Abbas Nikravesh

Competitive inhibition of natural antisense Sok-RNA interactions activates Hok-mediated cell killing in Escherichia coli

Short regulatory RNAs are widespread in bacteria, and many function through antisense recognition of mRNA. Among the best studied antisense transcripts are RNA antitoxins that repress toxin mRNA translation. The hok/sok locus of plasmid R1 from Escherichia coli is an established model for RNA antitoxin action. Base-pairing between hok mRNA and Sok-antisense-RNA increases plasmid maintenance through post-segregational-killing of plasmid-free progeny cells. To test the model and the idea that sequestration of Sok-RNA activity could provide a novel antimicrobial strategy, we designed anti Sok peptide nucleic acid (PNA) oligomers that, according to the model, would act as competitive inhibitors of hok mRNA::Sok-RNA interactions. In hok/sok-carrying cells, anti Sok PNAs were more bactericidal than rifampicin. Also, anti Sok PNAs induced ghost cell morphology and an accumulation of mature hok mRNA, consistent with cell killing through synthesis of Hok protein. The results support the sense/antisense model for hok mRNA repression by Sok-RNA and demonstrate that antisense agents can be used to out-compete RNA::RNA interactions in bacteria. Finally, BLAST analyses of ≈200 prokaryotic genomes revealed that many enteric bacteria have multiple hok/sok homologous and analogous RNA-regulated toxin–antitoxin loci. Therefore, it is possible to activate suicide in bacteria by targeting antitoxins.

The analysis of correlation between IL-1B gene expression and genotyping in multiple sclerosis patients

IL-1B is released by monocytes, astrocytes and brain endothelial cells and seems to be involved in inflammatory reactions of the central nervous system (CNS) in multiple sclerosis (MS). This study aims to evaluate the expression level of IL-1B mRNA in peripheral blood mononuclear cells (PBMCs), genotype the rs16944 SNP and find out the role of this SNP on the expression level of IL-1B in MS patients. We found that the expression level of IL-1B in MS patients increased 3.336 times more than controls in PBMCs but the rs16944 SNP in the promoter region of IL-1B did not affect the expression level of this gene and there was not association of this SNP with MS in the examined population. Also, our data did not reveal any correlation between normalized expressions of IL-1B gene with age of participants, age of onset, and disease duration.

Variable coordination of cotranscribed genes in Escherichia coli following antisense repression

BackgroundA majority of bacterial genes belong to tight clusters and operons, which complicates gene functional studies using conventional knock-out methods. Antisense agents can down-regulate the expression of genes without disrupting the genome because they bind mRNA and block its expression. However, it is unclear how antisense inhibition affects expression from genes that are cotranscribed with the target.ResultsTo examine the effects of antisense inhibition on cotranscribed genes, we constructed a plasmid expressing the two reporter genes gfp and DsRed as one transcriptional unit. Incubation with antisense peptide nucleic acid (PNA) targeted to the mRNA start codon region of either the upstream gfp or the downstream DsRed gene resulted in a complete expression discoordination from this artificial construct. The same approach was applied to the three cotranscribed genes in the endogenously expressed lac-operon (lacZ, Y and A) and partial downstream expression coordination was seen when the lacZ start codon was targeted with antisense PNA. Targeting the lacY mRNA start codon region showed no effect on the upstream lacZ gene expression whereas expression from the downstream lacA gene was affected as strongly as the lacY gene. Determination of lacZ and lacY mRNA levels revealed a pattern of reduction that was similar to the Lac-proteins, indicating a relation between translation inhibition and mRNA degradation as a response to antisense PNA treatment.ConclusionThe results show that antisense mediated repression of genes within operons affect cotranscribed genes to a variable degree. Target transcript stability appears to be closely related to inhibition of translation and presumably depends on translating ribosomes protecting the mRNA from intrinsic decay mechanisms. Therefore, for genes within operons and clusters it is likely that the nature of the target transcript will determine the inhibitory effects on cotranscribed genes. Consequently, no simple and specific methods for expression control of a single gene within polycistronic operons are available, and a thorough understanding of mRNA regulation and stability is required to understand the results from both knock-down and knock-out methods used in bacteria.

Structure-Specific Recognition of Friedreich’s Ataxia (GAA)n Repeats by Benzoquinoquinoxaline Derivatives

Expansion of GAA triplet repeats in intron 1 of the FXN gene reduces frataxin expression and causes Friedreichs ataxia. (GAA)n repeats form non‐B‐DNA structures, including triple helix H‐DNA and higher‐order structures (sticky DNA). In the proposed mechanisms of frataxin gene silencing, central unanswered questions involve the characterization of non‐B‐DNA structure(s) that are strongly suggested to play a role in frataxin expression. Here we examined (GAA)n binding by triplex‐stabilizing benzoquinoquinoxaline (BQQ) and the corresponding triplex‐DNA‐cleaving BQQ‐1,10‐phenanthroline (BQQ‐OP) compounds. We also examined the ability of these compounds to act as structural probes for H‐DNA formation within higher‐order structures at pathological frataxin sequences in plasmids. DNA‐complex‐formation analyses with a gel‐mobility‐shift assay and sequence‐specific probing of H‐DNA‐forming (GAA)n sequences by single‐strand oligonucleotides and triplex‐directed cleavage demonstrated that a parallel pyrimidine (rather than purine) triplex is the more stable motif formed at (GAA)n repeats under physiologically relevant conditions.

Expression of suppressor of cytokine signaling 1 (SOCS1) gene dramatically increases in relapsing-remitting multiple sclerosis.

Suppressor of cytokine signaling 1 (SOCS1) is a key regulator of cytokines signaling and plays the most important role in the regulation of the autoimmune responses. The absence of SOCS1 leads to aberrant thymocyte development and systemic inflammation. This study was conducted to evaluate the expression level of SOCS1 mRNA in peripheral blood mononuclear cells (PBMCs) of relapsing-remitting (RR)-multiple sclerosis (MS) patients. In addition, the association of rs243324 SNP with MS and the assessment of this SNP role on the expression level of SOCS1 were aimed to be evaluated. Our results revealed that, SOCS1 mRNA overexpressed (24.5 times) in MS patients versus healthy controls. The rs243324 SNP showed no association with MS susceptibility and this SNP was not in Hardy-Weinberg equilibrium in MS patients. Moreover, there was a significant correlation between SOCS1 expression levels with age of female control group (r=-0.43, P=0.03). Thus, we have probably shown some new evidences for the complex role of SOCS1 gene in the pathogenesis of MS.

HOTAIR but not ANRIL Long non-coding RNA contributes to the pathogenesis of Multiple Sclerosis

Studies have revealed that dysregulation in gene expression is one of the main aspects of multiple sclerosis (MS) pathogenesis. Although the molecular pathways underlying the immunomodulatory role of vitamin D (VD) in MS is not completely elucidated, VD has more recently become a topic of interest in immune regulation and is widely administered to patients with MS as an immunomodulatory supplement. Long non‐coding RNAs (lncRNAs) are known to play important roles in regulation of gene expression via different mechanisms. Given that VD‐related genes are regulated by epigenetic mechanisms, here we aimed to evaluate the role of VD in combination with HOTAIR and ANRIL lncRNAs using in vivo, in vitro and in silico experiments in MS pathogenesis. Our data revealed that HOTAIR but not ANRIL lncRNA is probably involved in the pathogenesis of MS and experimental autoimmune encephalomyelitis through an unclear mechanism and it seems that by affecting the expression, inflammation and VD can influence HOTAIR‐related mechanisms, which require further study.