Vol. 05, 2018

Conventional and emerging roles of the energy sensor Snf1/AMPK in Saccharomyces cerevisiae

Paola Coccetti^1,2, Raffaele Nicastro^1,3 and Farida Tripodi^1,2

This review consolidates current knowledge on the conventional and non-conventional functions of the effector kinase Snf1 in yeast, shedding light on its diverse roles in cellular physiology and energy homeostasis.

An unexpected benefit from E. coli: how enterobactin benefits host health

Aileen K. Sewell^1,2, Min Han^1,2 and Bin Qi^1,2

In this article, the authors comment on the study "Microbial Siderophore Enterobactin Promotes Mitochondrial Iron Uptake and Development of the Host via Interaction with ATP Synthase" by Qi et al. (Cell, 2018) that uncovered a surprising role for the Escherichia coli-produced siderophore enterobactin (Ent) in facilitating iron uptake by the host, marking a major shift in the understanding of its function and indicating potential new benefits from commensal bacteria in aiding the host's iron homeostasis.

Protective roles of ginseng against bacterial infection

Ye-Ram Kim¹ and Chul-Su Yang¹

This review highlights the antibacterial effects of ginseng against pathogenic bacterial infections, discussing its regulation of pathogenic factors and proposing the therapeutic potential of ginseng as a natural antibacterial drug to address antibiotic resistance and toxicity in the context of global public health challenges.

A Cinderella story: how the vacuolar proteases Pep4 and Prb1 do more than cleaning up the cell’s mass degradation processes

Winnie Kerstens^1,2 and Patrick Van Dijck^1,2

This review summarizes the expanded roles of the Saccharomyces cerevisiae vacuolar proteases Pep4 and Prb1 in non-vacuolar activities outside of autophagy, such as programmed cell death, protection from harmful protein forms, and gene expression regulation. The potential implications of these findings for fungal biology and drug target discovery, including insights for mammalian cell studies, are highlighted, emphasizing the need for a deeper understanding of these molecular processes.

The biosynthesis of pyoverdines

Michael T. Ringel¹ and Thomas Brüser¹

This review provides an overview of pyoverdine biosynthesis, emphasizing the distinctive fluorophore shared by various pyoverdines derived from ferribactins and the role of periplasmic processes in the maturation and modification of these siderophores, critical for the growth and colonization of hosts by fluorescent pseudomonads.

The translationally controlled tumor protein TCTP is involved in cell cycle progression and heat stress response in the bloodstream form of Trypanosoma brucei

Borka Jojic¹, Simona Amodeo^1,2 and Torsten Ochsenreiter¹

This study reveals the involvement of the translationally controlled tumor protein TCTP in cell cycle regulation and heat stress response in the bloodstream form of Trypanosoma brucei, shedding light on its role in these cellular processes.

Toxin release mediated by the novel autolysin Cwp19 in Clostridium difficile

Imane El Meouche¹ and Johann Peltier^2,3

In this article, the authors comment on the study "Cwp19 is a novel lytic transglycosylase involved in stationary-phase autolysis resulting in toxin release in Clostridium difficile" by Wydau-Dematteis (MBio, 2018) that characterizes a novel peptidoglycan hydrolase, Cwp19, in Clostridioides difficile, highlighting its glucose-dependent mediation of toxins secretion and suggesting a potential role in the pathogenesis of this bacterium, contributing to the understanding of these enzymes in C. difficile and their implication in pathogenicity.

Single telomere length analysis in Ustilago maydis, a high-resolution tool for examining fungal telomere length distribution and C-strand 5’-end processing

Ganduri Swapna¹, Eun Young Yu¹ and Neal F. Lue^{1, 2}

This article introduces the development of single telomere length analysis (STELA) for Ustilago maydis, a basidiomycete fungus, enabling the precise measurement of telomere lengths and distributions. The study demonstrates STELA's utility in revealing the existence of relatively short telomeres in wild-type cells, preferential loss of long telomeres in a mutant defective in telomere replication, and the characterization of telomere C-strand 5’ ends, highlighting U. maydis as a strong model for telomere research.

Escherichia coli hijack Caspr1 receptor to invade cerebral vascular and neuronal hosts

Wei-Dong Zhao¹, Dong-Xin Liu¹, Yu-Hua Chen¹

In this article, the authors comment on the study "Caspr1 is a host receptor for meningitis-causing Escherichia coli" by Zhao et al. (Nat Commun, 2ß18) that identified Caspr1 as a key host receptor for E. coli virulence factor IbeA, facilitating E. coli penetration through the blood-brain barrier (BBB). The research demonstrated that targeting the interaction between IbeA and Caspr1 could potentially neutralize E. coli virulence and prevented meningitis, shedding light on the mechanisms of bacterial invasion into brain endothelial cells and hippocampal neurons.

