Current issues

Alcohol dependence is a multifactorial inherited psychiatric disease that is difficult to diagnose and treat. Recent years have seen an increase in knowledge about molecular pathways and effect of proinflammatory cytokines on alcohol dependence. Understanding this pathology as an inflammatory condition opens the possibility of using new therapeutic agents to treat its harmful effects. The objective of this study was to determine if there was a difference in gene expression of inflammatory response genes between two groups of university Colombians, one with a problem with alcohol (n=25) and one without, as a control (n=25). In previous research conducted by our research group, involving more than 30 single nucleotide variants of more than 10 inflammatory response genes, certain haplotypes, interactions, and gene networks were identified that indicated differences between alcoholics and controls in the genes SNCA, Il6R1, TNFR1, and MIF. Total RNA from blood mononuclear cells was extracted by determining the relative expression by qPCR of these genes; using ELISA, the concentration of their protein products in plasma was determined. There were differences in the relative expression of the TNFR1 and MIF genes, with a decrease in individuals with problematic alcohol consumption. The relative transcription of SNCA increased in men, whereas there were no changes in women. Nevertheless, there were no significant differences observed in the SNCA, IL6R1, and TNFR1 proteins, whereas MIF was decreased in the overall sample. On the other hand, SNCA, IL6R1 and MIF proteins showed differences in men. We observed disparities in the expression of these inflammatory response genes when comparing controls and cases. These findings demonstrate that SNCA, IL6R1, and MIF are candidates for further study as potential therapeutic targets in disease conditions related to alcohol abuse.

Fusarium wilt is an important soil-borne disease that affects the common bean. The disease is caused by Fusarium oxysporum f. sp. phaseoli (Fop), a fungus that invades the plant mainly through the roots and colonizes the xylem, causing wilting, vascular discoloration, chlorosis, stunting, and premature plant death. The objective of this study was to analyze Fop disease severity in the Mortiño (tolerant), BAT477 (resistant), and A211 (susceptible) differentiating cultivars of common bean. Another goal was to examine the relationship of the disease severity with the amount of DNA of the pathogen in the vascular system in the stem as well as structural changes in plants affected by Fop infection. Assessment of the level of xylem colonization by Fop isolated in these cultivars grown in an experimental field (plot size of 30 m²) artificially infested with Fop showed in all the cultivars, a gradual increase in the fungus population over time, mainly during the maturation of the plants. The qPCR technique with the diseased genotypes collected at five different times starting in V2 stage (second trifoliolate developed) in the biological replicates proved to be efficient in quantifying the relative amount of DNA of the fungus. In the scanning electronic microscopy and in the evaluation of the disease severity, the structures of the fungus and of the plant were different. In the A211 cultivar, formation of hyphae and microconidia of the fungus and tylose and amyloplasts of the plant were observed. In cv. Mortiño found hyphae of the fungus and tyloses of the plant. In BAT477, no pathogen structure was observed. The disease severity in the differentiating cultivars was correlated with the amount of fungal DNA and plant structures formed in reaction to the presence of the fungus detected mainly in the last collection at the R6 stage of the bean plants.

Lasiodiplodia theobromae and Neofusicoccum parvum are important fungi affecting mango trees in Northeast Brazil, a prominent region of mango export.  Genome-wide association studies in a ‘Haden’ × ‘Tommy Atkins’ mango pseudo-F₂ population were performed for symptoms of both fungal diseases to support the development of new cultivars by applying marker-assisted selection. ‘Haden’ is resistant while ‘Tommy Atkins’ is susceptible to both fungal diseases. Single nucleotide polymorphism (SNP) and microsatellite data of 95 progenies were analyzed by allelic and genotypic association and by general (GLM) and mixed linear models (MLM). Artificial pathogen inoculation was performed on 15-year-old progenies by manually spraying a 10³ conidia mL^-1 suspension on young branches and leaves. The plants were considered resistant when the absence of symptoms was ≥ 90% over three different evaluations. Consensus genomic associations were identified on chromosome 12; position 10.60 Mb (Mi_0096) and 1 (Mango_rep_c1316) position 14.67 Mb, with a significant association with L. theobromae symptoms, accounting for 20% of the total variation. Additional regions identified exclusively by GLM and MLM analysis, in chromosomes 11 and 8 (positions 24.57 Mb and 9.34 MB, respectively), explain 36% of the symptoms variation of this disease. Consensus genomic associations were identified on chromosomes 2, position 20.49 Mb (Mango_rep_c9407) and 9, position 15.01 Mb (Mango_rep_c8984), with a significant association with N. parvum symptoms, accounting for 21% of total resistance to this fungus. An additional region identified exclusively by GLM and MLM analysis, in chromosome 12 (Mango_rep_c7620, position 14.29 MB), explains 29% of the total variation of this disease. Qualitative and quantitative genome association methods run together enabled the identification of consensus chromosomal regions controlling resistance to these diseases. These chromosome regions are candidates for saturation with SNPs or further genome data mining to apply marker-assisted selection in mangoes.

