Halogenated boroxine K2[B3O3F4OH] (HB), an inorganic derivative of cyclic anhydride of boronic acid, is patented as a boron-containing compound with potential for the treatment of both benign and malignant skin changes. HB has effectively inhibited the growth of several carcinoma cell lines. Because of the growing interest in autophagy induction as a therapeutic approach in bladder carcinoma (BC), we aimed to assess the effects of HB on metabolic phenotype and autophagy levels in 5637 human bladder carcinoma cells (BC). Cytotoxicity was evaluated using the alamar blue assay, and the degree of autophagy was determined microscopically. Mitochondrial respiration and glycolysis were measured simultaneously. The relative expression of autophagy-related genes BECN1, P62, BCL-2, and DRAM1 was determined by real-time PCR. HB affected cell growth, while starvation significantly increased the level of autophagy in the positive control compared to the basal level of autophagy in the untreated negative control. In HB-treated cultures, the degree of autophagy was higher compared to the basal level, and metabolic phenotypes were altered; both glycolysis and oxidative phosphorylation (OXPHOS) were decreased by HB at 0.2 and 0.4 mg/mL. Gene expression was deregulated towards autophagy induction and expansion. In conclusion, HB disrupted the bioenergetic metabolism and reduced the intracellular survival potential of BC cells. Further molecular studies are needed to confirm these findings and investigate their applicative potential.

Abstract Anti-proliferative effects of halogenated boroxine – K2(B3O3F4OH) (HB) – have been confirmed in multiple cancer cell lines, including melanoma, but the exact mechanism of action is still unknown. This study aimed to determine its cytotoxic effects on human Caucasian melanoma (GR-M) cell growth in vitro as well as on the expression of cell death-related genes BCL-2, BECN1, DRAM1, and SQSTM1. GR-M and peripheral blood mononuclear (PBM) cells were treated with different HB concentrations and their growth inhibition and relative gene expression profiles were determined using the Alamar blue assay and real-time PCR. HB significantly inhibited cell growth of both GR-M and PBM cells but was even more effective in GR-M melanoma cells, as significant inhibition occurred at a lower HB concentration of 0.2 mg/mL. GR-M BCL-2 expression was significantly downregulated (P=0.001) at HB concentration of 0.4 mg/mL, which suggests that HB is a potent tumour growth inhibitor. At the same time, it upregulated BCL-2 expression in normal (PBM) cells, probably by activating protective mechanisms against induced cytotoxicity. In addition, all but the lowest HB concentrations significantly upregulated SQSTM1 (P=0.001) in GR-M cells. Upregulated BECN1 expression suggests early activation of autophagy at the lowest HB concentration in SQSTM1 cells and at all HB concentrations in PBM cells. Our findings clearly show HB-associated cell death and, along with previous cytotoxicity studies, reveal its promising anti-tumour potential.

The aim of the paper is to present the results of the VNTR gene polymorphism genetic variants molecular typing for endothelial nitric oxide synthase (eNOS) in human population of Tuzla Canton. Based on the analysis of the distribution of eNOS gene genotypes in the total sample of respondents, the highest frequency was recorded for the (b/b) genotype, which was 73.0%. For the heterozygous (a/b) genotype of the eNOS gene, a frequency of 24.0% was determined, and a frequency of 3.0% was recorded for the (a/a) genotype. The research resulted in a database of local and global significance, namely, the incorporation of these data into the existing regional and European genetic database.

Apoptosis induction is a promising approach in targeting tumor cells. As halogenated boroxine (HB) shows antitumor activity, but its mechanism of action in hematological tumors remains unclear, in this study, we aimed to analyze apoptosis triggering in normal and UT‐7 leukemia cells by HB. Methods for assessing cell viability and cytotoxicity, apoptosis detection, relative expression of 84 apoptosis‐associated genes and BCL‐2, and functional analysis were applied. Pronounced HB activities in inhibition of cell viability, cytotoxicity, and apoptosis induction with measurable differences between tumor and normal cells were found. HB modulated the expression of 21 genes, predominantly downregulated the antiapoptotic genes in leukemia. The functional association revealed HB's impact on inhibition of NF‐κB signaling pathway. BCL‐2 expression decreasing was found only in UT‐7 leukemia. This study identified HB as an apoptosis inducer affecting leukemia but not normal cells considering mechanisms of selective activity that may be a great advantage of HB applications.

Background/Aim: Irritable bowel syndrome (IBS) belongs to the gastrointestinal disorders characterised by abdominal discomfort and pain, altered constipation, diarrhoea and stomach distension. The aim was to assess relationship between the selected genetic polymorphisms with IBS, their combined genotype effect as well as to assess a difference in the distribution of allele and genotype frequencies of selected loci between case and control group. Methods: This was a prospective study which included 29 participants, 20 individuals diagnosed with IBS based on Rome III criteria and 9 healthy individuals. The study analysed the selected genetic polymorphisms as possible risk factors for IBS according to the model of the case-control study. Genotyping was performed for FKBP5, DRD2 and DAT polymorphisms qualified as risk factors for IBS in previous researches. Results: The results revealed a significant association between DAT polymorphism with IBS, both, at the allelic level (p = 0.006) and genotype level (p = 0.031). Individuals with 434 allelic variant in the genotype have six time higher probability for developing IBS, in comparison to the individuals without this allelic variant. The statistical association between other analysed polymorphism and IBS was not reached. The analysis of combined effects of selected polymorphisms revealed no association with IBS, except FKBP5 and DAT which result was at the level of statistical significance (p = 0.05). Conclusion: Further analysis which would include DAT polymorphism with larger sample size, as well as other genes involved in dopamine neurotransmitter system would be of great interest to define closer conclusion of IBS aetiology.

