Vol. 03, 2016

HPV disease transmission protection and control

Neil D. Christensen

Human papillomaviruses (HPVs) represent a large collection of viral types associated with significant clinical disease of cutaneous and mucosal epithelium. In this review we present an overview of papillomavirus biology and propose a series of questions that provide a basis for discussion of some areas of interest that continue to represent important gaps in our knowledge in the HPV research field.

Hepatitis B virus and its sexually transmitted infection – an update

Takako Inoue¹ and Yasuhito Tanaka^1,2

About 5% of the world’s population has chronic hepatitis B virus (HBV) infection, and nearly 25% of carriers develop chronic hepatitis, cirrhosis, and hepatocellular carcinoma. The purpose of this article is to provide up-to-date information on HBV and HBV infection as a major sexually transmitted infection.

Recent Insights into the HIV/AIDS Pandemic

Juan C. Becerra¹, Lukas S. Bildstein², Johannes S. Gach¹

Acquired immunodeficiency syndrome (AIDS), caused by chronic infection with the human immunodeficiency virus1 (HIV-1), is one of the most devastating pandemics ever recorded in human history. In this review, we assemble new details on the molecular events from the attachment of the virus, to the assembly and release of the viral progeny.

Gonorrhea – an evolving disease of the new millennium

Stuart A. Hill, Thao L. Masters and Jenny Wachter

Neisseria gonorrhoeae (the gonococcus) is a Gram-negative diplococcus, an obligate human pathogen, and the etiologic agent of the sexually transmitted disease, gonorrhea. This review provides insight into the molecular epidemiology, virulence mechanisms, pathogenesis and therapeutic options.

Phylogenetic profiles of all membrane transport proteins of the malaria parasite highlight new drug targets

January Weiner 3rd¹ and Taco W.A. Kooij²

In order to combat the on-going malaria epidemic, discovery of new drug targets remains vital. Proteins that are essential to survival and specific to malaria parasites are key candidates. Here, we present a comprehensive orthology assignment of all Plasmodium falciparum putative membrane transport proteins and provide a detailed overview of the associated essential gene functions obtained through experimental genetics studies in human and murine model parasites.

VDAC regulates AAC-mediated apoptosis and cytochrome c release in yeast

Dário Trindade^1,2, Clara Pereira^3,4, Susana R. Chaves¹, Stéphen Manon², Manuela Côrte-Real¹ and Maria João Sousa¹

Mitochondrial outer membrane permeabilization is a key event in apoptosis processes leading to the release of lethal factors. In this study, we sought to determine whether Por1p functionally interacts with ADP/ATP carrier (AAC) proteins, as well as its contribution to cytochrome c release and yeast apoptosis induced by acetic acid treatment. Our data indicate that Por1p may regulate cell survival by acting as a negative regulator of AAC proteins in the apoptotic cascade.

Cryptococcus flips its lid – membrane phospholipid asymmetry modulates antifungal drug resistance and virulence

Erika Shor¹, Yina Wang¹, David S. Perlin^1,2, and Chaoyang Xue^1,2

This article comments on work published by Huang et al. (MBio, 2016), which reported that in the pathogenic fungus Cryptococcus neoformans loss of lipid flippase activity sensitized cryptococcal cells to multiple classes of antifungal drugs and abolished fungal virulence in murine models.

Similar environments but diverse fates: Responses of budding yeast to nutrient deprivation.

Saul M. Honigberg

Diploid budding yeast (Saccharomyces cerevisiae) can adopt one of several alternative differentiation fates in response to nutrient limitation, and each of these fates provides distinct biological functions. When different strain backgrounds are taken into account, these various fates occur in response to similar environmental cues, are regulated by the same signal transduction pathways, and share many of the same master regulators. I propose that the relationships between fate choice, environmental cues and signaling pathways are not Boolean, but involve graded levels of signals, pathway activation and master-regulator activity.

A novel component of the mitochondrial genome segregation machinery in trypanosomes

Anneliese Hoffmann^1,2, Martin Jakob¹, and Torsten Ochsenreiter¹

This article comments on work published by Trikin et al. (PLoS Pathog, 2016), which described a new component of the mitochondrial genome segregation machinery in the protozoan parasite Trypanosoma brucei.

