Environmental interactions with amoebae as drivers of bacterial-fungal endosymbiosis and pathogenicity

Itabangi, Herbert; Pcs, Sephton-Clark; Zhou, Xin; Gp, Starling; Mahamoud, Zamzam; Insua, Ignacio; Probert, Matt; Correia, Joao; Moynihan, Patrick J.; Gebremariam, Teclegiorgis; Gu, Yunfu; As, Ibrahim; Gd, Brown; Js, King; Ballou, Elizabeth R.; Voelz, Kerstin

doi:10.1101/584607

Cited by 11 publications

(10 citation statements)

References 124 publications

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“…Both clinical and plant pathogenic isolates of Mucorales are known to harbor bacterial endosymbionts (Ibrahim et al, 2008). Some initial experiments suggested that the bacterial endosymbionts had no effect on the virulence potential of the fungus that they live inside of Ibrahim et al (2008) but recent work has set a precedent for a role in evasion of host innate immune cells (Itabanga et al, 2019). Specifically, Ralstonia pickettii promotes the ability of R. microsporus to survive killing by macrophages (Itabanga et al, 2019).…”

Section: Future Directionsmentioning

confidence: 99%

“…Some initial experiments suggested that the bacterial endosymbionts had no effect on the virulence potential of the fungus that they live inside of Ibrahim et al (2008) but recent work has set a precedent for a role in evasion of host innate immune cells ( Itabanga et al, 2019 ). Specifically, Ralstonia pickettii promotes the ability of R. microsporus to survive killing by macrophages ( Itabanga et al, 2019 ). In a transcriptome-focused companion paper, Sephton-Clark et al (2019) examined the transcriptional response of J774.1 macrophages following phagocytosis of R. delemar and R. microsporus either with or without their bacterial endosymbionts living inside them.…”

Section: Future Directionsmentioning

confidence: 99%

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Understanding Mucormycoses in the Age of “omics”

2020

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Mucormycoses are deadly invasive infections caused by several fungal species belonging to the subphylum Mucoromycotina, order Mucorales. Hallmarks of disease progression include angioinvasion and tissue necrosis that aid in fungal dissemination through the blood stream, causing deeper infections and resulting in poor penetration of antifungal agents to the site of infection. In the absence of surgical removal of the infected focus, antifungal therapy alone is rarely curative. Even when surgical debridement is combined with high-dose antifungal therapy, the mortality associated with mucormycoses is >50%. The unacceptably high mortality rate, limited options for therapy and the extreme morbidity of highly disfiguring surgical therapy provide a clear mandate to understand the molecular mechanisms that govern pathogenesis with the hopes of developing alternative strategies to treat and prevent mucormycoses. In the absence of robust forward and reverse genetic systems available for this taxonomic group of fungi, unbiased next generation sequence (NGS)-based approaches have provided much needed insights into our understanding of many aspects of Mucormycoses, including genome structure, drug resistance, diagnostic development, and fungus-host interactions. Here, we will discuss the specific contributions that NGSbased approaches have made to the field and discuss open questions that can be addressed using similar approaches.

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Section: Future Directionsmentioning

confidence: 99%

Section: Future Directionsmentioning

confidence: 99%

Understanding Mucormycoses in the Age of “omics”

2020

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“…Paraburkholderia -related endobacteria (PRE) were discovered in Mucorales, Umbelopsidales, and Mortierellomycotina representatives ( Okrasińska et al, 2021 ). Lately, information about two other endosymbionts of Rhizopus microsporus has been published: Ralstonia pickettii as an facilitator of fungal invasion during infection ( Itabangi et al, 2019 ) and Stenotrophomonas sp. whose role has not yet been established ( Virgianti and Natalia, 2020 ).…”

