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1.
J Bacteriol ; 205(7): e0008723, 2023 07 25.
Artículo en Inglés | MEDLINE | ID: mdl-37341600

RESUMEN

Streptococcus pneumoniae is an agent of otitis media, septicemia, and meningitis and remains the leading cause of community-acquired pneumonia regardless of vaccine use. Of the various strategies that S. pneumoniae takes to enhance its potential to colonize the human host, quorum sensing (QS) is an intercellular communication process that provides coordination of gene expression at a community level. Numerous putative QS systems are identifiable in the S. pneumoniae genome, but their gene-regulatory activities and contributions to fitness have yet to be fully evaluated. To contribute to assessing regulatory activities of rgg paralogs present in the D39 genome, we conducted transcriptomic analysis of mutants of six QS regulators. Our results find evidence that at least four QS regulators impact the expression of a polycistronic operon (encompassing genes spd_1517 to spd_1513) that is directly controlled by the Rgg/SHP1518 QS system. As an approach to unravel the convergent regulation placed on the spd_1513-1517 operon, we deployed transposon mutagenesis screening in search of upstream regulators of the Rgg/SHP1518 QS system. The screen identified two types of insertion mutants that result in increased activity of Rgg1518-dependent transcription, one type being where the transposon inserted into pepO, an annotated endopeptidase, and the other type being insertions in spxB, a pyruvate oxidase. We demonstrate that pneumococcal PepO degrades SHP1518 to prevent activation of Rgg/SHP1518 QS. Moreover, the glutamic acid residue in the conserved "HExxH" domain is indispensable for the catalytic function of PepO. Finally, we confirmed the metalloendopeptidase property of PepO, which requires zinc ions, but not other ions, to facilitate peptidyl hydrolysis. IMPORTANCE Streptococcus pneumoniae uses quorum sensing to communicate and regulate virulence. In our study, we focused on one Rgg quorum sensing system (Rgg/SHP1518) and found that multiple other Rgg regulators also control it. We further identified two enzymes that inhibit Rgg/SHP1518 signaling and revealed and validated one enzyme's mechanisms for breaking down quorum sensing signaling molecules. Our findings shed light on the complex regulatory network of quorum sensing in Streptococcus pneumoniae.


Asunto(s)
Percepción de Quorum , Streptococcus pneumoniae , Humanos , Percepción de Quorum/fisiología , Streptococcus pneumoniae/genética , Proteínas Bacterianas/genética , Virulencia , Unión Proteica , Regulación Bacteriana de la Expresión Génica
2.
mBio ; 13(4): e0124722, 2022 08 30.
Artículo en Inglés | MEDLINE | ID: mdl-35852327

RESUMEN

Streptococcus pneumoniae, an opportunistic human pathogen, is the leading cause of community-acquired pneumonia and an agent of otitis media, septicemia, and meningitis. Although genomic and transcriptomic studies of S. pneumoniae have provided detailed perspectives on gene content and expression programs, they have lacked information pertaining to the translational landscape, particularly at a resolution that identifies commonly overlooked small open reading frames (sORFs), whose importance is increasingly realized in metabolism, regulation, and virulence. To identify protein-coding sORFs in S. pneumoniae, antibiotic-enhanced ribosome profiling was conducted. Using translation inhibitors, 114 novel sORFs were detected, and the expression of a subset of them was experimentally validated. Two loci associated with virulence and quorum sensing were examined in deeper detail. One such sORF, rio3, overlaps with the noncoding RNA srf-02 that was previously implicated in pathogenesis. Targeted mutagenesis parsing rio3 from srf-02 revealed that rio3 is responsible for the fitness defect seen in a murine nasopharyngeal colonization model. Additionally, two novel sORFs located adjacent to the quorum sensing receptor rgg1518 were found to impact regulatory activity. Our findings emphasize the importance of sORFs present in the genomes of pathogenic bacteria and underscore the utility of ribosome profiling for identifying the bacterial translatome. IMPORTANCE This work employed pleuromutilin-assisted ribosome profiling using retapamulin (Ribo-RET) to identify genome-wide translation start sites in the human pathogen Streptococcus pneumoniae. We identified 114 unannotated intergenic small open reading frames (sORFs). The described procedures and data sets provide a model for microbiologists seeking to explore the translational landscape of bacteria. The biological roles of four sORF examples are characterized: two control the regulation of a cell-cell communication (quorum sensing) system, one contributes to the ability of S. pneumoniae to colonize the upper respiratory tract of mice, and a fourth governs the translation of PrfB, a protein enabling ribosome release at stop codons. We propose that Ribo-RET is a valuable approach to identifying unstudied microproteins and difficult-to-find pheromone genes used by Gram-positive organisms, whose genomes are replete with pheromone receptors.


