DNA Damage and Glutathione Peroxidase Activity in Liver and Kidney Cells in Wistar Rats Exposed to Terbuthylazine (TERB) for 28 Consecutive Days

The potential of low doses of the chloro-triazine herbicide terbuthylazine to induce DNA damage and impair activity of glutathione peroxidase (GPx) was evaluated in kidney and parenchymal and non-parenchymal liver cells of adult male rats. In a 28-day study, terbuthylazine was applied daily by oral gavage at doses: 0.004, 0.4 and 2.29 mg/kg bw/day. Tail Intensity (T Int) and Tail Length (TL) were used as descriptors of DNA damage. In the kidney, Tail Int was significantly different in all treated groups, while TL was different in 0.4 and 2.29 mg/kg bw/day groups, compared to controls. Significant differences in TL were recorded in parenchymal and non-parenchymal liver cells of all treated groups. Tail Int was significantly different from controls in non-parenchymal liver cells at all applied doses and in parenchymal cells at terbuthylazine doses of 0.004 and 2.29 mg/kg bw/day. A significant increase in GPx activity was observed only in the kidney at doses 0.4 and 2.29 mg/kg bw/day compared to the controls indicating its possible role in the protection of kidney from free radicals. It appears that repeated exposure to low doses of terbuthylazine could cause DNA instability in kidney cells and in parenchymal and non-parenchymal liver cells in rats

Environmental Exposure to Metals, Parameters of Oxidative Stress in Blood and Prostate Cancer: Results from Two Cohorts

We studied the potential role of exposure to various metal(oid)s (As, Cd, Cr, Hg, Ni, and Pb) in prostate cancer. Two cohorts were established: the Croatian cohort, consisting of 62 cases and 30 controls, and the Serbian cohort, consisting of 41 cases and 61 controls. Blood/serum samples were collected. Levels of investigated metal(oid)s, various parameters of oxidative stress, and prostate-specific antigen (PSA) were determined in collected samples. A comparison of the measured parameters between 103 prostate cancer patients and 91 control men from both Croatian and Serbian cohorts showed significantly higher blood Hg, SOD, and GPx levels and significantly lower serum SH levels in prostate cancer patients than in controls. Correlation analyses revealed the significant relationship between certain parameters of oxidative stress and the concentrations of the measured metal(loid)s, pointing to the possible role of metal(oid)-induced oxidative stress imbalance. Furthermore, a significant inverse relationship was found between the blood Pb and the serum PSA in prostate cancer patients, but when the model was adjusted for the impacts of remaining parameters, no significant association between the serum PSA and the measured parameters was found. The results of the overall study indicate a substantial contribution of the measured metal(loid)s to the imbalance of the oxidant/antioxidant system. Although somewhat conflicting, the results of the present study point to the possible role of investigated metal(oid)s in prostate cancer, especially for Hg, since the obtained relationship was observed for both cohorts, followed by the disturbances in oxidative stress status, which were found to be correlated with Hg levels. Nevertheless, further studies in larger cohorts are warranted to explain and confirm the obtained results

Multi-elemental composition and antioxidant properties of strawberry tree (Arbutus unedo L.) honey from the coastal region of Croatia: Risk-benefit analysis

The concentration of 23 major and trace elements, total phenolic content (TPC) and 1, 1- diphenyl-2-picrylhydrazyl (DPPH) radical scavenging activity were determined in nine samples of strawberry tree honey and compared to other types of unifloral honeys. The most abundant elements in strawberry tree honey were potassium, calcium, magnesium and sodium, ranging between 1276 and 2367, 95.2-154, 14.4- 74.4 and 13.4-64.3 mg/kg, respectively. Strawberry tree honey had generally higher TPC (range: 0.314-0.522 g GA/kg) and DPPH (1.94- 4.45 mM TE/kg) compared to other analysed unifloral honeys. A strong positive relationship was found between TPC and DPPH, TPC and concentration of homogentisic acid (HGA), chemical marker of strawberry tree honey, and between DPPH and HGA. Regarding daily intake of essential elements, strawberry tree honey can be considered nutritionally richer than the majority of unifloral honeys available in Croatia, while contribution to tolerable intake set for potentially toxic elements was very low, corresponding to pristine areas

Učinak ketamina na vijabilnost, primarna oštećenja DNA i parametre oksidacijskog stresa u stanicama HepG2 i SH-SY5Y