Section: Introductionmentioning

confidence: 99%

Metabolic Potential, Ecology and Presence of Associated Bacteria Is Reflected in Genomic Diversity of Mucoromycotina

et al. 2021

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Mucoromycotina are often considered mainly in pathogenic context but their biology remains understudied. We describe the genomes of six Mucoromycotina fungi representing distant saprotrophic lineages within the subphylum (i.e., Umbelopsidales and Mucorales). We selected two Umbelopsis isolates from soil (i.e., U. isabellina, U. vinacea), two soil-derived Mucor isolates (i.e., M. circinatus, M. plumbeus), and two Mucorales representatives with extended proteolytic activity (i.e., Thamnidium elegans and Mucor saturninus). We complement computational genome annotation with experimental characteristics of their digestive capabilities, cell wall carbohydrate composition, and extensive total lipid profiles. These traits inferred from genome composition, e.g., in terms of identified encoded enzymes, are in accordance with experimental results. Finally, we link the presence of associated bacteria with observed characteristics. Thamnidium elegans genome harbors an additional, complete genome of an associated bacterium classified to Paenibacillus sp. This fungus displays multiple altered traits compared to the remaining isolates, regardless of their evolutionary distance. For instance, it has expanded carbon assimilation capabilities, e.g., efficiently degrades carboxylic acids, and has a higher diacylglycerol:triacylglycerol ratio and skewed phospholipid composition which suggests a more rigid cellular membrane. The bacterium can complement the host enzymatic capabilities, alter the fungal metabolism, cell membrane composition but does not change the composition of the cell wall of the fungus. Comparison of early-diverging Umbelopsidales with evolutionary younger Mucorales points at several subtle differences particularly in their carbon source preferences and encoded carbohydrate repertoire. Nevertheless, all tested Mucoromycotina share features including the ability to produce 18:3 gamma-linoleic acid, use TAG as the storage lipid and have fucose as a cell wall component.

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“…Data obtained from various studies indicated that the species of R. microsporus found symbiosis with B. rhizoxina and B. endofungarium were derived from soil, rice seedlings, peanuts, Vietnamese Sufu starter, and tempeh (Lacker et al 2009;Rohm et al 2010;Dolatabadi et al 2016). A different genus of endosymbiont bacteria has been isolated from the clinical isolate of R. microsporus was identified as Ralstonia pickettii contributing to fungal stress resistance and immune cell evasion as part of fungal pathogenesis in animal models (Itabangi et al 2019). The aim of this study was to determine and identify endosymbiont bacteria in Rhizopus sp.…”

Section: Introductionmentioning

confidence: 99%

Short Communication: New record of Stenotrophomonas sp. as endosymbiont bacteria in Rhizopus microsporus

Virgianti¹,

Natalia

Aryantha

2020

Biodiversitas

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Abstract. Virgianti DP, Natalia D, Aryantha INP. 2020. Short Communication: New record of Stenotrophomonas sp. as endosymbiont bacteria in Rhizopus microsporus. Biodiversitas 21: 1678-1685. Rhizopus sp. are closely related to humankind in many aspects of human life. Several species of Rhizopus are important in food, agriculture, and health industries. Rhizopus microsporus has endosymbiont bacteria that has been identified as Burkholderia sp. This study aimed to identify the endosymbiont bacteria in R. microsporus isolated from Moringa oleifera Lam leaves. Ring technique, simple method of agar heap technique and antibiotic technique, was conducted to purify the hyphae and to eliminate ectosymbiont and contaminant bacteria outside the hyphae. The presence of endosymbiont bacteria in R. microsporus was determined by using LIVE/DEAD® BacLight Bacterial Viability Kits L13152 and the Fluorescent in Situ Hybridization (FISH) method using EUB338 probes. It was suggested that the culturable endosymbiont bacteria was identified as Stenotrophomonas sp. based on the phylogenetic tree using the 16S rDNA

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Environmental interactions with amoebae as drivers of bacterial-fungal endosymbiosis and pathogenicity

Cited by 11 publications

References 124 publications

Understanding Mucormycoses in the Age of “omics”

Understanding Mucormycoses in the Age of “omics”

Metabolic Potential, Ecology and Presence of Associated Bacteria Is Reflected in Genomic Diversity of Mucoromycotina

Short Communication: New record of Stenotrophomonas sp. as endosymbiont bacteria in Rhizopus microsporus

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