Asunto(s)
Percepción de Quorum , Streptococcus pneumoniae , Animales , Humanos , Ratones , Sistemas de Lectura Abierta , Percepción de Quorum/genética , Ribosomas/genética , Ribosomas/metabolismo , Streptococcus pneumoniae/genética , Virulencia
4.
mBio ; 12(2)2021 03 16.
Artículo en Inglés | MEDLINE | ID: mdl-33727351

RESUMEN

The genus Streptococcus encompasses a large bacterial taxon that commonly colonizes mucosal surfaces of vertebrates and is capable of disease etiologies originating from diverse body sites, including the respiratory, digestive, and reproductive tracts. Identifying new modes of treating infections is of increasing importance, as antibiotic resistance has escalated. Streptococcus mutans is an important opportunistic pathogen that is an agent of dental caries and is capable of systemic diseases such as endocarditis. As such, understanding how it regulates virulence and competes in the oral niche is a priority in developing strategies to defend from these pathogens. We determined that S. mutans UA159 possesses a bona fide short hydrophobic peptide (SHP)/Rgg quorum-sensing system that regulates a specialized biosynthetic operon featuring a radical-SAM (S-adenosyl-l-methionine) (RaS) enzyme and produces a ribosomally synthesized and posttranslationally modified peptide (RiPP). The pairing of SHP/Rgg regulatory systems with RaS biosynthetic operons is conserved across streptococci, and a locus similar to that in S. mutans is found in Streptococcus ferus, an oral streptococcus isolated from wild rats. We identified the RaS-RiPP product from this operon and solved its structure using a combination of analytical methods; we term these RiPPs tryglysin A and B for the unusual Trp-Gly-Lys linkage. We report that tryglysins specifically inhibit the growth of other streptococci, but not other Gram-positive bacteria such as Enterococcus faecalis or Lactococcus lactis We predict that tryglysin is produced by S. mutans in its oral niche, thus inhibiting the growth of competing species, including several medically relevant streptococci.IMPORTANCE Bacteria interact and compete with a large community of organisms in their natural environment. Streptococcus mutans is one such organism, and it is an important member of the oral microbiota. We found that S. mutans uses a quorum-sensing system to regulate production of a novel posttranslationally modified peptide capable of inhibiting growth of several streptococcal species. We find inhibitory properties of a similar peptide produced by S. ferus and predict that these peptides play a role in interspecies competition in the oral niche.


Asunto(s)
Antibacterianos/química , Antibacterianos/farmacología , Regulación Bacteriana de la Expresión Génica , Percepción de Quorum/genética , Streptococcus mutans/genética , Streptococcus mutans/metabolismo , Streptococcus/efectos de los fármacos , Animales , Antibacterianos/biosíntesis , Boca/microbiología , Operón/genética , Péptidos/metabolismo , Péptidos/farmacología , Ratas , Streptococcus/genética , Streptococcus/aislamiento & purificación , Streptococcus mutans/química
5.
Proc Natl Acad Sci U S A ; 118(13)2021 03 30.
Artículo en Inglés | MEDLINE | ID: mdl-33753501