Ketamine is a dissociative anaesthetic used to induce general anaesthesia in humans and laboratory animals. Due to its hallucinogenic and dissociative effects, it is also used as a recreational drug. Anaesthetic agents can cause toxic effects at the cellular level and affect cell survival, induce DNA damage, and cause oxidant/antioxidant imbalance. The aim of this study was to explore these possible adverse effects of ketamine on hepatocellular HepG2 and neuroblastoma SH-SY5Y cells after 24-hour exposure to a concentration range covering concentrations used in analgesia, drug abuse, and anaesthesia (0.39, 1.56, and 6.25 μmol/L, respectively). At these concentrations ketamine had relatively low toxic outcomes, as it lowered HepG2 and SH-SY5Y cell viability up to 30 %, and low, potentially repairable DNA damage. Interestingly, the levels of reactive oxygen species (ROS), malondialdehyde (MDA), and glutathione (GSH) remained unchanged in both cell lines. On the other hand, oxidative stress markers [superoxide dismutase (SOD), glutathione peroxidase (GPx), and catalase (CAT)] pointed to ketamine-induced oxidant/antioxidant imbalance.Ketamin je disocijativni anestetik koji se koristi za izazivanje opće anestezije u određenim medicinskim postupcima kod ljudi, kao i u anesteziji laboratorijskih životinja. Zbog svojih halucinogenih i disocijativnih učinaka koristi se i kao rekreacijska droga. Anestetici također mogu prouzročiti toksične učinke na staničnoj razini i, utječući na preživljavanje stanica, izazvati oštećenje DNA te neravnotežu oksidansa i antioksidansa. Cilj ove studije bio je istražiti moguće štetne učinke ketamina na hepatocelularne HepG2 i neuroblastoma SH-SY5Y stanice nakon 24-satne izloženosti širokom rasponu koncentracija, uključujući koncentracije relevantne u slučajevima korištenja u analgeziji, zlouporabi droga i anesteziji (0,39, 1,56 odnosno 6,25 μmol/L). Naši rezultati pokazali su da je ketamin u ovim ispitivanim koncentracijama izazvao relativno nisku citotoksičnost, budući da je do 30 % smanjio preživljenje stanica HepG2 i SH-SY5Y, ali je uočen neznatan porast razine primarnih oštećenja DNA. Zanimljivo je da su razine reaktivnih kisikovih vrsta (ROS), malondialdehida (MDA) i glutationa (GSH) ostale nepromijenjene u objema staničnim linijama. S druge strane, markeri oksidacijskog stresa [suporeksid dismutaza (SOD), glutation peroksidaza (GPx), katalaza (CAT)] upućivali su na oksidacijsko-redukcijsku neravnotežu izazvanu ketaminom

Oksidacijski stres, aktivnost kolinesteraza i primarna oštećenja u jetri, krvi i plazmi Wistar štakora nakon 28-dnevnog izlaganja glifosatu

