Fernando Amaya scite author profile

Background Salmonella pathogenicity island (SPI)-13 is conserved in many serovars of S. enterica, including S. Enteritidis, S. Typhimurium and S. Gallinarum. However, it is absent in typhoid serovars such as S. Typhi and Paratyphi A, which carry SPI-8 at the same genomic location. Because the interaction with macrophages is a critical step in Salmonella pathogenicity, in this study we investigated the role played by SPI-13 and SPI-8 in the interaction of S. Enteritidis and S. Typhi with cultured murine (RAW264.7) and human (THP-1) macrophages.Results Our results showed that SPI-13 was required for internalization of S. Enteritidis in murine but not human macrophages. On the other hand, SPI-8 was not required for the interaction of S. Typhi with human or murine macrophages. Of note, the presence of an intact copy of SPI-13 in a S. Typhi mutant carrying a deletion of SPI-8 did not improve its ability to be internalized by, or survive in human or murine macrophages.ConclusionsAltogether, our results point out to different roles for SPI-13 and SPI-8 during Salmonella infection. While SPI-13 contributes to the interaction of S. Enteritidis with murine macrophages, SPI-8 is not required in the interaction of S. Typhi with murine or human macrophages. We hypothesized that typhoid serovars have lost SPI-13 and maintained SPI-8 to improve their fitness during another phase of human infection.Electronic supplementary materialThe online version of this article (doi:10.1186/s40659-017-0109-8) contains supplementary material, which is available to authorized users.

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Identification of Type VI Secretion Systems Effector Proteins That Contribute to Interbacterial Competition in Salmonella Dublin

Amaya

Blondel

Barros-Infante

et al. 2022

Front. Microbiol.

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The Type VI Secretion System (T6SS) is a multiprotein device that has emerged as an important fitness and virulence factor for many Gram-negative bacteria through the injection of effector proteins into prokaryotic or eukaryotic cells via a contractile mechanism. While some effector proteins specifically target bacterial or eukaryotic cells, others can target both types of cells (trans-kingdom effectors). In Salmonella, five T6SS gene clusters have been identified within pathogenicity islands SPI-6, SPI-19, SPI-20, SPI-21, and SPI-22, which are differentially distributed among serotypes. Salmonella enterica serotype Dublin (S. Dublin) is a cattle-adapted pathogen that harbors both T6SSSPI-6 and T6SSSPI-19. Interestingly, while both systems have been linked to virulence and host colonization in S. Dublin, an antibacterial activity has not been detected for T6SSSPI-6 in this serotype. In addition, there is limited information regarding the repertoire of effector proteins encoded within T6SSSPI-6 and T6SSSPI-19 gene clusters in S. Dublin. In the present study, we demonstrate that T6SSSPI-6 and T6SSSPI-19 of S. Dublin CT_02021853 contribute to interbacterial competition. Bioinformatic and comparative genomic analyses allowed us to identify genes encoding three candidate antibacterial effectors located within SPI-6 and two candidate effectors located within SPI-19. Each antibacterial effector gene is located upstream of a gene encoding a hypothetic immunity protein, thus conforming an effector/immunity (E/I) module. Of note, the genes encoding these effectors and immunity proteins are widely distributed in Salmonella genomes, suggesting a relevant role in interbacterial competition and virulence. Finally, we demonstrate that E/I modules SED_RS01930/SED_RS01935 (encoded in SPI-6), SED_RS06235/SED_RS06230, and SED_RS06335/SED_RS06340 (both encoded in SPI-19) contribute to interbacterial competition in S. Dublin CT_02021853.

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Fnr and ArcA Regulate Lipid A Hydroxylation in Salmonella Enteritidis by Controlling lpxO Expression in Response to Oxygen Availability

et al. 2018

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Lipid A is the bioactive component of lipopolysaccharide, and presents a dynamic structure that undergoes modifications in response to environmental signals. Many of these structural modifications influence Salmonella virulence. This is the case of lipid A hydroxylation, a modification catalyzed by the dioxygenase LpxO. Although it has been established that oxygen is required for lipid A hydroxylation acting as substrate of LpxO in Salmonella, an additional regulatory role for oxygen in lpxO expression has not been described. The existence of this regulation could be relevant considering that Salmonella faces low oxygen tension during infection. This condition leads to an adaptive response by changing the expression of numerous genes, and transcription factors Fnr and ArcA are major regulators of this process. In this work, we describe for the first time that lipid A hydroxylation and lpxO expression are modulated by oxygen availability in Salmonella enterica serovar Enteritidis (S. Enteritidis). Biochemical and genetic analyses indicate that this process is regulated by Fnr and ArcA controlling the expression of lpxO. In addition, according to our results, this regulation occurs by direct binding of both transcription factors to specific elements present in the lpxO promoter region. Altogether, our observations revealed a novel role for oxygen acting as an environment signal controlling lipid A hydroxylation in S. Enteritidis.

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Infecciones vaginales en un Centro de Salud Familiar de la Región Metropolitana, Chile

Villaseca¹,

Ovalle

Amaya

et al. 2015

Rev. chil. infectol.

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Design of a Sewage and Wastewater Treatment System for Pollution Mitigation in El Rosario, El Empalme, Ecuador

Merchan

Ullauri

Amaya

et al. 2021

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Water sanitation is one of the biggest challenges nowadays. The sixth sustainable development goal of the 2030 agenda of the United Nations focuses on the importance of clean water and sanitation worldwide. El Rosario parish (Ecuador) was founded in 1991 and has never had a sanitary sewer system and a wastewater treatment system since. The households of the 47 hectares directly discharge domestic wastewater to a stream which flows into Daule river. This river is the primary source of drinking water for more than 4 million people that live in the province of Guayas. It implies problems with health, hygiene, and significant environmental impacts. This paper aims to develop a technical proposal for the design of sewerage and wastewater treatment, through technical analysis of the area of study, mitigating environmental and health impacts. The methodological process includes: (i) acquiring relevant data like current population, information related to the drinking water system and water supply, topography, weather, and water resources; (ii) layout of primary, secondary, and tertiary branches of the sanitary sewage system; (iii) calculation of the direction of nearby water resources' drainage that lead the layout of primary and secondary branches of the storm sewage system; and (iv) analysis for the selection of the wastewater treatment system, capacity, location, and design. As a result, this work proposes the design of stabilization ponds implanted in 14.2 ha with 26 km of sanitary and storm sewer networks in a separative sewage system. In addition, the execution of the proposal is estimated for 9.5 months for a value of approximately USD 2,157,100.35. This solution will mitigate the pollution of the Daule river and improve the life quality of the inhabitants of the rural community.

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Fernando Amaya

Differential roles for pathogenicity islands SPI-13 and SPI-8 in the interaction of Salmonella Enteritidis and Salmonella Typhi with murine and human macrophages

Identification of Type VI Secretion Systems Effector Proteins That Contribute to Interbacterial Competition in Salmonella Dublin

Fnr and ArcA Regulate Lipid A Hydroxylation in Salmonella Enteritidis by Controlling lpxO Expression in Response to Oxygen Availability

Infecciones vaginales en un Centro de Salud Familiar de la Región Metropolitana, Chile

Design of a Sewage and Wastewater Treatment System for Pollution Mitigation in El Rosario, El Empalme, Ecuador

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