Truncated thioredoxin (Trx‐80) promotes pro‐inflammatory macrophages of the M1 phenotype and enhances atherosclerosis

Vascular cells are particularly susceptible to oxidative stress that is believed to play a key role in the pathogenesis of cardiovascular disorders. Thioredoxin‐1 (Trx‐1) is an oxidative stress‐limiting protein with anti‐inflammatory and anti‐apoptotic properties. In contrast, its truncated form (Trx‐80) exerts pro‐inflammatory effects. Here we analyzed whether Trx‐80 might exert atherogenic effects by promoting macrophage differentiation into the M1 pro‐inflammatory phenotype. Trx‐80 at 1 µg/ml significantly attenuated the polarization of anti‐inflammatory M2 macrophages induced by exposure to either IL‐4 at 15 ng/ml or IL‐4/IL‐13 (10 ng/ml each) in vitro, as evidenced by the expression of the characteristic markers, CD206 and IL‐10. By contrast, in LPS‐challenged macrophages, Trx‐80 significantly potentiated the differentiation into inflammatory M1 macrophages as indicated by the expression of the M1 cytokines, TNF‐α and MCP‐1. When Trx‐80 was administered to hyperlipoproteinemic ApoE2.Ki mice at 30 µg/g body weight (b.w.) challenged either with LPS at 30 µg/30 g (b.w.) or IL‐4 at 500 ng/30 g (b.w.), it significantly induced the M1 phenotype but inhibited differentiation of M2 macrophages in thymus and liver. When ApoE2.Ki mice were challenged once weekly with LPS for 5 weeks, they showed severe atherosclerotic lesions enriched with macrophages expressing predominantly M1 over M2 markers. Such effect was potentiated when mice received daily, in addition to LPS, the Trx‐80. Moreover, the Trx‐80 treatment led to a significantly increased aortic lesion area. The ability of Trx‐80 to promote differentiation of macrophages into the classical proinflammatory phenotype may explain its atherogenic effects in cardiovascular diseases. J. Cell. Physiol. 228: 1577–1583, 2013. © 2013 Wiley Periodicals, Inc.     

Biological effects of alkaloïds extracted from three plants of Moroccan arid areas on the desert locust

Abstract. The effects of three plant species, Calotropis procera , Zygophyllum gaetulum and Peganum harmala on survival, feeding behaviour and reproduction in the desert locust ( Schistocerca gregaria ) were studied under laboratory conditions. The species originate in Moroccan arid areas and were seen to be avoided by locusts during the 1995 upsurge in Morocco. Alkaloids were extracted from leaves of the plants and applied topically to lettuce for leaves which were then offered with no other food to young adults of the desert locust for 3 days. The locust were then fed on untreated lettuce for 15 days. Controls were fed with lettuce leaves treated with ethanol. The results indicate that the alkaloids extracted from each of the three plant species cause a significant mortality compared to untreated controls and reduced food intake, as well as causing weight loss. Alkaloids extracted from C. procera and Z. gaetulum prevent sexual maturity both in males and females. However, alkaloids extracted from P. harmala merely delay sexual maturity by at least 8 days and engender a reduction in female fecundity and hatching rate compared to untreated controls. The presence and the concentration of alkaloids and other secondary substances in the investigated plants may explain the avoidance behaviour manifested by locusts under natural conditions.     

Tristetraprolin inhibits Ras-dependent tumor vascularization by inducing vascular endothelial growth factor mRNA degradation

Vascular endothelial growth factor (VEGF) is one of the most important regulators of physiological and pathological angiogenesis. Constitutive activation of the extracellular signal-regulated kinase (ERK) pathway and overexpression of VEGF are common denominators of tumors from different origins. We have established a new link between these two fundamental observations converging on VEGF mRNA stability. In this complex phenomenon, tristetraprolin (TTP), an adenylate and uridylate-rich element-associated protein that binds to VEGF mRNA 3′-untranslated region, plays a key role by inducing VEGF mRNA degradation, thus maintaining basal VEGF mRNA amounts in normal cells. ERKs activation results in the accumulation of TTP mRNA. However, ERKs reduce the VEGF mRNA-destabilizing effect of TTP, leading to an increase in VEGF expression that favors the angiogenic switch. Moreover, TTP decreases RasVal12-dependent VEGF expression and development of vascularized tumors in nude mice. As a consequence, TTP might represent a novel antiangiogenic and antitumor agent acting through its destabilizing activity on VEGF mRNA. Determination of TTP and ERKs status would provide useful information for the evaluation of the angiogenic potential in human tumors.     