In this 28 day-study, we evaluated the effects of herbicide glyphosate administered by gavage to Wistar rats at daily doses equivalent to 0.1 of the acceptable operator exposure level (AOEL), 0.5 of the consumer acceptable daily intake (ADI), 1.75 (corresponding to the chronic population-adjusted dose, cPAD), and 10 mg kg-1 body weight (bw) (corresponding to 100 times the AOEL). At the end of each treatment, the body and liver weights were measured and compared with their baseline values. DNA damage in leukocytes and liver tissue was estimated with the alkaline comet assay. Oxidative stress was evaluated using a battery of endpoints to establish lipid peroxidation via thiobarbituric reactive substances (TBARS) level, level of reactive oxygen species (ROS), glutathione (GSH) level, and the activity of glutathione peroxidase (GSH-Px). Total cholinesterase activity and the activities of acetylcholinesterase (AChE) and butyrylcholinesterase (BChE) were also measured. The exposed animals gained less weight than control. Treatment resulted in significantly higher primary DNA damage in the liver cells and leukocytes. Glyphosate exposure significantly lowered TBARS in the liver of the AOEL, ADI, and cPAD groups, and in plasma in the AOEL and cPAD group. AChE was inhibited with all treatments, but the AOEL and ADI groups significantly differed from control. Total ChE and plasma/liver ROS/GSH levels did not significantly differ from control, except for the 35 % decrease in ChE in the AOEL and ADI groups and a significant drop in liver GSH in the cPAD and 100xAOEL groups. AOEL and ADI blood GSH-Px activity dropped significantly, but in the liver it significantly increased in the ADI, cPAD, and 100xAOEL groups vs. control. All these findings show that even exposure to low glyphosate levels can have serious adverse effects and points to a need to change the approach to risk assessment of low-level chronic/sub-chronic glyphosate exposure, where oxidative stress is not necessarily related to the genetic damage and AChE inhibition.U okviru 28-dnevnog pokusa istražili smo učinke herbicida glifosata na modelu odraslih mužjaka Wistar štakora koji su oralno dobivali testirani spoj u subletalnim dnevnim dozama: 0,1 od prihvatljive razine izloženosti operatera (0,1xAOEL), 0,5 od prihvatljivog dnevnog unosa za potrošače (0,5xADI), 1,75 (odgovara kroničnoj populacijskoj prilagođenoj dozi, cPAD) i 10 mg kg-1 tjelesne težine na dan (odgovara 100xAOEL). Tijekom pokusa praćeni su sistemski toksični učinci. Nakon završetka svih tretmana svakoj je pokusnoj životinji izmjerena tjelesna težina i težina jetre te su uspoređene s polazišnim vrijednostima. Alkalnim komet-testom izmjerena je razina primarnih oštećenja DNA u leukocitima i jetrenim stanicama. Primjenom metoda za procjenu oksidacijskog stresa izmjerene su razine lipidne peroksidacije (TBARs), reaktivnih kisikovih vrsta (ROS) i glutationa (GSH) te aktivnost enzima glutation peroksidaze (GSH-Px). Izmjerene su i aktivnosti ukupnih kolinesteraza (ChE), acetilkolinesteraze (AChE) i butirilkolinesteraze (BChE). Izloženi štakori imali su manje priraste težine od kontrolnih. Izloženost glifosatu uzrokovala je značajne poraste razine primarnih oštećenja DNA u jetrenim stanicama te malo manje u leukocitima. U svim izloženim skupinama izmjerene su niže vrijednosti TBARs u odnosu na kontrolu, sa značajno nižim vrijednostima u AOEL, ADI i cPAD skupinama u uzorcima jetre te u AOEL i cPAD skupinama u uzorcima plazme. Aktivnost AChE bila je smanjena u svim tretmanima, s najnižom stopom nakon izlaganja dozi ADI. Aktivnost BChE blago je smanjena nakon izlaganja ADI, a povećana nakon izlaganja dozama cPAD i 100xAOEL. Ukupna aktivnost ChE te razine ROS/GSH u plazmi / jetri nisu se značajno razlikovale od kontrole, osim značajnog smanjenja jetrenog GSH nakon izlaganja dozama cPAD i 100xAOEL te 35-postotnog smanjenja aktivnosti ChE nakon izlaganja dozama AOEL i ADI. Aktivnost GSH-Px u krvi značajno je smanjena u AOEL i ADI tretmanu, a aktivnost GSH-Px u uzorcima jetre značajno je povećana u skupinama ADI, cPAD i 100xAOEL prema kontroli. Dobiveni rezultati pokazuju da čak i izloženost vrlo niskim dozama glifosata može izazvati mjerljive toksične učinke te upućuje na potrebu za promjenom pristupa procjeni rizika zbog kronične/subkronične izloženosti niskim dozama glifosata gdje oksidacijski stres ne mora nužno korelirati s razinom oštećenja DNA i inhibicijom acetilkolinesteraz

Effects of Sub-Chronic Exposure to Imidacloprid on Reproductive Organs of Adult Male Rats: Antioxidant State, DNA Damage, and Levels of Essential Elements

