Vol. 03, 2016
Histone modifications as regulators of life and death in Saccharomyces cerevisiae
Birthe Fahrenkrog
The mechanism by which chromosomes restructure during apoptosis is still poorly understood, but it is becoming increasingly clear that altered epigenetic histone modifications are fundamental parameters that influence the chromatin state and the nuclear rearrangements within apoptotic cells. This review highlights recent work on the epigenetic regulation of programmed cell death in budding yeast.
Spermidine cures yeast of prions
Shaun H. Speldewinde, and Chris M. Grant
This article comments on work published by Speldewinde and Grant (Mol Biol Cell, 2015), which found that spermidine, a polyamine that has been used to increase autophagic flux, acts as a protective agent which prevents spontaneous prion formation in yeast.
Global translational impacts of the loss of the tRNA modification t6A in yeast
Patrick C. Thiaville1,2,3,4, Rachel Legendre4, Diego Rojas-Benítez5, Agnès Baudin-Baillieu4, Isabelle Hatin4, Guilhem Chalancon6, Alvaro Glavic5, Olivier Namy4, Valérie de Crécy-Lagard1,3
The universal tRNA modification t6A is found at position 37 of nearly all tRNAs decoding ANN codons. Analysis of codon occupancy rates suggests that one of the major roles of t6A is to homogenize the process of elongation by slowing the elongation rate at codons decoded by high abundance tRNAs and I34:C3 pairs while increasing the elongation rate of rare tRNAs and G34:U3 pairs. This work reveals that the consequences of t6A absence are complex and multilayered and has set the stage to elucidate the molecular basis of the observed phenotypes.
Ergosterone-coupled Triazol molecules trigger mitochondrial dysfunction, oxidative stress, and acidocalcisomal Ca2+ release in Leishmania mexicana promastigotes
Figarella K1, Marsiccobetre S1, Arocha I1, Colina W2, Hasegawa M2,†, Rodriguez M2, Rodriguez-Acosta A3, Duszenko M4, Benaim G5, Uzcategui NL3
The protozoan parasite Leishmania causes a variety of sicknesses with different clinical manifestations known as leishmaniasis. Investigations looking for new targets or new active molecules focus mainly on the disruption of parasite specific pathways. In this sense, ergosterol biosynthesis is one of the most attractive because it does not occur in mammals. Our results indicate that ergosterone-triazol coupled molecules induce a regulated cell death process in the parasite and may represent starting point molecules in the search of new chemotherapeutic agents to combat leishmaniasis.
Differentiated cytoplasmic granule formation in quiescent and non-quiescent cells upon chronological aging
Hsin-Yi Lee1,3,†, Kuo-Yu Cheng2,3,†, Jung-Chi Chao3 and Jun-Yi Leu3
Stationary phase cultures represent a complicated cell population comprising at least two different cell types, quiescent (Q) and non-quiescent (NQ) cells. The authors show that the cell fate of NQ cells is largely irreversible even if they are allowed to reenter mitosis. Their results reveal that the formation of different granule structures may represent the early stage of cell type differentiation in yeast stationary phase cultures.
Mitochondrial regulation of cell death: a phylogenetically conserved control
Lorenzo Galluzzi1,2,3,4,5, Oliver Kepp1,2,3,4,6 and Guido Kroemer1,2,3,4,6,7,8
Mitochondria are fundamental for eukaryotic cells as they participate in critical catabolic and anabolic pathways. Moreover, mitochondria play a key role in the signal transduction cascades that precipitate many (but not all) regulated variants of cellular demise. In this short review, the authors discuss the differential implication of mitochondria in the major forms of regulated cell death.
Mek1/Mre4 is a master regulator of meiotic recombination in budding yeast
Nancy M. Hollingsworth
This article comments on work published by Chen et al. (PLoS BIol, 2015), showing that the meiosis specific kinase Mek1 indirectly regulates the crossover/non-crossover decision between homologs as well as genetic interference and suggests Mek1 to be a "master regulator" of meiotic recombination in budding yeast.
Shaping meiotic chromosomes with SUMO: a feedback loop controls the assembly of the synaptonemal complex in budding yeast
Hideo Tsubouchi1, Bilge Argunhan1 and Tomomi Tsubouchi2
This article comments on work published by Leung et al. (J Cell Biol, 2015), which shows that the formation of the meiosis-specific synaptonemal complex is controlled through SUMOylation of a regulator required for the assembly of transverse filaments, implicating the involvement of a positive feedback loop in the control of synaptonemal complex assembly.
