Effect of lycopene on As2O3 induced oxidative stress in SH-SY5Y cells

It is known that oxidative stress may cause neuronal injury and several experimental models showed that As₂O₃ exposure causes oxidative stress. Lycopene, a carotenoid, has been shown to have protective effect in neurological disease models due to antioxidant activity, but its effect on As₂O₃-induced neurotoxicity is not identified yet. The aim of this study is to investigate the effects of lycopene on As₂O₃-induced neuronal damage and the related mechanisms. Cell viability was determined by the MTT assay. Lycopene was administrated with different concentrations (2, 4, 6 and 8 µM) one hour before 2 µM As₂O₃ exposure in SH-SY5Y human neuroblastoma cells. The anti-oxidant effect of lycopene was determined by measuring superoxide dismutase (SOD), catalase (CAT) hydrogen peroxide (H₂O₂), malondialdehyde (MDA), total antioxidant status (TAS) and total oxidant status (TOS). MTT results and LDH cytotoxicity analyses showed that pretreatment with 8 µM lycopene significantly improved the toxicity due to As₂O₃ exposure in SH?SY5Y neuroblastoma cells. Pretreatment with lycopene significantly increased the activities of anti?oxidative enzymes as well as total antioxidant status and decreased total oxidative status in As₂O₃ exposed cells. The results of this study indicate that lycopene may be a potent neuroprotective against oxidative stress and could be used to prevent neuronal injury or death in several neurological diseases.

     

First Record of Steinernema kraussei (Rhabditida: Steinernematidae) from Turkey and Its Virulence against Agrotis segetum (Lepidoptera: Noctuidae)

During a survey of entomopathogenic nematodes (EPNs) in the eastern Black Sea region of Turkey in 2009–2012, a steinernematid species was recorded and isolated using the Galleria-baiting method. The isolate was identified as Steinernema kraussei based on its morphological and molecular properties. The analysis of the ITS rDNA sequence placed the Turkish population of S. kraussei in the “feltiae-kraussei” group in the clade that contains different isolates of the species. This is the first record of S. kraussei from Turkey. The efficacy of S. kraussei was tested on Agrotis segetum (Lepidoptera: Noctuidea) larvae at different densities (100, 300, and 500 infective juveniles (IJs) g⁻¹ dry sand ) in laboratory conditions at 25 °C. The highest mortality (98%) was obtained with 500 IJs g⁻¹ dry sand within 7 d after inoculation. Our results indicate that the new isolate is a highly promising biological control agent against A. segetum, one of the most serious soil pests of agricultural area and fruits worldwide.     

A minimal TrpRS catalytic domain supports sense/antisense ancestry of class I and II aminoacyl-tRNA synthetases

The emergence of polypeptide catalysts for amino acid activation, the slowest step in protein synthesis, poses a significant puzzle associated with the origin of biology. This problem is compounded as the 20 contemporary aminoacyl-tRNA synthetases belong to two quite distinct families. We describe here the use of protein design to show experimentally that a minimal class I aminoacyl-tRNA synthetase active site might have functioned in the distant past. We deleted the anticodon binding domain from tryptophanyl-tRNA synthetase and fused the discontinuous segments comprising its active site. The resulting 130 residue minimal catalytic domain activates tryptophan. This residual catalytic activity constitutes the first experimental evidence that the conserved class I signature sequences, HIGH and KMSKS, might have arisen in-frame, opposite motifs 2 and 1 from class II, as complementary sense and antisense strands of the same ancestral gene.     

