Review, Reviews

Infinity war: <i>Trichomonas vaginalis</i> and interactions with host immune response

Infinity war: Trichomonas vaginalis and interactions with host immune response

Giulia Bongiorni Galego1 and Tiana Tasca1

Trichomonas vaginalis is the pathological agent of human trichomoniasis with an incidence of 156 million cases worldwide. This review highlights parasite strategies to activate and stimulate or evade variated and complex immunological mechanisms related to the symptoms and clinical complications observed here.

The metabolites of lactic acid bacteria: classification, biosynthesis and modulation of gut microbiota

The metabolites of lactic acid bacteria: classification, biosynthesis and modulation of gut microbiota

Huang Tang1,2, Wanqiu Huang1,2 and Yu-Feng Yao1,2,3,4,5

Lactic acid bacteria (LAB) are ubiquitous microorganisms that can colonize the intestine and participate in the physiological metabolism of the host. In this review, we summarize the metabolites of LAB and their influence on the intestine as well as the underlying regulatory mechanisms and their impact on human health.

Effects of the intestinal microbiota on prostate cancer treatment by androgen deprivation therapy

Safae Terrisse1, Laurence Zitvogel2-5 and Guido Kroemer6-8

Prostate cancer (PC) can be kept in check by androgen deprivation therapy (ADT, usually with the androgen synthesis inhibitor abiraterone acetate or the androgen receptor antagonist such as enzalutamide) until the tumor evolves to castration-resistant prostate cancer (CRPC). The transition of hormone-sensitive PC (HSPC) to CPRC has been explained by cancer cell-intrinsic resistance mechanisms. Recent data indicate that this transition is also marked by cancer cell-extrinsic mechanisms such as the failure of ADT-induced PC immunosurveillance, which depends on the presence of immunostimulatory bacteria in the gut. Moreover, intestinal bacteria that degrade drugs used for ADT, as well as bacteria that produce androgens, can interfere with the efficacy of ADT. Thus, specific bacteria in the gut serve as a source of testosterone, which accelerates prostate cancer progression, and men with CRPC exhibit an increased abundance of such bacteria with androgenic functions. In conclusion, the response of PC to ADT is profoundly influenced by the composition of the microbiota with its immunostimulatory, immunosuppressive and directly ADT-subversive elements.

Occurrence and potential mechanism of holin-mediated non-lytic protein translocation in bacteria

Thomas Brüser1 and Denise Mehner-Breitfeld1

Holins are generally believed to generate large membrane lesions that permit the passage of endolysins across the cytoplasmic membrane of prokaryotes, ultimately resulting in cell wall degradation and cell lysis. However, there are more and more examples known for non-lytic holin-dependent secretion of proteins by bacteria, indicating that holins somehow can transport proteins without causing large membrane lesions. Phage-derived holins can be used for a non-lytic endolysin translocation to permeabilize the cell wall for the passage of secreted proteins. In addition, clostridia, which do not possess the Tat pathway for transport of folded proteins, most likely employ non-lytic holin-mediated transport also for secretion of toxins and bacteriocins that are incompatible with the general Sec pathway. The mechanism for non-lytic holin-mediated transport is (...)

Swimming faster despite obstacles: a universal mechanism behind bacterial speed enhancement in complex fluids

Shashank Kamdar1 and Xiang Cheng1

Bacteria constitute about 15% of global biomass and their natural environments often contain polymers and colloids, which show complex flow properties. It is crucial to study their motion in such environments to understand their growth and spreading as well as to design synthetic microswimmers for biomedical applications. Bacterial motion in complex viscous environments, although extensively studied over the past six decades, still remains poorly understood. In our recent study combining experimental data and theoretical analysis, we found a surprising similarity between bacterial motion in dilute colloidal suspensions and polymer solutions, which challenged the established view on the role of polymer dynamics on bacterial speed enhancement. We subsequently developed a physical model that provides a universal mechanism explaining bacterial speed enhancement (...)

A roadmap for designing narrow-spectrum antibiotics targeting bacterial pathogens

Xinyun Cao1,*, Robert Landick1,2, Elizabeth A. Campbell3

This comment discusses the article "Basis of narrow-spectrum activity of fidaxomicin on Clostridioides difficile" by Cao et al. (2022, Nature).

Breaking the clip for cargo unloading from motor proteins: mechanism and significance

Keisuke Obara1, and Takumi Kamura1

The mitochondrion is an essential organelle involved in ATP generation, lipid metabolism, regulation of calcium ions, etc. Therefore, it should be inherited properly by newly generated cells. In the budding yeast Saccharomyces cerevisiae, mitochondria are passed on to daughter cells by the motor protein, Myo2, on the actin cable. The mitochondria and Myo2 are connected via the adaptor protein Mmr1. After reaching daughter cells, mitochondria are released from the actin-myosin machinery and move dynamically. In our recent paper (Obara K et al. (2022), Nat Commun, doi:10.1038/s41467-022-29704-8), we demonstrated that the regulated proteolysis of Mmr1 is required for the unloading of mitochondria from Myo2 in daughter cells. Sequential post-translational modifications of Mmr1, i.e., phosphorylation followed by ubiquitination, are essential for Mmr1 degradation and mitochondrial release from Myo2. Defects in Mmr1 degradation cause stacking and deformation of mitochondria at the bud-tip and bud-neck, where Myo2 accumulates. Compared to wild-type cells, mutant cells with defects in Mmr1 degradation possess an elevated mitochondrial membrane potential and produce higher levels of reactive oxygen species (ROS), along with hypersensitivity to oxidative stress.

