Project description:Over the last decade, the understanding of the association between insulin resistance (IR) and non-alcoholic fatty liver disease (NAFLD) has dramatically evolved. There is clear understanding that carriers of some common genetic variants, i.e., the patatin-like phospholipase domain-containing 3 (PNPLA3) or the transmembrane 6 superfamily member 2 (TM6SF2) are at risk of developing severe forms of NAFLD even in the presence of reduced or absent IR. In contrast, there are obese patients with "metabolic" (non-genetically driven) NAFLD who present severe IR. Owing to the epidemic obesity and the high prevalence of these genetic variants in the general population, the number of pediatric cases with combination of genetic and metabolic NAFLD is expected to be very high. Gut dysbiosis, excessive dietary intake of saturated fats/fructose-enriched foods and exposure to some chemicals contribute all to both IR and NAFLD, adding further complexity to the understanding of their relationship. Once NAFLD is established, IR can accelerate the progression to the more severe form of liver derangement that is the non-alcoholic steatohepatitis.

Project description:The present study was aimed at analyzing (i) the biological cost of RNA polymerase (rpoB) mutations conferring rifampin resistance on H.pylori, (ii) the relationship between the cost of rpoB mutations and the chromosomal mutaion, (iii) the relationship between the cost of rpoB mutations and the transcription profile of sensitive and resistantrif strains of H.pylori (iv) and rpoB mutations in view of the possible fitness burden associated with resistance to another antibiotics. H.pylori reference strain 26695 was routinely maintained on Columbia agar plates and H. pylori-selective antibiotic mix Dent. Liquid culture was grown in BHI broth. Both plates and broth cultures were incubated at 37C under atmosphere enriched with 5% CO2 for 2-3 days . Mutant strains were selected by culturing H. pylori 26695 on selective plates containing rifampicin. In 5 days resistant colonies were picked up and passed under rifampicin pressure. RNA isolated was reverse transcribed and used to probe H. pylori home-made arrays

Project description:The present study was aimed at analyzing (i) the biological cost of RNA polymerase (rpoB) mutations conferring rifampin resistance on H.pylori, (ii) the relationship between the cost of rpoB mutations and the chromosomal mutaion, (iii) the relationship between the cost of rpoB mutations and the transcription profile of sensitive and resistantrif strains of H.pylori (iv) and rpoB mutations in view of the possible fitness burden associated with resistance to another antibiotics.

Project description:The presence of thousands of repetitive sequences makes the centromere a fragile region subject to breakage. In this study we collected 31 cases of rearrangements of chromosome 18, of which 16 involved an acrocentric chromosome, during genetic screening done in three centers. We noticed a significant enrichment of reciprocal translocations between the centromere of chromosome 18 and the centromeric or pericentromeric regions of the acrocentrics. We describe five cases with translocation between chromosome 18 and an acrocentric chromosome, and one case involving the common telomere regions of chromosomes 18p and 22p. In addition, we bring evidence to support the hypothesis that chromosome 18 preferentially recombines with acrocentrics: (i) the presence on 18p11.21 of segmental duplications highly homologous to acrocentrics, that can justify a NAHR mechanism; (ii) the observation by 2D-FISH of the behavior of the centromeric regions of 18 respect to the centromeric regions of acrocentrics in the nuclei of normal subjects; (iii) the contact analysis among these regions on published Hi-C data from the human lymphoblastoid cell line (GM12878).

Project description:The experiment was designed to infer the fitness cost of rifampicin-resistance in Mycobacterium tuberculosis through expression analysis. The approach relied on: 1. Tracking the expression changes occurring as a result of the rifampicin-resistance conferring mutation Ser450Leu in RpoB and subsequent gain of compensatory mutation Leu516Pro in RpoC. The hypothesis was that any cost-incurring expressional changes would be reversed in the presence of compensatory mutations. The strains in this set were described before here: PMID 22179134. 2. Comparing the impact of the same rifampicin-resistance mutation (RpoB Ser450Leu) in five different genetic backgrounds. Here the comparison was solely between RpoB Ser450Leu and their cognate drug susceptible wild type ancestor. One of the strain pairs is the same as in point 1. above.