The public and private benefit of an impure public good determines the sensitivity of bacteria to population collapse in a snowdrift game

When cooperation is critical for survival, cheating can lead to population collapse. One mechanism of cooperation that permits the coexistence of cooperators and cheaters is an impure public good, whose public benefits are shared, but with a private benefit retained by the cooperator. It has yet to be determined how the contributions of the public and private benefit affect population survival. Using simulations and experiments with β-lactamase-expressing bacteria, we found that for a given amount of public and private benefit, the population was most sensitive to collapse when initiated from an intermediate fraction of cooperators due to the near-concurrent collapse of the cooperator and cheater populations. We found that increasing the ratio of public to private benefit increased sensitivity to collapse. A low ratio allowed cooperators to survive on their private benefit after the public benefit could not rescue the cheaters. A high ratio allowed the cheaters to survive to high concentrations of ampicillin due to the high public benefit. However, small increases in ampicillin caused a rapid decline in the entire population as the private benefit was insufficient to allow self-rescue of the cooperators. Our findings have implications in the persistence of populations that rely on cooperation for survival.     

Sequence-specific recognition of DNA minor groove by an NIR-fluorescence switch-on probe and its potential applications

In molecular biology, understanding the functional and structural aspects of DNA requires sequence-specific DNA binding probes. Especially, sequence-specific fluorescence probes offer the advantage of real-time monitoring of the conformational and structural reorganization of DNA in living cells. Herein, we designed a new class of D2A (one-donor-two-acceptor) near-infrared (NIR) fluorescence switch-on probe named quinone cyanine–dithiazole (QCy–DT) based on the distinctive internal charge transfer (ICT) process for minor groove recognition of AT-rich DNA. Interestingly, QCy–DT exhibited strong NIR-fluorescence enhancement in the presence of AT-rich DNA compared to GC-rich and single-stranded DNAs. We show sequence-specific minor groove recognition of QCy–DT for DNA containing 5′-AATT-3′ sequence over other variable (A/T)4 sequences and local nucleobase variation study around the 5′-X(AATT)Y-3′ recognition sequence revealed that X = A and Y = T are the most preferable nucleobases. The live cell imaging studies confirmed mammalian cell permeability, low-toxicity and selective staining capacity of nuclear DNA without requiring RNase treatment. Further, Plasmodium falciparum with an AT-rich genome showed specific uptake with a reasonably low IC₅₀ value (<4 µM). The ease of synthesis, large Stokes shift, sequence-specific DNA minor groove recognition with switch-on NIR-fluorescence, photostability and parasite staining with low IC₅₀ make QCy–DT a potential and commercially viable DNA probe.     

Evolutionary Trade-Offs Underlie the Multi-faceted Virulence of Staphylococcus aureus

Bacterial virulence is a multifaceted trait where the interactions between pathogen and host factors affect the severity and outcome of the infection. Toxin secretion is central to the biology of many bacterial pathogens and is widely accepted as playing a crucial role in disease pathology. To understand the relationship between toxicity and bacterial virulence in greater depth, we studied two sequenced collections of the major human pathogen Staphylococcus aureus and found an unexpected inverse correlation between bacterial toxicity and disease severity. By applying a functional genomics approach, we identified several novel toxicity-affecting loci responsible for the wide range in toxic phenotypes observed within these collections. To understand the apparent higher propensity of low toxicity isolates to cause bacteraemia, we performed several functional assays, and our findings suggest that within-host fitness differences between high- and low-toxicity isolates in human serum is a contributing factor. As invasive infections, such as bacteraemia, limit the opportunities for onward transmission, highly toxic strains could gain an additional between-host fitness advantage, potentially contributing to the maintenance of toxicity at the population level. Our results clearly demonstrate how evolutionary trade-offs between toxicity, relative fitness, and transmissibility are critical for understanding the multifaceted nature of bacterial virulence.     

