Acetylcholinesterase inhibitory potential of scorpion venom in Aedes aegypti (Diptera: Culicidae) / Potencial inibidor da acetilcolinesterase do veneno de escorpião em Aedes aegypti (Diptera: Culicidae)

Scorpion venom contains a variety of neurotoxins which interact with ion channels and affect their activities. The present study was designed to evaluate the potential of scorpion venom as acetylcholinesterase (AChE) inhibitor by using Aedes aegypti as model organism. Venoms of two species, Hottentota tamulus (Fabricus, 1798) and Androctonus finitimus (Pocock, 1897) were selected for this study. Two peptides (36 kDa from H. tamulus and 54 kDa from A. finitimus) were separated from scorpion venom by using HPLC. Selected peptides caused significantly higher mortality in larvae and adults of Aedes aegypti than control (no mortalities were observed in control groups). Significant acetylcholinesterase (AChE) inhibitory potential of both peptides was recorded by spectrophotometer. The peptide of A. finitimus caused significantly higher mortality (95±1.53% in larvae and 100% in adults) than the peptide of H. tamulus (84.33±2.33% in larvae and 95.37±1.45% in adults). While H. tamulus peptide was more efficient in reducing AChE activity (0.029±0.012 in larvae and 0.03±0.003 in adults) than the peptide of A. finitimus (0.049±0.005 in larvae and 0.047±0.001 in adults). It was concluded that H. tamulus venom peptide was more efficiently reducing AChE activity, thus it could be a potential bio-insecticide which can be synthesized at industrial scale for the control of harmful insects.

O veneno do escorpião contém uma variedade de neurotoxinas que interagem com os canais iônicos e afetam suas atividades. O presente estudo foi desenhado para avaliar o potencial do veneno de escorpião como inibidor da acetilcolinesterase (AChE) usando o Aedes aegypti como organismo modelo. Venenos de duas espécies, Hottentota tamulus (Fabricus, 1798) e Androctonus finitimus (Pocock, 1897) foram selecionados para este estudo. Dois peptídeos (36 kDa de H. tamulus e 54 kDa de A. finitimus) foram separados do veneno de escorpião usando HPLC. Peptídeos selecionados causaram mortalidade significativamente maior em larvas e adultos de Aedes aegypti do que o controle (não foram observadas mortalidades nos grupos controle). O potencial inibitório significativo da acetilcolinesterase (AChE) de ambos os peptídeos foi registrado por espectrofotômetro. O peptídeo de A. finitimus causou mortalidade significativamente maior (95 ± 1,53% em larvas e 100% em adultos) que o peptídeo de H. tamulus (84,33 ± 2,33% em larvas e 95,37 ± 1,45% em adultos). Enquanto o peptídeo de H. tamulus foi mais eficiente na redução da atividade da AChE (0,029 ± 0,012 em larvas e 0,03 ± 0,003 em adultos) do que o peptídeo de A. finitimus (0,049 ± 0,005 em larvas e 0,047 ± 0,001 em adultos). Concluiu-se que o peptídeo do veneno de H. tamulus foi mais eficiente na redução da atividade da AChE, podendo ser um potencial bioinseticida que pode ser sintetizado em escala industrial para o controle de insetos nocivos.

Composición química y actividad Butirilcolinesterasa selectiva del aceite esencial de Piper arboreum Aubl. de Ecuador / Chemical composition and selective BuChE activity of the essential oil of Piper arboreum Aubl. from Ecuador

The aim of this study was to identify the chemical composition of the Piper arboreum Aubl. essential oil (EO), and to evaluate its inhibitory activity in vitro against the enzymes butyrylcholinesterase (BuChE) and acetylcholinesterase (AChE). The EO was obtained by steam distillation of the leaves, which were collected in Pindal canton of the Loja province in southern Ecuador. The chemical composition was analyzed using the gas chromatography technique coupled to a mass spectrometry detector (GC-MS) and gas chromatography coupled to a flame ionization detector (GC-FID). A total of 41 compounds were identified, the major components found in the oil were limonene (31,46%), ß-selinene (12,01%), (E)-caryophyllene (7,53%), bicyclogermacrene (6,72%), germacrene D (3,83%) and ß-elemene (3,63%). In in vitro analyzes, the EO showed high selective inhibition for BuChE with an IC50 inhibition value of 29,3±3,3 µg/mL. By contrast, the EO was not active against the AChE enzyme (IC50was 100,1±15,2 µg/mL).