Towards understanding the gliotoxin detoxification mechanism: in vivo thiomethylation protects yeast from gliotoxin cytotoxicity
Elizabeth B. Smith, Stephen K. Dolan, David A. Fitzpatrick, Sean Doyle and Gary W. Jones
Gliotoxin is a mycotoxin produced by some species of ascomycete fungi including the opportunistic human pathogen Aspergillus fumigatus. In order to produce gliotoxin the host organism needs to have evolved a self-protection mechanism. The authors demonstrate that the activity of a novel thiomethyltransferase is requiered for protection against exogenous gliotoxin and provide implications for understanding the evolution of gliotoxin self-protection mechanisms.
Autophagy: machinery and regulation
Zhangyuan Yin, Clarence Pascual and Daniel J. Klionsky
Macroautophagy/autophagy is an evolutionarily conserved cellular degradation process that targets cytoplasmic materials including cytosol, macromolecules and unwanted organelles. The discovery and analysis of autophagy-related (Atg) proteins have unveiled much of the machinery of autophagosome formation. In this review, we briefly summarize the physiological roles, molecular mechanism, regulatory network, and pathophysiological roles of autophagy.
NprR, a moonlighting quorum sensor shifting from a phosphatase activity to a transcriptional activator
Stéphane Perchat1, Antoine Talagas2, Samira Zouhir2, Sandrine Poncet1, Laurent Bouillaut1,¶, Sylvie Nessler2 and Didier Lereclus1
This article comments on work published by Perchat et al. (PLoS Pathog, 2016), which demonstrates that, in the absence of the signaling peptide NprX, the sensor NprR is a dimer, which negatively controls sporulation in Bacillus thuringiensis, independently of its transcription factor activity.
Threading Granules in Freiburg: 2nd International Symposium on “One Mitochondrion, Many Diseases – Biological and Molecular Perspectives”, a FRIAS Junior Researcher Conference, Freiburg im Breisgau, Germany, March 9th/10th, 2016
Ralf J. Braun1, Ralf M. Zerbes2, Florian Steinberg3, Denis Gris4, and Verónica I. Dumit5
INTRODUCTION Mitochondria (greek: μίτος & χονδρίον, mitos & chondrion, i.e., thread & granule) are the power houses of eukaryotic cells, and are pivotally involved in essential metabolic processes, including iron/sulfur
The interaction between herpes simplex virus 1 genome and promyelocytic leukemia nuclear bodies (PML-NBs) as a hallmark of the entry in latency
Patrick Lomonte
This article comments on work published by Maroul et al. (PLoS Pathog, 2016), which demonstrates that the interaction of the viral genomes with the nuclear architecture and specifically the promyelocytic leukemia nuclear bodies is a major determinant for the entry of HSV-1 into latency.
Francisella IglG protein and the DUF4280 proteins: PAAR-like proteins in non-canonical Type VI secretion systems?
Claire Lays1, 2, Eric Tannier2, 3, Thomas Henry1,2
This article comments on work published by Rigard et al. (PLoS Pathog, 2013), which identified the function of IgIG, a protein of unknown function, encoded within the Francisella Pathogenicity Island.
B cell-helping functions of gut microbial metabolites
Chang H. Kim1,2,3,4
This article comments on work published by Kim et al. (Cell Host & Microbe, 2016), which showed that the microbial metabolites short-chain fatty acids (SCFAs) regulate the metabolism and gene expression in B cells to promote antibody production.
How do yeast sense mitochondrial dysfunction?
Dmitry A. Knorre1, Svyatoslav S. Sokolov1, Anna N. Zyrina2, Fedor F. Severin1,3
Apart from energy transformation, mitochondria play important signaling roles. In yeast, mitochondrial signaling relies on several molecular cascades. However, it is not clear how a cell detects a particular mitochondrial malfunction. In our review we argue that in yeast the major known routes of mitochondrial signaling are moderated by non-mitochondrial inputs.