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Decreasing cytosolic translation is beneficial to yeast and human Tafazzin-deficient cells

Maxence de Taffin de Tilques^1,$, Jean-Paul Lasserre^1,$, François Godard¹, Elodie Sardin¹, Marine Bouhier¹, Marina Le Guedard^2,3, Roza Kucharczyk⁴, Patrice X. Petit⁵, Eric Testet², Jean-Paul di Rago¹, Déborah Tribouillard-Tanvier^1,#

Cardiolipin (CL) optimizes diverse mitochondrial processes, including oxidative phosphorylation (OXPHOS). Here, de Taffin de Tilques et al. describe that a diminished capacity of CL remodeling deficient cells to preserve protein homeostasis is likely an important factor contributing to the pathogenesis of Barth Syndrome (BTHS) and identifies cytosolic translation as a potential therapeutic target for the treatment of this disease.

Two distinct penicillin binding proteins promote cell division in different Salmonella lifestyles

Sónia Castanheira¹, Juan J. Cestero¹, Francisco García-del Portillo¹, M. Graciela Pucciarelli^1,2,3

In this article, the authors comment on the study "A Specialized Peptidoglycan Synthase Promotes Salmonella Cell Division inside Host Cells" by Castanheira et al. (mBio, 2017), discussing insights in two distinct penicillin binding proteins that promote cell division in different Salmonella lifestyles.

Production of poly-β-1,6-N-acetylglucosamine by MatAB is required for hyphal aggregation and hydrophilic surface adhesion by Streptomyces

Dino van Dissel¹, Joost Willemse¹, Boris Zacchetti¹, Dennis Claessen¹, Gerald B. Pier², Gilles P. van Wezel¹

In this article van Dissel et al. describe new insights to allow better control of liquid-culture morphology of streptomycetes, which may be harnessed to improve growth and industrial exploitation of these highly versatile natural product and enzyme producers.

Impact of F1Fo-ATP-synthase dimer assembly factors on mitochondrial function and organismic aging

Nadia G Rampello¹, Maria Stenger², Benedikt Westermann², Heinz D Osiewacz¹

In aerobic organisms, mitochondrial F1Fo-ATP-synthase is the major site of ATP production. Here, Rampello et al. report on the role of the two dimer assembly factors PaATPE and PaATPG of the aging model Podospora anserina validating a model that links mitochondrial membrane remodeling to aging and identify specific molecular components triggering this process.

Non-canonical regulation of glutathione and trehalose biosynthesis characterizes non-Saccharomyces wine yeasts with poor performance in active dry yeast production

Esther Gamero-Sandemetrio¹, Lucía Payá-Tormo¹, Rocío Gómez-Pastor^1,3, Agustín Aranda^1,2 and Emilia Matallana^1,2

Several yeast species, belonging to Saccharomyces and non-Saccharomyces genera, play fundamental roles during spontaneous must grape fermentation, and recent studies have shown that mixed fermentations, co-inoculated with S. cerevisiae and non-Saccharomyces strains, can improve wine organoleptic properties. Here, Gamero-Sandemetrio et al. present findings that non-canonical regulation of glutathione and trehalose biosynthesis could cause poor fermentative performance after active dry yeast (ADY) production, as it corroborates the corrective effect of antioxidant treatments, during biomass propagation, with both pure chemicals and food-grade argan oil.

New perspectives from South-Y-East, not all about death
A report of the 12th lnternational Meeting on Yeast Apoptosis in Bari, Italy, May 14th-18th, 2017

Nicoletta Guaragnella^1,#, Mariarita Stirpe^2,#, William Burhans³, Manuela Côrte-Real⁴, Campbell Gourlay⁵, Paula Ludovico^6,7, Frank Madeo^8,9, Dina Petranovic¹⁰, Joris Winderickx¹¹, Cristina Mazzoni² and Sergio Giannattasio¹

In this article Guaragnella et al. report on the 12th International Meeting on Yeast Apoptosis (IMYA12), which was held in Bari, Italy from May 14th to 18th, 2017, where more than 100 participants, among which senior and young scientists from Europe, USA, North Africa and Japan, had an intense and open exchange of achievements and ideas in the field of yeast regulated cell death (RCD).

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Toxin release mediated by the novel autolysin Cwp19 in Clostridium difficile

Imane El Meouche¹ and Johann Peltier^2,3

Escherichia coli hijack Caspr1 receptor to invade cerebral vascular and neuronal hosts

Wei-Dong Zhao¹, Dong-Xin Liu¹, Yu-Hua Chen¹

A global view of substrate phosphorylation and dephosphorylation during budding yeast mitotic exit

Sandra A. Touati¹ and Frank Uhlmann¹

In this article, the authors comment on the study "Phosphoproteome dynamics during mitotic exit in budding yeast" by Touati (EMBO J, 2018) that described a time-resolved global phosphoproteome analysis during a cell cycle phase known as mitotic exit in budding yeast revealed the principles of phosphoregulation governing the ordered sequence of events such as spindle elongation, chromosome decondensation, and completion of cell division.