Famotidine inhibits toll-like receptor 3-mediated inflammatory signaling in SARS-CoV-2 infection

Apart from prevention using vaccinations, the management options for COVID-19 remain limited. In retrospective cohort studies, use of famotidine, a specific oral H2 receptor antagonist (antihistamine), has been associated with reduced risk of intubation and death in patients hospitalized with COVID-19. In a case series, nonhospitalized patients with COVID-19 experienced rapid symptom resolution after taking famotidine, but the molecular basis of these observations remains elusive. Here we show using biochemical, cellular, and functional assays that famotidine has no effect on viral replication or viral protease activity. However, famotidine can affect histamine-induced signaling processes in infected Caco2 cells. Specifically, famotidine treatment inhibits histamine-induced expression of Toll-like receptor 3 (TLR3) in SARS-CoV-2 infected cells and can reduce TLR3-dependent signaling processes that culminate in activation of IRF3 and the NF-κB pathway, subsequently controlling antiviral and inflammatory responses. SARS-CoV-2-infected cells treated with famotidine demonstrate reduced expression levels of the inflammatory mediators CCL-2 and IL6, drivers of the cytokine release syndrome that precipitates poor outcome for patients with COVID-19. Given that pharmacokinetic studies indicate that famotidine can reach concentrations in blood that suffice to antagonize histamine H2 receptors expressed in mast cells, neutrophils, and eosinophils, these observations explain how famotidine may contribute to the reduced histamine-induced inflammation and cytokine release, thereby improving the outcome for patients with COVID-19.     

Mycoredoxin‐1 is one of the missing links in the oxidative stress defence mechanism of Mycobacteria

To survive hostile conditions, the bacterial pathogen Mycobacterium tuberculosis produces millimolar concentrations of mycothiol as a redox buffer against oxidative stress. The reductases that couple the reducing power of mycothiol to redox active proteins in the cell are not known. We report a novel mycothiol‐dependent reductase (mycoredoxin‐1) with a CGYC catalytic motif. With mycoredoxin‐1 and mycothiol deletion strains of Mycobacterium smegmatis, we show that mycoredoxin‐1 and mycothiol are involved in the protection against oxidative stress. Mycoredoxin‐1 acts as an oxidoreductase exclusively linked to the mycothiol electron transfer pathway and it can reduce S‐mycothiolated mixed disulphides. Moreover, we solved the solution structures of oxidized and reduced mycoredoxin‐1, revealing a thioredoxin fold with a putative mycothiol‐binding site. With HSQC snapshots during electron transport, we visualize the reduction of oxidized mycoredoxin‐1 as a function of time and find that mycoredoxin‐1 gets S‐mycothiolated on its N‐terminal nucleophilic cysteine. Mycoredoxin‐1 has a redox potential of ?218 mV and hydrogen bonding with neighbouring residues lowers the pK_a of its N‐terminal nucleophilic cysteine. Determination of the oxidized and reduced structures of mycoredoxin‐1, better understanding of mycothiol‐dependent reactions in general, will likely give new insights in how M. tuberculosis survives oxidative stress in human macrophages.     

Microbiological quality of wheat flour consumed in Morocco

Cereal products (soft and hard wheat) are a basic staple food in the Moroccan diet. A total of 60 samples of two types of wheat flours used for human consumption were collected; 30 samples among this collection were obtained from various households using Moroccan varieties of wheat produced in traditional flour mills. The rest of the samples were purchased from retail wheat flour sources in the Rabat and Sale city markets. Standard plate counts (SPC), total and faecal coliforms, Clostridium, Salmonella spp., Shigella spp., Staphylococcus aureus, Listeria monocytogenes, yeast, lactic acid bacteria, and molds, were carried out to assess the microbiological quality of wheat flour. Microbiological interpretation of the criteria was performed according to standards implemented by the Codex Alimentarius Commission. Most frequent counts, in traditional and industrial wheat flour, were total aerobic mesophilic bacteria with an average 4 × 104 and 2.5 × 104 cfu/g, respectively. The results showed higher coliform and fungi counts in house than in commercial samples. Pathogenic flora as Salmonella spp., Shigella spp., S. aureus, L. monocytogenes, and Clostridium were not detected in all investigated samples. Bacterial strains isolated from both flours belong to the following genera: Enterobacter spp., Serratia spp., Klebsiella spp., Pantoea spp., Leclercia spp., Proteus spp. The most frequent genus of the investigated isolates was Aspergillus (81 %). Microbial counts were lower than the limit laid down in the Codex Alimentarius, attributing to these flours a satisfactory microbiological quality.