We examined the influence of interleukin genetic polymorphisms in individuals with apical periodontitis (AP). Based on the PICO strategy, searches were conducted in PubMed, SciELO, Web of Science, Medline, LILACS and EMBASE databases to answer a guiding question. The quality of studies and methodological rigor were assessed using the Critical Appraisal Skills Program Checklist and classification made according to levels of evidence. The search identified 292 studies, of which six were included based on the criteria. All evaluated the IL-1β polymorphism, of which three found a significant association with a protective and/or potentiating effect of IL-1β on AP. Two studies evaluated the IL-6 polymorphism, one of which identified a significant association. Three studies evaluated TNF-α polymorphism, of which two reported significant associations with AP. An association was also found in one study for IL-8 with AP. In conclusion, polymorphisms of several interleukins have been found to influence the risk and development of AP in humans. Some polymorphisms are more influential and have been more intensively studied than others, such as interleukin 1-β, followed by IL-6 and TNF-α. This influence of genotype can be expressively or mildly marked. Individuals presenting one or two copies of a particular allele appear to be at higher risk of developing periapical lesions. These apparent associations of interleukins with AP merit further study.

Insertion of nucleic acids into cells unlocks the possibility of modulating gene expression; however, some cells such as primary cells and those that grow in suspension are hard-to-transfect. New therapies for cancer and possible autoimmune diseases, such as those that involve chimeric antigen receptor T cells, rely on the insertion of plasmids into lymphocytes, which fit into the hard-to-transfect category. In such cases virus-based transduction is usually applied, but the carrier vector tends to be incorporated into the cell’s own DNA in a stable manner, with unpredictable consequences. Thus, highly efficient non-viral gene/plasmid delivery is a sought-after technology. We evaluated several commercially available chemical transfection methods as well as electroporation in difficult-to-transfect cells, including a human lymphocyte cell-line (Jurkat) and fresh peripheral blood mononuclear cells (PBMCs), both grown in suspension. The cell-toxicity of the methods was also evaluated. Twenty-four hours after transfection of the plasmid pCMV-GFP, the proportion of GFP positive (GFP+) cells was evaluated by cytometry. The cationic polymer TurboFect yielded ~7.8% of GFP+ Jurkat cells on average, while the other reagents (Lipofectamine 3000, FuGENE HD and X-tremeGENE HP) presented <3% of GFP+ cells. In PBMCs, none of the chemical reagents yielded >3% transfected cells. Electroporation was more efficient, with ~45% of GFP+ in Jurkat and ~15.7% GFP+ in PBMCs. However, it proved to be highly toxic, with ~80% of the cells considered non-viable 24h after the procedure, while TurboFect showed little-to-no toxicity. In conclusion, it was found that despite its high toxicity electroporation was the only method with applicable transfection efficiency in PBMCs, while in Jurkat the reagent TurboFect can be applied with acceptable results. The strategy for insertion of nucleic acids needs to be fine-tuned for each target cell type and experimental condition.

Approximately 60% of all cases of congenital bilateral sensorineural hearing impairment are due to genetic factors, and about 50% of hearing impairment cases at a later stage are caused by a mutation in a single gene. Because of the high frequency of gap junction beta-2 protein gene (GJB2) mutations, mutation analysis of this gene is widely used in hearing impairment research and diagnosis. This study aimed to determine the prevalence of common GJB2 mutations in patients with profound non-syndromic sensorineural hearing impairment. Sixty-one patients (32 male and 29 female) included in this study had above 90 decibels of bilateral sensorineural hearing impairment. Patient DNA was isolated from buccal cells. The 1st and 2nd exons of the GJB2 gene were amplified with specific primers after gel purification of both regions. Sanger DNA sequencing analysis was used for investigation of changes in these gene regions. The pathological variant was found in nine patients (15%). This variation involved a frameshift mutation in GJB2 (homozygous 35delG) of the 2nd exon; no mutation was detected in the 1st exon. This study is the first report of a genetic investigation of hearing impairment in the Kurdish population in Sulaimani province, northeastern Iraq, near the Iraq-Iran border. The results show that 35delG mutation has a high prevalence in patients with non-syndromic sensorineural hearing impairment.

Cross-contamination between patient and dentist is a real threat that has not been adequately studied. Staphylococcus aureus, through its characteristic genetic plasticity, has managed to develop multiple virulence and antibiotic resistance proteins. The antibiotic susceptibility profile and the presence of the blaZ and mecA genes that encode resistance to penicillin and methicillin, respectively, were analyzed in strains isolated from multipurpose boxes used by dental students at the Catholic University of Cuenca. These boxes are used to transport instruments and material. From the universe of study (249 boxes) 139 samples were obtained from boxes of the students who accepted and signed a consent to participate. Eight strains of S. aureus were identified, of which, through antibiogram analysis, it was found that seven were resistant to penicillin and two strains resistant to cefoxitin (MRSA strains). In molecular analysis, the mecA gene was identified in two strains, while the blaZ gene was found in all of them. It was concluded that the rate of S. aureus found in this study was low due to various factors, possibly including increased vigilance and cleanliness due to the COVID-19 pandemic during the study.