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Ribosomal-processing cysteine protease homolog modulates Streptococcus mutans glucan production and interkingdom interactions

Glucan-dependent biofilm formation is a crucial process in the establishment of as a cariogenic oral microbe. The process of glucan formation has been investigated in great detail, with glycosyltransferases GtfB, GtfC, and GtfD shown to be indispensable for the synthesis of glucans from sucrose. Glu...

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Bibliographic Details
Published in:Journal of bacteriology 2024-07, Vol.206 (7), p.e0010424
Main Authors: Treerat, Puthayalai, de Mattos, Camilla, Burnside, Molly, Zhang, Hua, Zhu, Yanting, Zou, Zhengzhong, Anderson, David, Wu, Hui, Merritt, Justin, Kreth, Jens
Format: Article
Language:English
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Summary:Glucan-dependent biofilm formation is a crucial process in the establishment of as a cariogenic oral microbe. The process of glucan formation has been investigated in great detail, with glycosyltransferases GtfB, GtfC, and GtfD shown to be indispensable for the synthesis of glucans from sucrose. Glucan production can be visualized during biofilm formation through fluorescent labeling, and its abundance, as well as the effect of glucans on general biofilm architecture, is a common phenotype to study virulence regulation. Here, we describe an entirely new phenotype associated with glucan production, caused by a mutation in the open reading frame SMU_848, which is located in an operon encoding ribosome-associated proteins. This mutation led to the excess production and accumulation of glucan-containing droplets on the surface of biofilms formed on agar plates after prolonged incubation. While not characterized in , SMU_848 shows homology to the phage-related ribosomal protease Prp, essential in cleaving off the N-terminal extension of ribosomal protein L27 for functional ribosome assembly in . We present a further characterization of SMU_848/Prp, demonstrating that the deletion of this gene leads to significant changes in expression. Surprisingly, it also profoundly impacts the interkingdom interaction between and , a relevant dual-species interaction implicated in severe early childhood caries. The presented data support a potential broader role for SMU_848/Prp, possibly extending its functionality beyond the ribosomal network to influence important ecological processes. is an important member of the oral biofilm and is implicated in the initiation of caries. One of the main virulence mechanisms is the glucan-dependent formation of biofilms. We identified a new player in the regulation of glucan production, SMU_848, which is part of an operon that also encodes for ribosomal proteins L27 and L21. A mutation in SMU_848, which encodes a phage-related ribosomal protease Prp, leads to a significant accumulation of glucan-containing droplets on biofilms, a previously unknown phenotype. Further investigations expanded our knowledge about the role of SMU_848 beyond its role in glucan production, including significant involvement in interkingdom interactions, thus potentially playing a global role in the virulence regulation of .
ISSN:0021-9193
1098-5530
1098-5530
DOI:10.1128/jb.00104-24