Gammaretroviruses tether to mitotic chromatin by directly binding nucleosomal histone proteins

Madushi Wanaguru¹ and Kate N. Bishop¹

In this article, the authors comment on the study "Murine leukemia virus p12 tethers the capsid-containing pre-integration complex to chromatin by binding directly to host nucleosomes in mitosis" by Wanaguruet al. (PLoS Pathog, 2018) that highlights the essential role of the gammaretroviral gag cleavage product, p12, at both early and late stages of the virus life cycle, particularly in the integration of the viral DNA into the host cell chromatin to form a provirus. It also emphasizes the recent findings regarding the N- and C-terminal domains of p12, revealing their direct binding to the viral capsid lattice and nucleosomal histone proteins, respectively, thus elucidating the mechanism by which p12 links the viral pre-integration complex to mitotic chromatin.

Methodologies for in vitro and in vivo evaluation of efficacy of antifungal and antibiofilm agents and surface coatings against fungal biofilms

Patrick Van Dijck^1,2,‡, Jelmer Sjollema^3,‡, Bruno P.A. Cammue^4,5, Katrien Lagrou^6,7, Judith Berman⁸, Christophe d’Enfert⁹, David R. Andes^10,11, Maiken C. Arendrup^12-14, Axel A. Brakhage¹⁵, Richard Calderone¹⁶, Emilia Cantón¹⁷, Tom Coenye^18,19, Paul Cos²⁰, Leah E. Cowen²¹, Mira Edgerton²², Ana Espinel-Ingroff²³, Scott G. Filler²⁴, Mahmoud Ghannoum²⁵, Neil A.R. Gow²⁶, Hubertus Haas²⁷, Mary Ann Jabra-Rizk²⁸, Elizabeth M. Johnson²⁹, Shawn R. Lockhart³⁰, Jose L. Lopez-Ribot³¹, Johan Maertens³², Carol A. Munro²⁶, Jeniel E. Nett³³, Clarissa J. Nobile³⁴, Michael A. Pfaller^35,36, Gordon Ramage^19,37, Dominique Sanglard³⁸, Maurizio Sanguinetti³⁹, Isabel Spriet⁴⁰, Paul E. Verweij⁴¹, Adilia Warris⁴², Joost Wauters⁴³, Michael R. Yeaman⁴⁴, Sebastian A.J. Zaat⁴⁵, Karin Thevissen^4,*

This article highlights the critical importance of accurate susceptibility testing methods and the discovery of novel antifungal and antibiofilm agents in combating invasive fungal infections associated with biofilm formation on medical devices, thereby emphasizing the need for advancements in medical mycology research to address these complex diseases.

Shepherding DNA ends: Rif1 protects telomeres and chromosome breaks

Gabriele A. Fontana¹, Julia K. Reinert^1,2, Nicolas H. Thomä¹, Ulrich Rass¹

This review discusses the conserved mechanisms cells have evolved to protect DNA ends at chromosomal termini and DNA double-strand breaks (DSBs), focusing on the protein Rif1’s roles in telomere homeostasis and DSB repair in eukaryotes. It highlights the intriguing connection between Rif1's involvement in both telomere maintenance and DSB repair, and suggests that excluding end-processing factors may underlie Rif1's diverse biological functions at telomeres and chromosome breaks.

The CRISPR conundrum: evolve and maybe die, or survive and risk stagnation

Jesús García-Martínez¹, Rafael D. Maldonado¹, Noemí M. Guzmán¹ and Francisco J. M. Mojica^1,2

In this article García-Martínez et al. cover how the model bacterium Escherichia coli deals with CRISPR-Cas to tackle the major dilemma of evolution versus survival.

A novel mechanism for regulation of the type I IFN response by herpesvirus deconjugases

Soham Gupta¹, Päivi Ylä-Anttila¹, Maria G. Masucci¹

In this article, the authors comment on the study "Herpesvirus deconjugases inhibit the IFN response by promoting TRIM25 autoubiquitination and functional inactivation of the RIG-I signalosome" by Gupta et al. (PLoS Pathog, 2018), discussing the finding of a novel mechanism for regulation of the type I IFN response by herpesvirus deconjugases.

