Chris Carrie scite author profile

Compartmentation of the eukaryotic cell requires a complex set of subcellular messages, including multiple retrograde signals from the chloroplast and mitochondria to the nucleus, to regulate gene expression. Here, we propose that one such signal is a phosphonucleotide (39-phosphoadenosine 59-phosphate [PAP]), which accumulates in Arabidopsis thaliana in response to drought and high light (HL) stress and that the enzyme SAL1 regulates its levels by dephosphorylating PAP to AMP. SAL1 accumulates in chloroplasts and mitochondria but not in the cytosol. sal1 mutants accumulate 20-fold more PAP without a marked change in inositol phosphate levels, demonstrating that PAP is a primary in vivo substrate. Significantly, transgenic targeting of SAL1 to either the nucleus or chloroplast of sal1 mutants lowers the total PAP levels and expression of the HL-inducible ASCORBATE PEROXIDASE2 gene. This indicates that PAP must be able to move between cellular compartments. The mode of action for PAP could be inhibition of 59 to 39 exoribonucleases (XRNs), as SAL1 and the nuclear XRNs modulate the expression of a similar subset of HL and drought-inducible genes, sal1 mutants accumulate XRN substrates, and PAP can inhibit yeast (Saccharomyces cerevisiae) XRNs. We propose a SAL1-PAP retrograde pathway that can alter nuclear gene expression during HL and drought stress.

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A Membrane-Bound NAC Transcription Factor, ANAC017, Mediates Mitochondrial Retrograde Signaling in Arabidopsis

Ivanova

Duncan

et al. 2013

308

435

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Plants require daily coordinated regulation of energy metabolism for optimal growth and survival and therefore need to integrate cellular responses with both mitochondrial and plastid retrograde signaling. Using a forward genetic screen to characterize regulators of alternative oxidase1a (rao) mutants, we identified RAO2/Arabidopsis NAC domain-containing protein17 (ANAC017) as a direct positive regulator of AOX1a. RAO2/ANAC017 is targeted to connections and junctions in the endoplasmic reticulum (ER) and F-actin via a C-terminal transmembrane (TM) domain. A consensus rhomboid protease cleavage site is present in ANAC017 just prior to the predicted TM domain. Furthermore, addition of the rhomboid protease inhibitor N-p-Tosyl-L-Phe chloromethyl abolishes the induction of AOX1a upon antimycin A treatment. Simultaneous fluorescent tagging of ANAC017 with N-terminal red fluorescent protein (RFP) and C-terminal green fluorescent protein (GFP) revealed that the N-terminal RFP domain migrated into the nucleus, while the C-terminal GFP tag remained in the ER. Genome-wide analysis of the transcriptional network regulated by RAO2/ANAC017 under stress treatment revealed that RAO2/ANAC017 function was necessary for >85% of the changes observed as a primary response to cytosolic hydrogen peroxide (H 2 O 2 ), but only ;33% of transcriptional changes observed in response to antimycin A treatment. Plants with mutated rao2/anac017 were more stress sensitive, whereas a gain-of-function mutation resulted in plants that had lower cellular levels of H 2 O 2 under untreated conditions. INTRODUCTIONMitochondria and plastids (chloroplasts) are composed of ;1500 and ;3000 proteins, respectively, with >95% of these proteins encoded by nuclear-located genes (Woodson and Chory, 2008). It has been shown that two-way communication pathways exist between the nucleus and mitochondria and chloroplasts, called anterograde and retrograde signaling pathways (Rhoads and Subbaiah, 2007;Woodson and Chory, 2008). Anterograde regulation refers to a top-down regulatory pathway, where signals have a direct impact on gene expression in the nucleus. Conversely, nuclear gene expression is also influenced by signals that originate from within the organelles, mitochondria, or chloroplasts and is referred to as retrograde regulation.Several components involved in plastid retrograde signaling have been identified, with at least five different pathways characterized: reactive oxygen species (ROS), redox signals, plastidial gene expression, pigment biosynthesis, and specific signaling metabolites (Pfannschmidt, 2010). The most intensively studied retrograde signaling pathway is in the genomes uncoupled (gun) mutants that uncouple the expression of nuclear-encoded chloroplastic proteins from the functional state of chloroplasts (Susek et al., 1993). A recently identified plastid-bound transcription factor, PTM (plant homeodomaintype transcription factor with transmembrane [TM] domains), was also identified as a regulator for plastid retrograde signaling and acts do...

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Chris Carrie

Evidence for a SAL1-PAP Chloroplast Retrograde Pathway That Functions in Drought and High Light Signaling in Arabidopsis

A Membrane-Bound NAC Transcription Factor, ANAC017, Mediates Mitochondrial Retrograde Signaling in Arabidopsis

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