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Bax mitochondrial relocation is linked to its phosphorylation and its interaction with Bcl-xL

David Garenne^1,2, Thibaud T. Renault^1,3, Stéphen Manon¹

The heterologous expression of Bax, and other Bcl-2 family members, in the yeast Saccharomyces cerevisiae, has proved to be a valuable reporter system to investigate the molecular mechanisms underlying their interaction with mitochondria. Our data provide the molecular basis for a model of dynamic equilibrium for Bax localization and activation, regulated both by phosphorylation and Bcl-xL.

Autophagy: one more Nobel Prize for yeast

Andreas Zimmermann¹, Katharina Kainz¹, Aleksandra Andryushkova¹, Sebastian Hofer¹, Frank Madeo^1,2 and Didac Carmona-Gutierrez¹

The recent announcement of the 2016 Nobel Prize in Physiology or Medicine, awarded to Yoshinori Ohsumifor the discoveries of mechanisms governing autophagy, underscores the importance of intracellular degradation and recycling. Here we provide a quick historical overview that mirrors both the importance of autophagy as a conserved and essential process for cellular life and death as well as the crucial role of yeast in its mechanistic characterization.

Impact of histone H4K16 acetylation on the meiotic recombination checkpoint in Saccharomyces cerevisiae

Santiago Cavero^1,2, Esther Herruzo¹, David Ontoso^1,3 and Pedro A. San-Segundo¹

In meiotic cells, the pachytene checkpoint or meiotic recombination checkpoint is a surveillance mechanism that monitors critical processes, such as recombination and chromosome synapsis, which are essential for proper distribution of chromosomes to the meiotic progeny. We report here that Sas2-mediated acetylation of histone H4 at lysine 16 (H4K16ac) modulates meiotic checkpoint activity in response to synaptonemal complex defects. Our results reveal that proper levels of H4K16ac orchestrate this meiotic quality control mechanism and that Sir2 impinges on additional targets to fully activate the checkpoint.

The transcription factors ADR1 or CAT8 are required for RTG pathway activation and evasion from yeast acetic acid-induced programmed cell death in raffinose

Luna Laera^1,#, Nicoletta Guaragnella^1,#, Maša Ždralević^1,¶, Domenico Marzulli¹, Zhengchang Liu² and Sergio Giannattasio¹

Yeast Saccharomyces cerevisiae grown on glucose undergoes programmed cell death (PCD) induced by acetic acid (AA-PCD), but evades PCD when grown in raffinose. This is due to concomitant relief of carbon catabolite repression (CCR) and activation of mitochondrial retrograde signaling. In this work, we investigated the relationships between the RTG and CCR pathways in the modulation of AA-PCD sensitivity under glucose repression or de-repression conditions. Our data show that simultaneous mitochondrial retrograde pathway activation and SNF1-dependent relief of CCR have a key role in central carbon metabolism reprogramming which modulates the yeast acetic acid-stress response.

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.

Physiology, phylogeny, and LUCA

William F. Martin^1,2, Madeline C. Weiss¹, Sinje Neukirchen³, Shijulal Nelson-Sathi⁴, Filipa L. Sousa³

Genomes record their own history. But if we want to look all the way back to life's beginnings some 4 billion years ago, the record of microbial evolution that is preserved in prokaryotic genomes is not easy to read. The classical approach has been to look for genes that are universally distributed. Another approach is to make all trees for all genes, and sift out the trees where signals have been overwritten by lateral gene transfer. What is left ought to be ancient. If we do that, what do we find?

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.

Learning epigenetic regulation from mycobacteria

Sanjeev Khosla¹, Garima Sharma^1,2 and Imtiyaz Yaseen^1,2

This article comments on work published by Koshla et al. (Nat Commun, 2015), which shows that pathogenic Mycobacterium tuberculosis has evolved strategies to hijack the epigenetic regulation of host transcripton for its own survival.

Location, location, location. Salmonella senses ethanolamine to gauge distinct host environments and coordinate gene expression

Christopher J. Anderson and Melissa M. Kendall

This article comments on work published by Anderson and Kendell (PLoS Pathog, 2015), which demonstrates that Salmonella enterica serovar Typhimurium (Salmonella) exploits ethanolamine signaling to adapt to distinct host environments to precisely coordinate expression of genes encoding metabolism and virulence.