Project description:High-throughput genotyping and sequencing generate comprehensive catalogs of inherited genetic variations and acquired somatic mutations. However, their possible interactions and roles in tumorigenesis remain largely unexplored. We recently reported cooperation between the EWSR1-FLI1 (Ewing sarcoma breakpoint region 1 - Friend leukemia virus integration 1) fusion oncogene and a germline variant that regulates the EGR2 (early growth response 2) Ewing sarcoma susceptibility gene via a GGAA-microsatellite.

Project description:BACKGROUND:Mortality due to tuberculosis (TB) has increased due to the development of drug resistance, the mechanisms of which have not been fully elucidated. Our research group identified a low expression of lipF gene in Mycobacterium tuberculosis clinical isolates with drug resistance. The aim of this work was to evaluate the effect of lipase F (LipF) expression on mycobacterial drug resistance. RESULTS:The effects of expressing lipF from Mycobacterium tuberculosis in Mycobacterium smegmatis on resistance to antituberculosis drugs were determined with resazurin microtiter assay plate and growth kinetics. Functionality of ectopic LipF was confirmed. LipF expression reduced the rifampicin (RIF) and streptomycin (STR) minimum inhibitory concentration (MIC) from 3.12??g/mL to 1.6??g/mL and 0.25??g/mL to 0.06??g/mL respectively, moreover a reduced M. smegmatis growth in presence of RIF and STR compared with that of a control strain without LipF expression (p?<?0.05 and p?<?0.01) was shown. CONCLUSIONS:LipF expression was associated with increased RIF and STR sensitivity in mycobacteria. Reduced LipF expression may contribute to the development of RIF and STR resistance in Mycobacterium species. Our findings provide information pertinent to understanding mycobacterial drug resistance mechanisms.

Project description:We describe a 79-year-old man with spondylodiscitis and unknown pathogen, treated with cefazolin and rifampicin. He developed a massive digestive hemorrhage. Prothrombin time was prolonged with severe vitamin-K-dependent clotting-factor deficiency. Severe bleeding can occur during cefazolin and rifampicin use. This deficiency should be assessed before prescribing cefazolin-rifampicin and prothrombin time monitored.

Project description:The spread of antibiotic-resistant bacteria is a growing problem and a public health issue. In recent decades, various genetic mechanisms involved in the spread of resistance genes among bacteria have been identified. Integrons - genetic elements that acquire, exchange, and express genes embedded within gene cassettes (GC) - are one of these mechanisms. Integrons are widely distributed, especially in Gram-negative bacteria; they are carried by mobile genetic elements, plasmids, and transposons, which promote their spread within bacterial communities. Initially studied mainly in the clinical setting for their involvement in antibiotic resistance, their role in the environment is now an increasing focus of attention. The aim of this review is to provide an in-depth analysis of recent studies of antibiotic-resistance integrons in the environment, highlighting their potential involvement in antibiotic-resistance outside the clinical context. We will focus particularly on the impact of human activities (agriculture, industries, wastewater treatment, etc.).

Project description:Inflammation is an established driver of severe SARS-CoV-2 infection and a mechanism linked to the increased susceptibility to fatal COVID-19 demonstrated by patients with cancer. As patients with cancer exhibit a higher level of inflammation compared with the general patient population, patients with cancer and COVID-19 may uniquely benefit from strategies targeted at overcoming the unrestrained pro-inflammatory response. Targeted and non-targeted anti-inflammatory therapies may prevent end-organ damage in SARS-CoV-2-infected patients with cancer and decrease mortality. Here, we review the clinical role of selective inhibition of pro-inflammatory interleukins, tyrosine kinase modulation, anti-tumor necrosis factor agents, and other non-targeted approaches including corticosteroids in their roles as disease-modulating agents in patients with COVID-19 and cancer. Investigation of these therapeutics in this highly vulnerable patient group is posited to facilitate the development of tailored therapeutics for this patient population, aiding the transition of systemic inflammation from a prognostic domain to a source of therapeutic targets.