Fatty acid metabolism of Mycobacterium tuberculosis: A double-edged sword

Camila G. Quinonez1,2, Jae Jin Lee1, Juhyeon Lim1, Mark Odell3, Christopher P. Lawson4, Amarachukwu Anyogu5, Saki Raheem2 and Hyungjin Eoh1

Unlike other heterotrophic bacteria, Mycobacterium tuberculosis (Mtb) can co-catabolize a range of carbon sources simultaneously. Evolution of Mtb within host nutrient environment allows Mtb to consume the host’s fatty acids as a main carbon source during infection. The fatty acid-induced metabolic advantage greatly contributes to Mtb’s pathogenicity and virulence. Thus, the identification of key enzymes involved in Mtb’s fatty acid metabolism is urgently needed to aid new drug development. Two fatty acid metabolism enzymes, phosphoenolpyruvate carboxykinase (PEPCK) and isocitrate lyase (ICL) have been intensively studied as promising drug targets, but recently, Quinonez et al. (mBio, doi: 10.1128/mbio.03559-21) highlighted a link between the fatty acid-induced dormancy-like state and drug tolerance. (...)

Pirates of the haemoglobin

Daniel Akinbosede1, Robert Chizea1 and Stephen A. Hare1,

Not all treasure is silver and gold; for pathogenic bacteria, iron is the most precious and the most pillaged of metallic elements. Iron is essential for the survival and growth of all life; however free iron is scarce for bacteria inside human hosts. As a mechanism of defence, humans have evolved ways to store iron so as to render it inaccessible for invading pathogens, such as keeping the metal bound to iron-carrying proteins. For bacteria to survive within humans, they must therefore evolve counters to this defence to compete with these proteins for iron binding, or directly steal iron from them. (...)

Previous Next

Lipid and fatty acid metabolism in trypanosomatids

October 6, 2021

This work reviews specific aspects of lipid and fatty acid metabolism in the protozoan parasites T. brucei, T. cruzi, and Leishmania spp., as well as the pathways that have been explored for the development of new chemotherapies.

Using microbial metalo-aminopeptidases as targets in human infectious diseases

August 9, 2021

This Review highlights the relevant roles of microbial metalo-aminopeptidases in bacteria and protozoa that could be targeted for therapeutic purposes.

Understanding the pathogenesis of infectious diseases by single-cell RNA sequencing

August 4, 2021

This work highlights recent remarkable advances in single-cell RNA sequencing technologies and their applications in the investigation of host-pathogen interactions. Current challenges and potential prospects for disease treatment are discussed as well.

Exploring absent protein function in yeast: assaying post translational modification and human genetic variation

July 2, 2021

This review discusses the applicability of yeast systems to investigate absent human protein function with a specific focus on the impact of protein variation on protein-protein interaction modulation.

LasR-regulated proteases in acute vs. chronic lung infection: a double-edged sword

May 31, 2021

This article comments on work published by Hennemann et al. (PLoS Pathog, 2021), which observed that in Pseudomonas aeruginosa, functional loss of the quorum sensing transcriptional activator LasR in lasR variants results in impaired secreted protease production, leads to increased expression of the membrane-bound surface adhesion molecule mICAM-1 in the airway epithelium, and increases neutrophilic inflammation.

DNA polymerase III protein, HolC, helps resolve replication/transcription conflicts

May 6, 2021

This article comments on work published by Cooper et al. (mBio, 2021), which isolated and identified spontaneous suppressor mutants in a strain devoid of the holC gene, which encodes an accessory protein to the core clamp loader complex and is the only protein of the DNA polymerase III holoenzyme that binds to single-strand DNA binding protein.

Too much of a good thing: Overproduction of virulence factors impairs cryptococcal pathogenicity

April 20, 2021

This article comments on work published by Reuwsaat et al. (mBio, 2021), which identified the transcription factor Pdr802 as essential for Cryptococcus neoformans adaptation to and survival under host conditions both in vitro and in vivo.

Host-bacteria metabolic crosstalk drives S. aureus biofilm

April 19, 2021

This article comments on work published by Tomlinson et al. (Nat Comm, 2021), which demonstrates that Staphylococcus aureus induces the production of the immunoreglatory metabolite itaconate in airway immune cells by stimulating mitochondrial oxidant stress. Itaconate in turn inhibits S. aureus glycolysis and growth, and promoted carbon flux through bacterial metabolic pathways that support biofilm production.

Mechanisms underlying lactic acid tolerance and its influence on lactic acid production in Saccharomyces cerevisiae

April 14, 2021

This article reviews the manner in which Saccharomyces cerevisiae deals with the accumulation of lactic acid as a singular stress factor as well as in combination with other stresses. In addition, different methods to improve lactic acid tolerance in S. cerevisiae using targeted and non-targeted engineering methods are discussed.

When the pandemic opts for the lockdown: Secretion system evolution in the cholera bacterium

February 18, 2021

This article comments on work published by Santoriello et al. (Nat Comm, 2020), which demonstrates that the T6SS island Auxiliary Cluster 3 (Aux3) is unique to pandemic strains of V. cholerae.

Previous Next