Abstract
The target of rapamycin (TOR) kinase pathway regulates various biological processes, including translation, synthesis of ribosomal proteins, and transcription of rRNA. The ribosomal protein S6 (RPS6) is one of the well known downstream components of the TOR pathway. Ribosomal proteins have been known to have diverse functions in regulating cellular metabolism as well as protein synthesis. So far, however, little is known about other possible role(s) of RPS6 in plants, besides being a component of the 40 S ribosomal subunit and acting as a target of TOR. Here, we report that RPS6 may have a novel function via interaction with histone deacetylase 2B (AtHD2B) that belongs to the plant-specific histone deacetylase HD2 family. RPS6 and AtHD2B were localized to the nucleolus. Co-expression of RPS6 and AtHD2B caused a change in the location of both RPS6 and AtHD2B to one or several nucleolar spots. ChIP analysis suggests that RPS6 directly interacts with the rRNA gene promoter. Protoplasts overexpressing both AtHD2B and RPS6 exhibited down-regulation of pre-18 S rRNA synthesis with a concomitant decrease in transcription of some of the ribosomal proteins, suggesting their direct role in ribosome biogenesis and plant development. This is consistent with the mutation in rps6b that results in reduction in 18 S rRNA transcription and decreased root growth. We propose that the interaction between RPS6 and AtHD2B brings about a change in the chromatin structure of rDNA and thus plays an important role in linking TOR signaling to rDNA transcription and ribosome biogenesis in plants.
Highlights
Ribosomal protein S6 has been known to be a key downstream effector of the target of rapamycin (TOR) signaling pathway
Identification of Proteins Interacting with the ribosomal protein S6 (RPS6) C Terminus—To isolate potential candidates for the interacting partners of RPS6, total soluble proteins extracted from Arabidopsis suspension cells were applied to an affinity column containing GST-fused RPS6 protein
Regulation of ribosomal RNAs (rRNAs) Genes via Histone Deacetylases—Multiple mechanisms have been implicated in the regulation of rRNA gene transcription (1, 4)
Summary
Ribosomal protein S6 has been known to be a key downstream effector of the TOR signaling pathway. The target of rapamycin (TOR) kinase pathway regulates various biological processes, including translation, synthesis of ribosomal proteins, and transcription of rRNA. ChIP analysis suggests that RPS6 directly interacts with the rRNA gene promoter Protoplasts overexpressing both AtHD2B and RPS6 exhibited down-regulation of pre-18 S rRNA synthesis with a concomitant decrease in transcription of some of the ribosomal proteins, suggesting their direct role in ribosome biogenesis and plant development. This is consistent with the mutation in rps6b that results in reduction in 18 S rRNA transcription and decreased root growth. Such an interaction can provide a direct link between stress signals and the regulation of translation and transcription ( rDNA) machineries controlling plant growth
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