RESUMEN

During infection, pathogenic microbes adapt to the nutritional milieu of the host through metabolic reprogramming and nutrient scavenging. For the bacterial pathogen Staphylococcus aureus, virulence in diverse infection sites is driven by the ability to scavenge myriad host nutrients, including lipoic acid, a cofactor required for the function of several critical metabolic enzyme complexes. S. aureus shuttles lipoic acid between these enzyme complexes via the amidotransferase, LipL. Here, we find that acquisition of lipoic acid, or its attachment via LipL to enzyme complexes required for the generation of acetyl-CoA and branched-chain fatty acids, is essential for bacteremia, yet dispensable for skin infection in mice. A lipL mutant is auxotrophic for carboxylic acid precursors required for synthesis of branched-chain fatty acids, an essential component of staphylococcal membrane lipids and the agent of membrane fluidity. However, the skin is devoid of branched-chain fatty acids. We showed that S. aureus instead scavenges host-derived unsaturated fatty acids from the skin using the secreted lipase, Geh, and the unsaturated fatty acid-binding protein, FakB2. Moreover, murine infections demonstrated the relevance of host lipid assimilation to staphylococcal survival. Altogether, these studies provide insight into an adaptive trait that bypasses de novo lipid synthesis to facilitate S. aureus persistence during superficial infection. The findings also reinforce the inherent challenges associated with targeting bacterial lipogenesis as an antibacterial strategy and support simultaneous inhibition of host fatty acid salvage during treatment.


Asunto(s)
Proteínas Bacterianas/metabolismo , Ácidos Grasos Insaturados/deficiencia , Interacciones Huésped-Patógeno , Lipoilación , Infecciones Estafilocócicas/microbiología , Staphylococcus aureus/metabolismo , Staphylococcus aureus/patogenicidad , Ácido Tióctico/deficiencia , Animales , Membrana Celular/metabolismo , Modelos Animales de Enfermedad , Lipasa/metabolismo , Lipogénesis/genética , Ratones , Especificidad de Órganos , Piel/metabolismo , Piel/microbiología , Staphylococcus aureus/genética
6.
Mol Microbiol ; 109(2): 150-168, 2018 Jul.
Artículo en Inglés | MEDLINE | ID: mdl-29660187

RESUMEN

Lipoic acid is a cofactor required for intermediary metabolism that is either synthesized de novo or acquired from environmental sources. The bacterial pathogen Staphylococcus aureus encodes enzymes required for de novo biosynthesis, but also encodes two ligases, LplA1 and LplA2, that are sufficient for lipoic acid salvage during infection. S. aureus also encodes two H proteins, GcvH of the glycine cleavage system and the homologous GcvH-L encoded in an operon with LplA2. GcvH is a recognized conduit for lipoyl transfer to α-ketoacid dehydrogenase E2 subunits, while the function of GcvH-L remains unclear. The potential to produce two ligases and two H proteins is an unusual characteristic of S. aureus that is unlike most other Gram positive Firmicutes and might allude to an expanded pathway of lipoic acid acquisition in this microorganism. Here, we demonstrate that LplA1 and LplA2 facilitate lipoic acid salvage by differentially targeting lipoyl domain-containing proteins; LplA1 targets H proteins and LplA2 targets α-ketoacid dehydrogenase E2 subunits. Furthermore, GcvH and GcvH-L both facilitate lipoyl relay to E2 subunits. Altogether, these studies identify an expanded mode of lipoic acid salvage used by S. aureus and more broadly underscore the importance of bacterial adaptations when faced with nutritional limitation.

7.
Cell Host Microbe ; 22(5): 678-687.e9, 2017 Nov 08.
Artículo en Inglés | MEDLINE | ID: mdl-29056428

RESUMEN

The virulence factors of pathogenic microbes often have single functions that permit immune suppression. However, a proportion possess multiple activities and are considered moonlighting proteins. By examining secreted virulence factors of Staphylococcus aureus, we determine that the bacterial lipoic acid synthetase LipA suppresses macrophage activation. LipA is known to modify the E2 subunit of the metabolic enzyme complex pyruvate dehydrogenase (E2-PDH) with a fatty acid derivative, lipoic acid, yielding the metabolic protein lipoyl-E2-PDH. We demonstrate that lipoyl-E2-PDH is also released by S. aureus and moonlights as a macrophage immunosuppressant by reducing Toll-like receptor 1/2 (TLR1/2) activation by bacterial lipopeptides. A LipA-deficient strain induces heightened pro-inflammatory cytokine production, which is diminished in the absence of TLR2. During murine systemic infection, LipA suppresses pro-inflammatory macrophage activation, rendering these cells inefficient at controlling infection. These observations suggest that bacterial metabolism and immune evasion are linked by virtue of this moonlighting protein.