Although considered a good alternative to organophosphate pesticides, there are reports indicating adverse effects of neonicotinoid insecticides on reproduction. Our aim was to assess the effects of exposure to low doses of imidacloprid on antioxidant state, DNA damage, and concentration of essential elements in the testes and epididymis using a rat model. Adult male Wistar rats were orally treated with doses comparable to currently proposed health-based reference values: 0.06 (ADI), 0.80 (10× AOEL), or 2.25 (1/200 LD50) mg/kg b.w./day for 28 consecutive days. Exposure to 2.25 mg/kg b.w./day of imidacloprid resulted in a significantly lower testis weight (1.30 ± 0.17 g compared to 1.63 ± 0.15 g in controls). Treatment with 0.06 mg/kg b.w./day increased the level of reduced glutathione in the epididymis (73%), while the activities of epididymal glutathione peroxidase and superoxide dismutase significantly increased in all treated rats (74–92% and 26–39%, respectively). Exposure to imidacloprid resulted in a low, but significant, level of DNA damage in testicular sperm cells regardless of the concentration applied (<28% compared to the negative control). Higher concentrations of Mo were measured in the testes of rats treated with 0.80 and 2.25 mg/kg b.w./day (72.9 ± 7.9 and 73.9 ± 9.1 mg/g, respectively) compared to the control animals (60.5 ± 7.8 mg/g). Higher concentrations of Na were measured in the testes of rats treated with 2.25 mg/kg b.w./day (1679 ± 82 mg/g compared to 1562 ± 56 mg/g in controls). The fact that such low doses of imidacloprid were able to produce measurable biological effects calls for the further evaluation of this widely used insecticide

Development of a solid phase microextraction method for the determination of nicotine in dried mushrooms

Official control of EU market foodstuffs repeatedly reports high nicotine levels in dried wild mushrooms without any clear scientific consensus about their origin. The advised constant monitoring calls for improvements to existing methods. For this purpose, our aim was to develop a headspace solid phase microextraction (HS-SPME) method coupled to gas chromatography with mass spectrometric detection (GC-MS) that would eliminate the need for extensive sample pre-treatment. The type of fiber coating, amount of sample, extraction temperature and time, desorption time and salt addition were investigated and optimized as parameters affecting the SPME procedure. The optimized conditions were used to validate a quantitative method for nicotine analysis by matrix-matched calibration and isotopically labelled internal standard correction. The method provided good linearity ( = 0.9994) over the tested concentration range (0.025–1 mg kg ), low detection limit (0.005 mg kg ) and low quantification limit (0.017 mg kg ) for nicotine, being below the EU foodstuff regulations. For both of the tested concentration levels (0.050 and 0.200 mg kg ), precision expressed as relative standard deviation was below 10% (4.5% and 8.5%, respectively), while accuracy was 98.2% and 100.3%. The optimized method was then used to determine nicotine levels in 18 samples of dried mushrooms from southeastern European countries entering the EU market. We demonstrated our HS-SPME procedure to be fast, simple, sensitive, solvent-free, cost-effective and thus suitable for controlling consumer safety regarding nicotine level in dried mushrooms

Efficient and Green Isolation of Keratin from Poultry Feathers by Subcritical Water

The isolation of keratin from poultry feathers using subcritical water was studied in a batch reactor at temperatures (120–250 °C) and reaction times (5–75 min). The hydrolyzed product was characterized by FTIR and elemental analysis, while the molecular weight of the isolated product was determined by SDS-PAGE electrophoresis. To determine whether disulfide bond cleavage was followed by depolymerization of protein molecules to amino acids, the concentration of 27 amino acids in the hydrolysate was analyzed by GC/MS. The optimal operating parameters for obtaining a high molecular weight protein hydrolysate from poultry feathers were 180 °C and 60 min. The molecular weight of the protein hydrolysate obtained under optimal conditions ranged from 4.5 to 12 kDa, and the content of amino acids in the dried product was low (2.53% w/w). Elemental and FTIR analyses of unprocessed feathers and dried hydrolysate obtained under optimal conditions showed no significant differences in protein content and structure. Obtained hydrolysate is a colloidal solution with a tendency for particle agglomeration. Finally, a positive influence on skin fibroblast viability was observed for the hydrolysate obtained under optimal processing conditions for concentrations below 6.25 mg/mL, which makes the product interesting for various biomedical applications

Evaluation of Toxic Effects Induced by Sub-Acute Exposure to Low Doses of α-Cypermethrin in Adult Male Rats

To contribute new information to the pyrethroid pesticide α-cypermethrin toxicity profile, we evaluated its effects after oral administration to Wistar rats at daily doses of 2.186, 0.015, 0.157, and 0.786 mg/kg bw for 28 days. Evaluations were performed using markers of oxidative stress, cholinesterase (ChE) activities, and levels of primary DNA damage in plasma/whole blood and liver, kidney, and brain tissue. Consecutive exposure to α-cypermethrin affected the kidney, liver, and brain weight of rats. A significant increase in concentration of the thiobarbituric acid reactive species was observed in the brain, accompanied by a significant increase in glutathione peroxidase (GPx) activity. An increase in GPx activity was also observed in the liver of all α-cypermethrin-treated groups, while GPx activity in the blood was significantly lower than in controls. A decrease in ChE activities was observed in the kidney and liver. Treatment with α-cypermethrin induced DNA damage in the studied cell types at almost all of the applied doses, indicating the highest susceptibility in the brain. The present study showed that, even at very low doses, exposure to α-cypermethrin exerts genotoxic effects and sets in motion the antioxidative mechanisms of cell defense, indicating the potential hazards posed by this insecticide

