Genetics and cell biology of vancomycin resistance in clostridioides difficile

Detalhes bibliográficos
Autor(a) principal: Henriques, Bruna
Data de Publicação: 2024
Tipo de documento: Dissertação
Idioma: eng
Título da fonte: Repositórios Científicos de Acesso Aberto de Portugal (RCAAP)
Texto Completo: http://hdl.handle.net/10362/181477
Resumo: Abstract: Clostridioides difficile infections (CDI) significantly affect thousands of individuals globally and impose a substantial burden on healthcare facilities. The standard treatment for CDI is Vancomycin (VAN), whose lethal target is the D-alanyl-D-alanine (D-Ala-D-Ala) motif in lipid II, which inhibits proper peptidoglycan (PG) polymerization. Some pathogens harbour van clusters that confer resistance to VAN by producing lipid II with a D-alanyl-D-serine (D-Ala-D-Ser) motif, with reduced VAN binding affinity. C. difficile possesses a vanG-type cluster, which is induced in the presence of VAN but does not raise the minimum inhibitory concentration (MIC) significantly (MIC < 2 mg/L). While other pathogens with vanG clusters exhibit significantly higher MICs (16 mg/L), no epidemic C. difficile strains with comparable resistance have been described. We hypothesize that C. difficile has intrinsic limiting factors (bottlenecks) that prevent expression of higher resistance levels. Here, we reveal three frequently mutated genes in our VAN-resistant (VANR ) isolates: sdaB, murG and vanS. Deletion of sdaB, which codes for a L-serine deaminase that produces pyruvate from L-serine, had been previously shown to result in elevated VAN resistance (MIC 4 mg/L). A mutation in murG, essential for lipid II synthesis, had also been linked to increased resistance (MIC 16 mg/L). Additionally, mutations in vanS, which encodes the sensor kinase required for transcription of the vanG cluster, resulted in increased expression of the cluster in VANR isolates. Altogether, these mutations suggest that the intracellular pool of serine, the level of expression of the vanG cluster and murG activity towards D-Ala-D-Ser substrates may be bottlenecks that prevent VAN resistance. To assess the roles of the vanS, sdaB and murG in VAN resistance, we first deleted the vanRS operon in an otherwise WT background and in a sdaB deletion mutant. Using VAN gradient plates we found that the deletion of vanRS is epistatic over sdaB indicating that the VanRS system is required for the increased resistance to VAN caused by the sdaB mutation and hence that the two vanRS and sdaB genes function in the same pathway. We also found that: i) vanS alleles coding for constitutively active forms of VanS do not result in increased resistance to VAN per se, or in the presence of the sdaB mutation; ii) the murG alleles did not increase resistance to VAN in an otherwise WT background. Since the increased resistance caused by sdaB requires VanRS but increased activity of VanRS does not confer increased resistance to VAN, even in the presence of a sdaB deletion, a third bottleneck may exist. This third bottleneck may involve the level of expression and/or activity of MurG but this remains to be tested. In all, our results highlight the role of serine availability in conjunction with the vanRS system in VAN resistance. Our results also reinforce the view that VAN resistance rises by different pathways in C. difficile.
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spelling Genetics and cell biology of vancomycin resistance in clostridioides difficileClostridioides difficile infectionVancomycinResistance mechanismsBottlenecks to Vancomycin resistanceSaúdeAbstract: Clostridioides difficile infections (CDI) significantly affect thousands of individuals globally and impose a substantial burden on healthcare facilities. The standard treatment for CDI is Vancomycin (VAN), whose lethal target is the D-alanyl-D-alanine (D-Ala-D-Ala) motif in lipid II, which inhibits proper peptidoglycan (PG) polymerization. Some pathogens harbour van clusters that confer resistance to VAN by producing lipid II with a D-alanyl-D-serine (D-Ala-D-Ser) motif, with reduced VAN binding affinity. C. difficile possesses a vanG-type cluster, which is induced in the presence of VAN but does not raise the minimum inhibitory concentration (MIC) significantly (MIC < 2 mg/L). While other pathogens with vanG clusters exhibit significantly higher MICs (16 mg/L), no epidemic C. difficile strains with comparable resistance have been described. We hypothesize that C. difficile has intrinsic limiting factors (bottlenecks) that prevent expression of higher resistance levels. Here, we reveal three frequently mutated genes in our VAN-resistant (VANR ) isolates: sdaB, murG and vanS. Deletion of sdaB, which codes for a L-serine deaminase that produces pyruvate from L-serine, had been previously shown to result in elevated VAN resistance (MIC 4 mg/L). A mutation in murG, essential for lipid II synthesis, had also been linked to increased resistance (MIC 16 mg/L). Additionally, mutations in vanS, which encodes the