Stomata are epidermal pores that are essential for water evaporation and gas exchange in plants. Stomatal development is orchestrated by intrinsic developmental programs, hormonal controls, and environmental cues. The steroid hormone brassinosteroid (BR) inhibits stomatal lineage progression by regulating BIN2 and BSL proteins in leaves. Notably, BR is known to promote stomatal development in hypocotyls as opposed to leaves; however, its molecular mechanism remains elusive. Here, we show that BR signaling has a dual regulatory role in controlling stomatal development in Arabidopsis hypocotyls. We found that brassinolide (BL; the most active BR) regulates stomatal development differently in a concentration-dependent manner. At low and moderate concentrations, BL promoted stomatal formation by upregulating the expression of SPEECHLESS (SPCH) and its target genes independently of BIN2 regulation. In contrast, high concentrations of BL and bikinin, which is a specific inhibitor of BIN2 and its homologs, significantly reduced stomatal formation. Genetic analyses revealed that BIN2 regulates stomatal development in hypocotyls through molecular mechanisms distinct from the regulatory mechanism of the cotyledons. In hypocotyls, BIN2 promoted stomatal development by inactivating BZR1, which suppresses the expression of SPCH and its target genes. Taken together, our results suggest that BR precisely coordinates the stomatal development of hypocotyls using an antagonistic control of SPCH expression via BZR1-dependent and BZR1-independent transcriptional regulation.
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