El objetivo del presente estudio consistió en identificar la composición química del aceite esencial de la especie Piper arboreum Aubl. y evaluar su actividad inhibitoria in vitro frente a las enzimas butirilcolinesterasa (BuChE) y acetilcolinesterasa (AChE). El aceite esencial (AE) se obtuvo mediante destilación por arrastre de vapor de las hojas de la planta, que se colectaron en el cantón Pindal de la provincia de Loja al sur de Ecuador. La composición química se analizó mediante la técnica de cromatografía de gases acoplado a un detector de espectrometría de masas (GC-MS) y cromatografía de gases acoplado a un detector de ionización de llama (GC-FID). Se identificaron en total 41 compuestos, siendo los mayoritarios, el limoneno (31,46%), ß-selineno (12,01%), (E)-cariofileno (7,53%), biciclogermacreno (6,72%), germacreno D (3,83%) y ß-elemeno (3,63%). En los análisis in vitro, el AE mostró una alta inhibición selectiva para BuChE con un valor de inhibición CI50 de 29,3±3,3 µg/mL. Por el contrario,el AE no resultó activo frente a la enzima AChE con un valor de inhibión CI50= 100,1±15,2 µg/mL.

Neurotoxicological effects of venlafaxine on Caenorhabditis elegans and Danio rerio.

The growing consumption of psychoactive drugs, such as Venlafaxine (VFX), can negatively affect the organisms. Our main hypothesis is to investigate if VFX at human-used doses could exert effects on the behavioral, nervous, and antioxidant systems of two different organisms, zebrafish and C. elegans. We evaluated the effect of acute exposure to VFX at four concentrations (0, 37.5, 75, and 150 mg L-1) using toxicological indicator assessments. We evaluated zebrafish behavior using the novel tank test (NTT), social preference test (SPT), cortisol levels, acetylcholinesterase (AChE) activity, and antioxidant system. In C. elegans, we evaluated body bends, defecation cycles, pharyngeal pumping, AChE activity, and antioxidant system. C. elegans do not show alterations in the behavior analysis of pharyngeal pumping and body bends. Instead, the defecation cycle was increased in the highest dose of VFX. AChE activity also does not have differences compared to the control, the same occurs in lipid peroxidation rates. These results showed that nematodes were more resistant to changes when exposed to VFX. Zebrafish exposed to VFX showed changes in the NTT and SPT test, mainly in the anxiolytic pattern, suggesting that VFX alters this anxiolytic-like behavior. Comparing both organisms, we can observe that zebrafish seems to be more sensitive in this neurotoxicological evaluation.

Chemical and Pharmacological Screening of Rhinella icterica (Spix 1824) Toad Parotoid Secretion in Avian Preparations.

