Heme bioavailability and signaling in response to stress in yeast cells

David A. Hanna; Rebecca Hu; Hyojung Kim; Osiris Martinez-Guzman; Matthew P. Torres; Amit R. Reddi

doi:10.1074/jbc.RA118.002125

Heme bioavailability and signaling in response to stress in yeast cells

¹Georgia Institute of Technology, United States
²Biology, Georgia Institute of Technology, United States

↵* Corresponding author; email: amit.reddi{at}chemistry.gatech.edu

Author contributions: D.A.H., R.H., H.K., and A.R.R. conceptualization; D.A.H., R.H., and H.K. data curation; D.A.H., H.K., M.P.T., and A.R.R. formal analysis; D.A.H. and O.M.-G. validation; D.A.H. and A.R.R. investigation; D.A.H., R.H., M.P.T., and A.R.R. methodology; D.A.H. and A.R.R. writing-original draft; D.A.H., M.P.T., and A.R.R. writing-review and editing; O.M.-G. resources; M.P.T. and A.R.R. supervision; M.P.T. project administration; A.R.R. funding acquisition.

Abstract

Protoheme (hereafter referred to as heme) is an essential cellular cofactor and signaling molecule that is also potentially cytotoxic. To mitigate heme toxicity, heme synthesis and degradation are tightly coupled to heme utilization in order to limit the intracellular concentration of “free” heme. Such a model, however, would suggest that a readily accessible steady-state, bioavailable labile heme (LH) pool is not required for supporting heme-dependent processes. Using the yeast Saccharomyces cerevisiae as a model and fluorescent heme sensors, site-specific heme chelators, and molecular genetic approaches, we found here that (1) yeast cells preferentially use LH in heme-depleted conditions; (2) sequestration of cytosolic LH suppresses heme signaling; and (3) lead (Pb²⁺) stress contributes to a decrease in total heme, but an increase in LH, which correlates with increased heme signaling. We also observed that the proteasome is involved in the regulation of the labile heme pool and that loss of proteasomal activity sensitizes cells to Pb²⁺ effects on heme homeostasis. Overall, these findings suggest an important role for LH in supporting heme-dependent functions in yeast physiology.