Citotoksično i genotoksično djelovanje i oksidacijski stres uzrokovan dietilamid lizerginskom kiselinom i fenciklidinom u staničnoj liniji humanih neuroblastoma SH-SY5Y

Lysergic acid diethylamide (LSD) is a classic hallucinogen, widely abused for decades, while phencyclidine (PCP) has increased in popularity in recent years, especially among the adolescents. Very little is known about the general toxicity of these compounds, especially about their possible neurotoxic effects at the cell level. The aim of this study was to address these gaps by assessing the toxic effects of 24-hour exposure to LSD and PCP in the concentration range of 0.39–100 µmol/L in the human neuroblastoma SH-SY5Y cell line. After cell viability was established, cells treated with concentrations that reduced their viability up to 30 % were further subjected to the alkaline comet assay and biochemical assays that enable estimation of oxidative stress-related effects. Treatment with LSD at 6.25 µmol/L and with PCP at 3.13 µmol/L resulted with 88.06±2.05 and 84.17±3.19 % of viable cells, respectively, and led to a significant increase in primary DNA damage compared to negative control. LSD also caused a significant increase in malondialdehyde level, reactive oxygen species (ROS) production, and glutathione (GSH) level, PCP significantly increased ROS but lowered GSH compared to control. Treatment with LSD significantly increased the activities of all antioxidant enzymes, while PCP treatment significantly increased superoxide dismutase (SOD) and glutathione peroxidase (GPx) but decreased catalase (CAT) activity compared to control. Our findings suggest that LSD has a greater DNA damaging potential and stronger oxidative activity than PCP in SH-SY5Y cells.Dietilamid lizerginske kiseline (LSD) klasični je halucinogen koji se desetljećima naširoko zlorabio, dok je posljednjih godina porasla popularnost fenciklidina (PCP), osobito među adolescentima. Do sada se vrlo malo zna o općoj toksičnosti ovih spojeva, posebice o njihovim mogućim neurotoksičnim učincima na staničnoj razini. Ovo istraživanje procijenilo je toksične učinke LSD-a i PCP-a na staničnu liniju humanoga neuroblastoma SH-SY5Y, koja je bila izložena ispitivanim spojevima u rasponu koncentracija 0,39–100 µmol/L tijekom 24 sata. Stanice tretirane odabranim koncentracijama koje su smanjile vijabilnost stanica do 30 % potom su podvrgnute alkalnom komet-testu i biokemijskim testovima koji omogućuju procjenu oksidacijskoga stresa. Tretman s LSD-om od 6,25 µmol/L i PCP-om s 3,13 µmol/L rezultirao je s 88,06±2,05 % odnosno 84,17±3,19 % vijabilnih stanica. Ove koncentracije omogućile su ispitivanje genotoksičnosti, što je rezultiralo značajnim povećanjem primarnog oštećenja DNA nakon tretmana LSD-om i PCP-om u odnosu na negativnu kontrolu. LSD je izazvao značajno povećanje razine malondialdehida u usporedbi s kontrolom, za razliku od PCP-a. Dok je LSD inducirao značajno povećanje proizvodnje reaktivnih kisikovih vrsta (ROS) i razine glutationa (GSH), tretman PCP-om uzrokovao je značajno povećanje proizvodnje ROS-a, ali smanjenje razine GSH-a u usporedbi s kontrolom. Tretman stanica LSD-om značajno je povećao aktivnosti svih antioksidacijskih enzima u usporedbi s kontrolom. Tretman PCP-om značajno je povećao aktivnosti glutation peroksidaze (GPx) i superoksid dismutaze (SOD), ali je aktivnost katalaze (CAT) bila značajno niža nego u odgovarajućoj kontroli. Zaključno, LSD je imao veći potencijal oštećenja DNA i pokazao je jaču oksidacijsku aktivnost od PCP-a u stanicama SH-SY5Y