Asunto(s)
Proteínas Bacterianas/antagonistas & inhibidores , Activación de Macrófagos/efectos de los fármacos , Activación de Macrófagos/inmunología , Infecciones Estafilocócicas/inmunología , Staphylococcus aureus/inmunología , Staphylococcus aureus/metabolismo , Factores de Virulencia/antagonistas & inhibidores , Animales , Proteínas Bacterianas/genética , Proteínas Bacterianas/metabolismo , Médula Ósea , Técnicas de Cultivo de Célula , Citocinas/metabolismo , ADN Bacteriano/aislamiento & purificación , Dihidrolipoamida Deshidrogenasa/inmunología , Modelos Animales de Enfermedad , Femenino , Interacciones Huésped-Parásitos/inmunología , Evasión Inmune , Inmunidad Innata , Macrófagos/inmunología , Ratones , Complejo Piruvato Deshidrogenasa/inmunología , Proteínas Recombinantes , Eliminación de Secuencia , Staphylococcus aureus/genética , Staphylococcus aureus/patogenicidad , Ácido Tióctico/metabolismo , Receptor Toll-Like 1/metabolismo , Receptor Toll-Like 2/metabolismo , Factores de Virulencia/inmunología
8.
J Assoc Res Otolaryngol ; 16(6): 695-712, 2015 Dec.
Artículo en Inglés | MEDLINE | ID: mdl-26463873

RESUMEN

SLC44A2 (solute carrier 44a2), also known as CTL2 (choline transporter-like protein 2), is expressed in many supporting cell types in the cochlea and is implicated in hair cell survival and antibody-induced hearing loss. In mice with the mixed C57BL/6-129 background, homozygous deletion of Slc44a2 exons 3­10 (Slc44a2(Δ/Δ)resulted in high-frequency hearing loss and hair cell death. To reduce effects associated with age-related hearing loss (ARHL) in these strains, mice carrying the Slc44a2Δ allele were backcrossed to the ARHL-resistant FVB/NJ strain and evaluated after backcross seven(N7) (99 % FVB). Slc44a2(Δ/Δ) mice produced abnormally spliced Slc44a2 transcripts that contain a frame shift and premature stop codons. Neither full-length SLC44A2 nor a putative truncated protein could be detected in Slc44a2(Δ/Δ) mice, suggesting a likely null allele. Auditory brain stem responses (ABRs) of mice carrying the Slc44a2Δ allele on an FVB/NJ genetic background were tested longitudinally between the ages of 2 and 10 months. By 6 months of age,Slc44a2(Δ/Δ) mice exhibited hearing loss at 32 kHz,but at 12 and 24 kHz had sound thresholds similar to those of wild-type Slc44a2(+/+) and heterozygous +/Slc44a2Δ mice. After 6 months of age, Slc44a2(Δ/Δ) mutants exhibited progressive hearing loss at all frequencies and +/Slc44a2(Δ) mice exhibited moderate threshold elevations at high frequency. Histologic evaluation of Slc44a2(Δ/Δ) mice revealed extensive hair cell and spiral ganglion cell loss, especially in the basal turn of the cochlea. We conclude that Slc44a2 function is required for long-term hair cell survival and maintenance of hearing.


Asunto(s)
Células Ciliadas Auditivas/patología , Pérdida Auditiva Sensorineural/genética , Proteínas de Transporte de Membrana/genética , Ganglio Espiral de la Cóclea/patología , Secuencia de Aminoácidos , Animales , Femenino , Eliminación de Gen , Pérdida Auditiva Sensorineural/patología , Masculino , Ratones Endogámicos C57BL , Ratones Transgénicos , Datos de Secuencia Molecular
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