Chlamydia trachomatis Genital Infections
Catherine M. O’Connell and Morgan E. Ferone
Chlamydia trachomatis infections are the most commonly reported sexually transmitted bacterial infections in the US and globally. Ascending infection may result in infertility, ectopic pregnancy and chronic pelvic pain in some women. In this review we provide an overview of current knowledge regarding epidemiology, disease outcomes and effective treatment of chlamydial genital tract infection and explore potential mechanisms facilitating C. trachomatis infection of genital mucosa identified via bioinformatics and other molecular approaches.
Yeast screening platform identifies FDA-approved drugs that reduce Aβ oligomerization
Triana Amen1,2 and Daniel Kaganovich1
This article comments on work published by Park et al. (Microbial Cell, 2016), which discovered a number of small molecules capable of modulating Aβ aggregation in a yeast model.
Construction and evaluation of yeast expression networks by database-guided predictions
May 10, 2016
DNA-Microarrays are powerful tools to obtain expression data on the genome-wide scale. We set out to define a way to cluster microarray data according to their expressional relationship and to obtain information on the significance of this clustering approach.
Optogenetic monitoring identifies phosphatidylthreonine-regulated calcium homeostasis in Toxoplasma gondii
May 1, 2016
Toxoplasma gondii is an obligate intracellular parasite, which inflicts acute as well as chronic infections in a wide range of warm-blooded vertebrates. Using an optogenetic sensor to monitor subcellular calcium in this model intracellular pathogen we found a novel regulatory function of phosphatidylthreonine in calcium signaling.
Filamentation protects Candida albicans from amphotericin B-induced programmed cell death via a mechanism involving the yeast metacaspase, MCA1
April 25, 2016
Candida albicans proliferates in two distinct cell types: blastopores and filaments. Programmed cell death is a controlled form of cell suicide that occurs when C. albicans cells are exposed to fungicidal drugs like amphotericin B and caspofungin, and to other stressful conditions. We provide evidence that programmed cell death is cell-type specific in yeast: Filamentous C. albicans cells are more resistant to amphotericin B- and caspofungin-induced programmed cell death than their blastospore counterparts. Our genetic data suggest that this phenomenon is mediated by a protective mechanism involving the yeast metacaspase, MCA1.
A plant Bcl-2-associated athanogene is proteolytically activated to confer fungal resistance
April 16, 2016
This article comments on work published by Li et al. (Plant Cell, 2016), which focuses on the role of Bcl-2-associated athanogene 6 (BAG6) in plant innate immunity, showing that BAG6 plays a key role in basal plant defense against fungal pathogens.
The molecular and cellular action properties of artemisinins: what has yeast told us?
April 14, 2016
Artemisinin (ART) or Qinghaosu is a natural compound possessing superior anti-malarial activity. Although intensive studies have been done in the medicinal chemistry field to understand the structure-effect relationship, the biological actions of artemisinin are poorly understood and controversial. This review summarizes what we have learned from yeast about the basic biological properties of ARTs, as well as some key unanswered questions.
Formaldehyde fixation is detrimental to actin cables in glucose-depleted S. cerevisiae cells
April 13, 2016
Actin filaments form cortical patches and emanating cables in fermenting cells of Saccharomyces cerevisiae. We assume that stability of actin cables reflects the metabolic status of the cell. Based on comparison of live and formaldehyde-fixed cells, our data suggest that formaldehyde affects respiration before fixation and this uneven signaling results in destabilization of actin cables in glucose-deprived cells.
Non-genetic impact factors on chronological lifespan and stress resistance of baker’s yeast
April 13, 2016
This article comments on work published by Bisschops et al. (Microbial Cell, 2015), which illustrates how important the choice of the experimental setup is and how culture conditions influcence cellular aging and survival in biotechnological processes.
Chemical proteomics approach reveals the direct targets and the heme-dependent activation mechanism of artemisinin in Plasmodium falciparum using an activity-based artemisinin probe
April 5, 2016
This article comments on work published by Wang et al. (Nat Commun, 2014), which provides insights into the mode-of-action of artemisinin and its specificity against malaria parasites.
Translational repression in malaria sporozoites
April 5, 2016
This article comments on work published by Zhang et al. (PLoS Pathog, 2016), which summarizea recent advances in the translational repression of gene expression in the malaria sporozoite.
Yeast screening platform identifies FDA-approved drugs that reduce Aβ oligomerization
Triana Amen1,2 and Daniel Kaganovich1
This article comments on work published by Park et al. (Microbial Cell, 2016), which discovered a number of small molecules capable of modulating Aβ aggregation in a yeast model.