Polyubiquitin Is Required for Growth, Development and Pathogenicity in the Rice Blast Fungus Magnaporthe oryzae

Protein ubiquitination, which is highly selective, regulates many important biological processes including cellular differentiation and pathogenesis in eukaryotic cells. Here, we integrated pharmacological, molecular and proteomic approaches to explore the role of ubiquitination in Magnaporthe oryzae, the leading fungal disease of rice world-wide. Inhibition of ubiquitin-mediated proteolysis using the 26S proteasome inhibitor, Bortezomib, significantly attenuated conidia germination, appressorium formation and pathogenicity in M. oryzae. Gene expression analysis revealed that many genes associated with protein ubiquitination were developmentally regulated during conidia germination. Only a few, including a polyubiquitin encoding gene, MGG_01282, were more abundantly expressed during appressorium formation and under nitrogen starvation. Targeted gene deletion of MGG_01282, in addition to a significant reduction in protein ubiquitination as determined by immuno blot assays, resulted in pleiotropic effects on M. oryzae including reduced growth and sporulation, abnormal conidia morphology, reduced germination and appressorium formation, and the inability to cause disease. Mutants were also defective in sexual development and were female sterile. Using mass spectrometry, we identified 63 candidate polyubiquitinated proteins under nitrogen starvation, which included overrepresentation of proteins involved in translation, transport and protein modification. Our study suggests that ubiquitination of target proteins plays an important role in nutrient assimilation, development and pathogenicity of M. oryzae.     

The a2b adenosine receptor modulates glucose homeostasis and obesity

Background

High fat diet and its induced changes in glucose homeostasis, inflammation and obesity continue to be an epidemic in developed countries. The A2b adenosine receptor (A2bAR) is known to regulate inflammation. We used a diet-induced obesity murine knockout model to investigate the role of this receptor in mediating metabolic homeostasis, and correlated our findings in obese patient samples.

Methodology/Principal Findings

Administration of high fat, high cholesterol diet (HFD) for sixteen weeks vastly upregulated the expression of the A2bAR in control mice, while A2bAR knockout (KO) mice under this diet developed greater obesity and hallmarks of type 2 diabetes (T2D), assessed by delayed glucose clearance and augmented insulin levels compared to matching control mice. We identified a novel link between the expression of A2bAR, insulin receptor substrate 2 (IRS-2), and insulin signaling, determined by Western blotting for IRS-2 and tissue Akt phosphorylation. The latter is impaired in tissues of A2bAR KO mice, along with a greater inflammatory state. Additional mechanisms involved include A2bAR regulation of SREBP-1 expression, a repressor of IRS-2. Importantly, pharmacological activation of the A2bAR by injection of the A2bAR ligand BAY 60-6583 for four weeks post HFD restores IRS-2 levels, and ameliorates T2D. Finally, in obese human subjects A2bAR expression correlates strongly with IRS-2 expression.

Conclusions/Significance

Our study identified the A2bAR as a significant regulator of HFD-induced hallmarks of T2D, thereby pointing to its therapeutic potential.     

Inducible Toll-like receptor and NF-kappaB regulatory pathway expression in human adipose tissue

Objective: Inflammatory activity in fat tissue has recently been implicated in mechanisms of insulin resistance and obesity‐related metabolic dysfunction. Toll‐like receptors (TLRs) play a key role in innate immune responses and recent studies implicate the TLR pathway in mechanisms of inflammation and atherosclerosis. The aim of this study was to examine differential TLR expression and function in human adipose tissue. Methods and Procedures: We biopsied subcutaneous abdominal fat from 16 obese subjects (age 39 ± 11 years, BMI 49 ± 14 kg/m²) and characterized TLR expression using quantitative real‐time PCR and confocal immunofluorescence imaging. In tissue culture, we stimulated isolated human adipocytes with Pam3CSK4 and lipopolysaccharide (LPS) (TLR2 and TLR4 agonists, respectively) and quantified TLR activity, interleukin‐6 (IL‐6) and tumor necrosis factor‐α (TNF‐α) production, and nuclear factor‐κB (NF‐κB) p65 nuclear activation using real‐time PCR, enzyme‐linked immunosorbent assay (ELISA), and immunofluorescence. Results: TLR1, 2, and 4 protein colocalized with adiponectin in human adipocytes with TLR4 exhibiting the highest immunohistochemical expression. Using real‐time PCR, we confirmed higher level of gene expression for TLR4 as compared to other members of the TLR family (TLR1, 2, 7, 8) in human adipose depots (P < 0.001). In tissue culture, adipocyte TLR2/TLR4 mRNA expression and protein increased significantly following Pam3CSK4 and LPS (P < 0.001). TLR2/TLR4 stimulation was associated with NF‐κB p65 nuclear translocation and proinflammatory cytokine production. Discussion: The findings demonstrate that TLRs are inducible in adipose tissue and linked with downstream NF‐κB activation and cytokine release. Adipose stores may play a dynamic role in the regulation of inflammation and innate immunity in human subjects via modulation of the TLR/NF‐κB regulatory pathway.     