sensor kinase required for transcription of the vanG cluster, resulted in increased expression of the cluster in VANR isolates. Altogether, these mutations suggest that the intracellular pool of serine, the level of expression of the vanG cluster and murG activity towards D-Ala-D-Ser substrates may be bottlenecks that prevent VAN resistance. To assess the roles of the vanS, sdaB and murG in VAN resistance, we first deleted the vanRS operon in an otherwise WT background and in a sdaB deletion mutant. Using VAN gradient plates we found that the deletion of vanRS is epistatic over sdaB indicating that the VanRS system is required for the increased resistance to VAN caused by the sdaB mutation and hence that the two vanRS and sdaB genes function in the same pathway. We also found that: i) vanS alleles coding for constitutively active forms of VanS do not result in increased resistance to VAN per se, or in the presence of the sdaB mutation; ii) the murG alleles did not increase resistance to VAN in an otherwise WT background. Since the increased resistance caused by sdaB requires VanRS but increased activity of VanRS does not confer increased resistance to VAN, even in the presence of a sdaB deletion, a third bottleneck may exist. This third bottleneck may involve the level of expression and/or activity of MurG but this remains to be tested. In all, our results highlight the role of serine availability in conjunction with the vanRS system in VAN resistance. Our results also reinforce the view that VAN resistance rises by different pathways in C. difficile.Resumo: As infeções por Clostridioides difficile (ICD) afetam milhares de pessoas globalmente e causam elevados custos a instituições de saúde. O tratamento padrão é a Vancomicina (VAN) que atua contra C. difficile devido a efetuar ligações com motivos D-alanil-D-alanina (D-Ala-D-Ala) do lípido II, inibindo a polimerização de peptidoglicano (PG). Alguns microrganismos adquiriram clusters van como mecanismo de resistência. Em particular, o cluster vanG permite a síntese de motivos D-alanil-D-serina (D-Ala-D-Ser), que têm uma afinidade reduzida para VAN. C. difficile possui um cluster do tipo vanG, cuja expressão é promovida na presença de VAN. Contrariamente a outros organismos patogénicos, cuja aquisição do cluster confere elevados níveis de resistência [concentração inibitória mínima (CIM) 16 mg/L], a maioria dos isolados clínicos de C. difficile é suscetível a VAN (CIM < 2 mg/L) e ainda não foram descritas estirpes epidémicas de C. difficile com resistência comparável. Por esta razão, apresentamos a hipótese de que existem fatores limitantes que impedem a expressão de níveis mais elevados de resistência. Neste trabalho, revelamos os três genes que mais frequentemente sofreram mutações nos nossos isolados laboratoriais resistentes a VAN (VANR ): sdaB, murG e vanS. Anteriormente foi demostrado que a deleção de sdaB, que codifica uma enzima que produz piruvato a partir de L-serina, resulta em resistência aumentada (CIM 4 mg/L). Quanto a murG, que é essencial para a síntese do lípido II, havia também uma mutação associada ao aumento de resistência (CIM 16 mg/L). Adicionalmente, mutações em vanS, uma cinase sensora do cluster vanG, resultam frequentemente num aumento da expressão do operão vanG em isolados VANR . Em suma, estas mutações sugerem que o pool intracelular de serina, o nível de expressão do cluster vanG e a atividade de murG para substratos D-Ala-D-Ser podem ser limitações à expressão de resistência a VAN. Para avaliar o papel de vanS, sdaB e murG, inicialmente deletámos o operão vanRS numa estirpe selvagem (WT) e num mutante de deleção de sdaB. Através do uso de placas de gradiente descobrimos que a deleção vanRS é epistática sobre sdaB, o que indica que o sistema VanRS é necessário para o aumento de resistência conferido pela deleção de sdaB e, consequentemente, que os genes vanS e sdaB afetam o mesmo mecanismo. Também descobrimos que: i) alelos vanS, codificantes de formas constitutivamente ativas de VanS, não aumentam a resistência a VAN per si ou na presença da mutação sdaB, ii) os alelos murG não aumentaram a resistência a VAN na estirpe WT. Uma vez que a resistência gerada por ΔsdaB requer o sistema VanRS, mas o aumento de atividade de VanRS não confere aumento de resistência, um terceiro fator limitante pode existir. Este pode envolver o nível de expressão e/ou atividade de murG, mas tal permanece por testar. No geral, os nossos resultados destacam o papel da disponibilidade de serina em conjunto com o sistema vanRS na resistência à VAN. Os nossos resultados também reforçam a ideia de que a resistência à VAN surge por diferentes vias em C. difficile.Henriques, Adriano O.Serrano, MónicaRUNHenriques, Bruna2025-03-122024-11-112028-03-12T00:00:00Z2025-03-12T00:00:00Zinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisapplication/pdfhttp://hdl.handle.net/10362/181477TID:203929152enginfo:eu-repo/semantics/embargoedAccessreponame:Repositórios Científicos de Acesso Aberto de Portugal (RCAAP)instname:FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiainstacron:RCAAP2025-03-31T02:06:48Zoai:run.unl.pt:10362/181477Portal AgregadorONGhttps://www.rcaap.pt/oai/openaireinfo@rcaap.ptopendoar:https://opendoar.ac.uk/repository/71602025-05-29T04:42:30.719184Repositórios Científicos de Acesso Aberto de Portugal (RCAAP) - FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiafalse
