha number of partner proteins, and a few proteins that interactwith FKBP12 in the absence of FK506 or rapamycin have been identified,including the ryanodine receptor, aspartokinase, and the typeII TGF-ß receptor; however, none of these are conservedfrom yeast to humans. To identify other targets and functionsof FKBP12, we have screened for mutations that are syntheticallylethal with an FKBP12 mutation in yeast. We find that mutationsin HMO1, which encodes a high mobility group 1/2 homolog, aresynthetically lethal with mutations in the yeast FPR1 gene encodingFKBP12. ${Delta}$ hmo1 and ${Delta}$ fpr1 mutants share two phenotypes: an increasedrate of plasmid loss and slow growth. In addition, Hmo1p andFKBP12 physically interact in FKBP12 affinity chromatographyexperiments, and two-hybrid experiments suggest that FKBP12regulates Hmo1p-Hmo1p or Hmo1p-DNA interactions. Because HMG1/2proteins are conserved from yeast to humans, our findings suggestthat FKBP12-HMG1/2 interactions could represent the first conservedfunction of FKBP12 other than mediating FK506 and rapamycinactions.

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