The ratio of monomeric to aggregated forms of Abeta40 and Abeta42 is an important determinant of amyloid-beta aggregation, fibrillogenesis, and toxicity

Aggregation and fibril formation of amyloid-beta (Abeta) peptides Abeta40 and Abeta42 are central events in the pathogenesis of Alzheimer disease. Previous studies have established the ratio of Abeta40 to Abeta42 as an important factor in determining the fibrillogenesis, toxicity, and pathological distribution of Abeta. To better understand the molecular basis underlying the pathologic consequences associated with alterations in the ratio of Abeta40 to Abeta42, we probed the concentration- and ratio-dependent interactions between well defined states of the two peptides at different stages of aggregation along the amyloid formation pathway. We report that monomeric Abeta40 alters the kinetic stability, solubility, and morphological properties of Abeta42 aggregates and prevents their conversion into mature fibrils. Abeta40, at approximately equimolar ratios (Abeta40/Abeta42 approximately 0.5-1), inhibits (> 50%) fibril formation by monomeric Abeta42, whereas inhibition of protofibrillar Abeta42 fibrillogenesis is achieved at lower, substoichiometric ratios (Abeta40/Abeta42 approximately 0.1). The inhibitory effect of Abeta40 on Abeta42 fibrillogenesis is reversed by the introduction of excess Abeta42 monomer. Additionally, monomeric Abeta42 and Abeta40 are constantly recycled and compete for binding to the ends of protofibrillar and fibrillar Abeta aggregates. Whereas the fibrillogenesis of both monomeric species can be seeded by fibrils composed of either peptide, Abeta42 protofibrils selectively seed the fibrillogenesis of monomeric Abeta42 but not monomeric Abeta40. Finally, we also show that the amyloidogenic propensities of different individual and mixed Abeta species correlates with their relative neuronal toxicities. These findings, which highlight specific points in the amyloid peptide equilibrium that are highly sensitive to the ratio of Abeta40 to Abeta42, carry important implications for the pathogenesis and current therapeutic strategies of Alzheimer disease.     

PROGRESS STUDY: Progression of chronic kidney disease in children and heat shock proteins

Various molecular and cellular processes are involved in renal fibrosis, such as oxidative stress, inflammation, endothelial cell injury, and apoptosis. Heat shock proteins (HSPs) are implicated in the progression of chronic kidney disease (CKD). Our aim was to evaluate changes in urine and serum HSP levels over time and their relationships with the clinical parameters of CKD in children. In total, 117 children with CKD and 56 healthy children were examined. The CKD group was followed up prospectively for 24 months. Serum and urine HSP27, HSP40, HSP47, HSP60, HSP70, HSP72, and HSP90 levels and serum anti-HSP60 and anti-HSP70 levels were measured by ELISA at baseline, 12 months, and 24 months. The urine levels of all HSPs and the serum levels of HSP40, HSP47, HSP60, HSP70, anti-HSP60, and anti-HSP70 were higher at baseline in the CKD group than in the control group. Over the months, serum HSP47 and HSP60 levels steadily decreased, whereas HSP90 and anti-HSP60 levels steadily increased. Urine HSP levels were elevated in children with CKD; however, with the exception of HSP90, they decreased over time. In conclusion, our study demonstrates that CKD progression is a complicated process that involves HSPs, but they do not predict CKD progression. The protective role of HSPs against CKD may weaken over time, and HSP90 may have a detrimental effect on the disease course.Supplementary InformationThe online version contains supplementary material available at 10.1007/s12192-021-01239-9.