dc.title.none.fl_str_mv Genetics and cell biology of vancomycin resistance in clostridioides difficile
title Genetics and cell biology of vancomycin resistance in clostridioides difficile
spellingShingle Genetics and cell biology of vancomycin resistance in clostridioides difficile
Henriques, Bruna
Clostridioides difficile infection
Vancomycin
Resistance mechanisms
Bottlenecks to Vancomycin resistance
Saúde
title_short Genetics and cell biology of vancomycin resistance in clostridioides difficile
title_full Genetics and cell biology of vancomycin resistance in clostridioides difficile
title_fullStr Genetics and cell biology of vancomycin resistance in clostridioides difficile
title_full_unstemmed Genetics and cell biology of vancomycin resistance in clostridioides difficile
title_sort Genetics and cell biology of vancomycin resistance in clostridioides difficile
author Henriques, Bruna
author_facet Henriques, Bruna
author_role author
dc.contributor.none.fl_str_mv Henriques, Adriano O.
Serrano, Mónica
RUN
dc.contributor.author.fl_str_mv Henriques, Bruna
dc.subject.por.fl_str_mv Clostridioides difficile infection
Vancomycin
Resistance mechanisms
Bottlenecks to Vancomycin resistance
Saúde
topic Clostridioides difficile infection
Vancomycin
Resistance mechanisms
Bottlenecks to Vancomycin resistance
Saúde
description Abstract: Clostridioides difficile infections (CDI) significantly affect thousands of individuals globally and impose a substantial burden on healthcare facilities. The standard treatment for CDI is Vancomycin (VAN), whose lethal target is the D-alanyl-D-alanine (D-Ala-D-Ala) motif in lipid II, which inhibits proper peptidoglycan (PG) polymerization. Some pathogens harbour van clusters that confer resistance to VAN by producing lipid II with a D-alanyl-D-serine (D-Ala-D-Ser) motif, with reduced VAN binding affinity. C. difficile possesses a vanG-type cluster, which is induced in the presence of VAN but does not raise the minimum inhibitory concentration (MIC) significantly (MIC < 2 mg/L). While other pathogens with vanG clusters exhibit significantly higher MICs (16 mg/L), no epidemic C. difficile strains with comparable resistance have been described. We hypothesize that C. difficile has intrinsic limiting factors (bottlenecks) that prevent expression of higher resistance levels. Here, we reveal three frequently mutated genes in our VAN-resistant (VANR ) isolates: sdaB, murG and vanS. Deletion of sdaB, which codes for a L-serine deaminase that produces pyruvate from L-serine, had been previously shown to result in elevated VAN resistance (MIC 4 mg/L). A mutation in murG, essential for lipid II synthesis, had also been linked to increased resistance (MIC 16 mg/L). Additionally, mutations in vanS, which encodes the sensor kinase required for transcription of the vanG cluster, resulted in increased expression of the cluster in VANR isolates. Altogether, these mutations suggest that the intracellular pool of serine, the level of expression of the vanG cluster and murG activity towards D-Ala-D-Ser substrates may be bottlenecks that prevent VAN resistance. To assess the roles of the vanS, sdaB and murG in VAN resistance, we first deleted the vanRS operon in an otherwise WT background and in a sdaB deletion mutant. Using VAN gradient plates we found that the deletion of vanRS is epistatic over sdaB indicating that the VanRS system is required for the increased resistance to VAN caused by the sdaB mutation and hence that the two vanRS and sdaB genes function in the same pathway. We also found that: i) vanS alleles coding for constitutively active forms of VanS do not result in increased resistance to VAN per se, or in the presence of the sdaB mutation; ii) the murG alleles did not increase resistance to VAN in an otherwise WT background. Since the increased resistance caused by sdaB requires VanRS but increased activity of VanRS does not confer increased resistance to VAN, even in the presence of a sdaB deletion, a third bottleneck may exist. This third bottleneck may involve the level of expression and/or activity of MurG but this remains to be tested. In all, our results highlight the role of serine availability in conjunction with the vanRS system in VAN resistance. Our results also reinforce the view that VAN resistance rises by different pathways in C. difficile.
publishDate 2024
dc.date.none.fl_str_mv 2024-11-11
2025-03-12
2025-03-12T00:00:00Z
2028-03-12T00:00:00Z
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TID:203929152
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identifier_str_mv TID:203929152
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