ZmbHLH80 and ZmbHLH90 transcription factors act antagonistically and contribute to regulate PEPC1 cell-specific gene expression in maize.

Compartmentation of photosynthetic reactions between mesophyll and bundle sheath cells is a key feature of C-4 photosynthesis and depends on the cell-specific accumulation of major C-4 enzymes, such as phosphoenolpyruvate carboxylase 1. The ZmPEPC1 upstream region, which drives light-inducible and mesophyll-specific gene expression in maize, has been shown to keep the same properties when introduced into rice (C-3 plant), indicating that rice has the transcription factors (TFs) needed to confer C-4-like gene expression. Using a yeast one-hybrid approach, we identified OsbHLH112, a rice basic Helix-Loop-Helix (bHLH) TF that interacts with the maize ZmPEPC1 upstream region. Moreover, we found that maize OsbHLH112 homologues, ZmbHLH80, and ZmbHLH90, also interact with the ZmPEPC1 upstream region, suggesting that these C-4 regulators were co-opted from C-3 plants. A transactivation assay in maize mesophyll protoplasts revealed that ZmbHLH80 represses, whereas ZmbHLH90 activates, ZmPEPC1 expression. In addition, ZmbHLH80 was shown to impair the ZmPEPC1 promoter activation caused by ZmbHLH90. We showed that ZmbHLH80 and ZmbHLH90 bind to the same cis-element within the ZmPEPC1 upstream region either as homodimers or heterodimers. The formation of homo- and heterodimers with higher oligomeric forms promoted by ZmbHLH80 may explain its negative effect on gene transcription. Gene expression analysis revealed that ZmbHLH80 is preferentially expressed in bundle sheath cells, whereas ZmbHLH90 does not show a clear cell-specific expression pattern. Altogether, our results led us to propose a model in which ZmbHLH80 contributes to mesophyll-specific ZmPEPC1 gene expression by impairing ZmbHLH90-mediated ZmPEPC1 activation in the bundle sheath cells. Significance Statement Cell-specific accumulation of major C4 enzymes is a hallmark of C4 photosynthesis. The ZmPEPC1 upstream region is sufficient to drive mesophyll-specific gene expression in maize (C4 plant) and rice (C3 plant). Here, we report the identification of a rice bHLH TF and its two maize homologues that bind to the ZmPEPC1 upstream region. In addition, we propose a model in which the identified maize TFs contribute to mesophyll-specific ZmPEPC1 expression.