CAT gene encodes catalase, a key antioxidant enzyme in the body against oxidative stress. This enzyme plays an important role in the molecular mechanisms of inflammation, apoptosis, mutagenesis and tumorigenesis. Anti-oxidant L-carnitine is used in food supplementation, medical co-treatment and bodyweight regulation. We aimed to investigate molecular basis of L-carnitine commercial preparations supplementation in reducing oxidative stress with customized CAT gene assay in vitro. Human lymphocytes cell culture was established using standard procedure and treated with range of concentrations of L-carnitine in two preparations. We tested two preparations: 500 mg tablets of L-carnitine and liquid L-carnitine with vitamin B6. L-carnitine significantly reduced the expression of CAT gene in cultured lymphocytes at concentrations of 50 μmol/l and 250 μmol/l compared to negative control, (p = 0,001; p = 0,001; respectively). The L-carnitine liquid supplement with vitamin B6 also reduced the transcription of CAT gene at concentrations of 50 μmol/l and 250 μmol/l as compared to the negative control (p = 0,018; p = 0,006; respectively). Selected L-carnitine preparations modulated the transcriptional activity of the antioxidant enzyme gene in human lymphocyte culture, indicating its possible effects in inhibition of pro-inflammatory processes that involve catalase activity.

Irritable bowel syndrome (IBS) is a functional gut brain gastrointestinal (GI) disorder, typically accompanied by constipation or diarrhea, usually without any organic evidence. The prevalence of IBS is rather high of about 10-15% (10, 1 % according to Rome III and 4, 1% according to Rome IV, Enck P. et al 2016, Sperber A.D. et al 2020, Black C.J. et al 2020) in the working population. Quality of life in patients with IBS is reduced and therefore a major obstacle to the normal physical and social wellbeing. In intensified clinical research worldwide new pathogenic mechanisms of IBS are suggested, including intestinal dysbiois one of the critical contributing factors to onset or further development of IBS. Intestinal microbiome represents a real ecosystem of microorganisms and human GI tract lining cells. The diversity and composition of the GI microbiome may differ significantly inter- and intra-individually, depending on sex, age or physiological conditions (pregnancy, disease, etc). Intestinal microbiome composition frequently changes in association with IBS symptoms, and the purpose of this study was to investigate if there is a clear relationship in microbial composition and relative abundance of microbial taxa in feces of persons diagnosed with IBS. Fecal microbiota profiling was done in a group of nine clinically confirmed IBS patients and 6 corresponding healthy controls, based on species specific 16s RNA gene. No statistically significant differences in Alpha and Beta diversity indices were found.

Luteolin and delphinidin are the flavonoids with known protective roles. They inhibit genotoxic effects induced by halogenated boroxine (HB) in vitro. Statistically significant decrease in the frequency of micronuclei and nuclear buds and suppression of the occurrence of aberrant cells were observed before, but mechanism of its anti-genotoxic activity is still not clear. In our experiment we aimed to quantify HB effects on the relative expression of CAT (catalase) gene and explore antioxidative effects of luteolin and delphinidin via restoration of CAT gene activity. Cell cultures from peripheral blood lymphocytes of five healthy donors were established and treated with independent and concomitant treatments of HB with luteolin or delphinidin. Total RNA was isolated from harvested cells and reverse-transcribed. SYBR based Real-Time PCR amplification method was used. Analysis of results included normalization of ratio of target (CAT) and housekeeping (GAPDH) gene and statistical analysis (REST®). Luteolin itself lead to downregulation of relative CAT gene expression as well as HB. But simultaneous treatment of HB and bioflavonoids lead to upregulation. Delphinidin as independent treatment and as simultaneous treatment caused upregulation of relative CAT gene expression. Obtained results may indicate protective role of delphinidin and luteolin to oxidative damage caused by HB, and also that new approaches to the treatment applications of HB should include bioflavonoids and monitoring corresponding antioxidant system. Our findings indicate that there is a quantifiable effect of luteolin and delphinidine on antioxidant genes which could be used in exact monitoring of oxidative stress related events.

Abstract Although prostate cancer accounts for the highest number of newly diagnosed cases of cancer in men, it represents a specific diagnostic challenge in modern oncology. The standard diagnosis of prostatic carcinoma begins with the screening of serum concentrations of PSA (Prostate Specific Antigen). If the concentration of serum PSA levels is above 4 ng/mL, the patient is further referred to a digital rectal examination in order to determine an increase in prostate volume. In cases where enlargement of the prostate is observed, the next step is biopsy of prostate tissue. This physically painful and invasive approach to confirm the diagnosis is often unnecessary because, in many cases, the patohistologic analysis determines diagnosis of benign prostatic hyperplasia, and not a tumor. In this study, we investigated the possibilities of detection and measurement of the relative level of gene expression of the KLK3 (Kallikrein-related peptidase 3), PCA3 (Prostate Cancer Gene 3) and TEMPRSS: ERG (Transmembrane protease serine2 and in-ETS erythroblostosis virus E26 oncogene homolog) genes from the urine samples of patients with prostatic diseases and healthy controls. Urine was the sample of choice because it is taken in a non-invasive manner, and could potentially serve to make better selection to biopsy. One of the selected genes (KLK3) differed significantly in the samples of various pathological conditions of the prostate, and therefore we consider that its further investigation is reasonable.