Biofilm assembly becomes crystal clear – filamentous bacteriophage organize the Pseudomonas aeruginosa biofilm matrix into a liquid crystal

Patrick R. Secor¹, Laura K. Jennings¹, Lia A. Michaels¹, Johanna M. Sweere², Pradeep K. Singh¹, William C. Parks³, Paul L. Bollyky²

This article comments on work published by Secor et al. (Host Cell & Microbe, 2015), which highlights a previously unknown role for filamentous Pf phage in organizing the P. aeruginosa biofilm matrix into a liquid crystalline structure. These findings help ground our understanding of biofilm formation within established paradigms of soft matter physics

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.

Yeast screening platform identifies FDA-approved drugs that reduce Aβ oligomerization

Triana Amen^1,2 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.

Chromatin binding and silencing: Two roles of the same protein Lem2

April 4, 2016

This article comments on work published by Barrales et al. (Genes Dev, 2016), which identifies the nuclear envelope protein Lem2, a homolog of metazoan lamin-associated proteins (LAPs), as a relevant factor for heterochromatin silencing and perinuclear localization in the fission yeast Schizosaccharomyces pombe.

When and where? Pathogenic Escherichia coli differentially sense host D-serine using a universal transporter system to monitor their environment

March 31, 2016

This article comments on work published by Connolly et al. (PLoS Pathog, 2016), which describes the discovery of a functional and previously uncharacterized D-serine uptake system in E. coli.

Signaling pathways and posttranslational modifications of tau in Alzheimer’s disease: the humanization of yeast cells

March 27, 2016

In the past decade, yeast have been frequently employed to study the molecular mechanisms of human neurodegenerative diseases, generally by means of heterologous expression of genes encoding the relevant hallmark proteins. Substantial posttranslational modifications of many of these proteins are required for the development and progression of potentially disease relevant changes. We give an overview on common modifications as they occur in tau during AD and discuss potential approaches to humanize yeast in order to create modification patterns resembling the situation in mammalian cells.

Insights into dynamin-associated disorders through analysis of equivalent mutations in the yeast dynamin Vps1

March 22, 2016

The dynamins represent a superfamily of proteins that have been shown to function in a wide range of membrane fusion and fission events. An increasing number of mutations in the human classical dynamins, Dyn-1 and Dyn-2 has been reported, with diseases caused by these changes ranging from Charcot-Marie-Tooth disorder to epileptic encephalopathies. This study aimed to use the dynamin-like protein Vps1 of Saccharomyces cerevisiae as a model to gain insights into the mechanistic defects caused by specific dynamin mutations considered to underlie a number of diseases.

Genomic saturation mutagenesis and polygenic analysis identify novel yeast genes affecting ethyl acetate production, a non-selectable polygenic trait

March 18, 2016

Isolation of mutants in populations of microorganisms has been a valuable tool in experimental genetics for decades. The main disadvantage, however, is the inability of isolating mutants in non-selectable polygenic traits. Our study shows that genomic saturation mutagenesis combined with complex trait polygenic analysis could be used successfully to identify causative alleles underlying many non-selectable, polygenic traits in small collections of haploid strains with multiple induced mutations.

The complexities of bacterial-fungal interactions in the mammalian gastrointestinal tract

March 17, 2016

This article comments on work published by Lopez-Medina et al. (PLoS Pathog, 2015) and Fan et al. (Nat Med, 2015), which utilize an “artificial” niche, the antibiotic-treated gut with concomitant pathogenic microbe expansion, to gain insight in bacterial-fungal interactions in clinically common scenarios.

The bacterial cell cycle checkpoint protein Obg and its role in programmed cell death

March 16, 2016

This article comments on work published by Dewachter et al. (mBio, 2015), which identified a programmed cell death mechanism in Escherichia coli that is triggered by a mutant isoform of the essential GTPase ObgE.

Bactericidal antibiotics induce programmed metabolic toxicity

March 9, 2016

This article comments on work published by Lobritz et al. (PNAS, 2015), which demonstrates that bactericidal antibiotics induce metabolic perturbations that are linked to and required for bactericidal antibiotic toxicity.

Control of the gut microbiome by fecal microRNA

March 9, 2016

This article comments on work published by Liu et al. (Cell Host & Microbe, 2016), which identifies miRNAs in gut lumen and feces of both mice and humans that were able to enter bacteria, specifically regulate bacterial gene transcripts and affect bacterial growth thereby regulating the gut microbiome.

Gearing up for survival – HSP-containing granules accumulate in quiescent cells and promote survival

March 6, 2016

This article comments on work published by Lee et al. (Microbial Cell, 2016), which reports that distinct granules are formed in quiescent and non-quiescent cells, which determines their respective cell fates.

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