The biological activity of Rhinella icterica parotoid secretion (RIPS) and some of its chromatographic fractions (RI18, RI19, RI23, and RI24) was evaluated in the current study. Mass spectrometry of these fractions indicated the presence of sarmentogenin, argentinogenin, (5ß,12ß)-12,14-dihydroxy-11-oxobufa-3,20,22-trienolide, marinobufagin, bufogenin B, 11α,19-dihydroxy-telocinobufagin, bufotalin, monohydroxylbufotalin, 19-oxo-cinobufagin, 3α,12ß,25,26-tetrahydroxy-7-oxo-5ß-cholestane-26-O-sulfate, and cinobufagin-3-hemisuberate that were identified as alkaloid and steroid compounds, in addition to marinoic acid and N-methyl-5-hydroxy-tryptamine. In chick brain slices, all fractions caused a slight decrease in cell viability, as also seen with the highest concentration of RIPS tested. In chick biventer cervicis neuromuscular preparations, RIPS and all four fractions significantly inhibited junctional acetylcholinesterase (AChE) activity. In this preparation, only fraction RI23 completely mimicked the pharmacological profile of RIPS, which included a transient facilitation in the amplitude of muscle twitches followed by progressive and complete neuromuscular blockade. Mass spectrometric analysis showed that RI23 consisted predominantly of bufogenins, a class of steroidal compounds known for their cardiotonic activity mediated by a digoxin- or ouabain-like action and the blockade of voltage-dependent L-type calcium channels. These findings indicate that the pharmacological activities of RI23 (and RIPS) are probably mediated by: (1) inhibition of AChE activity that increases the junctional content of Ach; (2) inhibition of neuronal Na+/K+-ATPase, leading to facilitation followed by neuromuscular blockade; and (3) blockade of voltage-dependent Ca2+ channels, leading to stabilization of the motor endplate membrane.

Ibuprofen intake increases exercise time to exhaustion: A possible role for preventing exercise-induced fatigue.

Although the intake of nonsteroidal anti-inflammatory drugs (NSAIDs) intake by athletes prevents soreness, little is known concerning their role in exercise performance. This study assessed the effects of ibuprofen intake on an exhaustive protocol test after 6 weeks of swimming training in rats. Animals were divided into sedentary and training groups. After training, animals were subdivided into two subsets: saline or ibuprofen. Afterwards, three repeated swimming bouts were performed by the groups. Ibuprofen (15 mg/kg) was administered once a day. Pain measurements were performed and inflammatory and oxidative stress parameters were assayed in cerebral cortex and gastrocnemius muscle. Training, ibuprofen administration, or both combined (P < 0.05; 211 ± 18s, 200 ± 31s, and 279 ± 23s) increased exercise time to exhaustion. Training decreased the acetylcholinesterase (AChE) activity (P < 0.05; 149 ± 11) in cerebral cortex. Ibuprofen intake decreased the AChE activity after exhaustive protocol test in trained and sedentary rats (P < 0.05; 270 ± 60; 171 ± 38; and 273 ± 29). It also prevented neuronal tumor necrosis factor-α (TNF-α) and interleukin (IL 1ß) increase. Fatigue elicited by this exhaustive protocol may involve disturbances of the central nervous system. Additive anti-inflammatory effects of exercise and ibuprofen intake support the hypothesis that this combination may constitute a more effective approach. In addition, ergogenic aids may be a useful means to prevent exercise-induced fatigue.

Interactions of AChE with Aß Aggregates in Alzheimer's Brain: Therapeutic Relevance of IDN 5706.

Acetylcholinesterase (AChE; EC 3.1.1.7) plays a crucial role in the rapid hydrolysis of the neurotransmitter acetylcholine, in the central and peripheral nervous system and might also participate in non-cholinergic mechanism related to neurodegenerative diseases. Alzheimer's disease (AD) is a neurodegenerative disorder characterized by a progressive deterioration of cognitive abilities, amyloid-ß (Aß) peptide accumulation and synaptic alterations. We have previously shown that AChE is able to accelerate the Aß peptide assembly into Alzheimer-type aggregates increasing its neurotoxicity. Furthermore, AChE activity is altered in brain and blood of Alzheimer's patients. The enzyme associated to amyloid plaques changes its enzymatic and pharmacological properties, as well as, increases its resistant to low pH, inhibitors and excess of substrate. Here, we reviewed the effects of IDN 5706, a hyperforin derivative that has potential preventive effects on the development of AD. Our results show that treatment with IDN 5706 for 10 weeks increases brain AChE activity in 7-month-old double transgenic mice (APP(SWE)-PS1) and decreases the content of AChE associated with different types of amyloid plaques in this Alzheimer's model. We concluded that early treatment with IDN 5706 decreases AChE-Aß interaction and this effect might be of therapeutic interest in the treatment of AD.