Metabolic disharmony and sibling conflict mediated by T6SS

Vera Troselj¹ and Daniel Wall¹

In this article, the authors comment on the study "Physiological Heterogeneity Triggers Sibling Conflict Mediated by the Type VI Secretion System in an Aggregative Multicellular Bacterium" by Troselj et al. (MBio, 2018) discussing that M. xanthus uses T6SS to eliminate less fit cells from their population and identified toxic effector and cognate immunity protein (TsxEI) that mediates this sibling antagonism.

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Microbial wars: competition in ecological niches and within the microbiome

Maria A. Bauer¹, Katharina Kainz¹, Didac Carmona-Gutierrez¹ and Frank Madeo^1,2

In this Editorial Bauer et al. provide a brief overview on microbial competition and discuss some of its roles and consequences that directly affect humans.

Exploring the mechanism of amebic trogocytosis: the role of amebic lysosomes

Allissia A. Gilmartin¹ and William A. Petri, Jr^1,2,3

In this article, the authors comment on the study "Inhibition of Amebic Lysosomal Acidification Blocks Amebic Trogocytosis and Cell Killing" by Gilmartin et al. (MBio, 2017), discussing the the role of amebic lysosomes in Trogocytosis, the intracellular transfer of fragments of cell material.

The logics of metabolic regulation in bacteria challenges biosensor-based metabolic engineering

December 11, 2017

In this article, the authors comment on the study "Molecular and Physiological Logics of the Pyruvate-Induced Response of a Novel Transporter in Bacillus subtilis" by Charbonnier et al. (mBio, 2017), which identified and characterized a pyruvate transport system in the Gram-positive (G+ve) bacterium Bacillus subtilis, a well-established biotechnological workhorse for the production of enzymes, fine chemicals and antibiotics.

A novel basolateral type IV secretion model for the CagA oncoprotein of Helicobacter pylori

December 9, 2017

In this article, the authors comment on the study "Helicobacter pylori Employs a Unique Basolateral Type IV Secretion Mechanism for CagA Delivery" by Tegtmeyer et al. (Cell Host Microbe, 2017), discussing that the finding of a T4SS receptor suggests the presence of a sophisticated control mechanism for the injection of CagA and the possible impact of this novel signaling cascade on pathogenesis during infection with Helicobacter pylori.

Yeast quiescence exit swiftness is influenced by cell volume and chronological age

December 6, 2017

Quiescence exit swiftness is crucial not only for micro-organisms in competition for an environmental niche, such as yeast, but also for the maintenance of tissue homeostasis in multicellular species. Here, Laporte et al. explore the effect of replicative and chronological age on Saccharomyces cerevisiae quiescence exit efficiency. Overall, their data illustrate that the quiescent state is a continuum evolving with time, early and deep quiescence being distinguishable by the cell’s proficiency to re-enter the proliferation cycle.

Exploring the mechanism of amebic trogocytosis: the role of amebic lysosomes

December 6, 2017

A versatile plasmid system for reconstitution and analysis of mammalian ubiquitination cascades in yeast

December 5, 2017

In this article Avagliano Trezza et al. describe a versatile vector system that allows the reconstitution of specific ubiquitination cascades in the model eukaryote Saccharomyces cerevisae (baker’s yeast) that provides a versatile tool to study complex post-translational modifications in a cellular setting.

Alcohols enhance the rate of acetic acid diffusion in S. cerevisiae : biophysical mechanisms and implications for acetic acid tolerance

December 1, 2017

Microbial cell factories with the ability to maintain high productivity in the presence of weak organic acids, such as acetic acid, are required in many industrial processes. This study demonstrates that the rate of acetic acid diffusion can be strongly affected by compounds that partition into the cell membrane, and highlights the need for considering interaction effects between compounds in the design of microbial processes.

Untargeted metabolomics confirms and extends the understanding of the impact of aminoimidazole carboxamide ribotide (AICAR) in the metabolic network of Salmonella enterica

November 22, 2017

In Salmonella enterica, aminoimidazole carboxamide ribotide (AICAR) is a purine biosynthetic intermediate and a substrate of the AICAR transformylase/IMP cyclohydrolase (PurH) enzyme. Data herein describe the use of metabolomics to identify the metabolic state of mutant strains and probe the underlying mechanisms used by AICAR to inhibit thiamine synthesis. The results obtained provide a cautionary tale of using metabolite concentrations as the only data to define the physiological state of a bacterial cell.

The cytosolic glyoxalases of Plasmodium falciparum are dispensable during asexual blood-stage development

November 20, 2017

In this study the authors demonstrate that, PfGlo1 and PfcGlo2 are dispensable during asexual blood-stage development while the loss of PfcGlo2 may induce the formation of transmissible gametocytes. These combined data show that PfGlo1 and PfcGlo2 are most likely not suited as targets for selective drug development against the malaria parasite Plasmodium falciparum.