Mercaptobenzothiazole-on-Gold Biosensor Systems for Organophosphate and Carbamate Pesticide Compounds.

Somerse, Vernon Sydwill.

January 2007

<p>This study firstly reports the development, characterisation, and application of thick-film acetylcholinesterase (AChE) biosensors based on a gold electrode modified with a mercaptobenzothiazole (MBT) self-assembled monolayer and either poly(omethoxyaniline) (POMA) or poly(2,5-dimethoxyaniline) (PDMA) in the presence of polystyrene(4-sulphonic acid) (PSSA). The Au/MBT/POMA-PSSA/AChE and Au/MBT/PDMA-PSSA/AChE biosensors were then applied to successfully detect standard organophosphorous and carbamate pesticides in a 0.1 M phosphate buffer, 0.1 M KCl (pH 7.2) solution. Secondly, it reports the construction of the Au/MBT/PANI/AChE/PVAc thick-film biosensor for the determination of certain organophosphate and carbamate pesticide solutions in selected aqueous organic solvent solutions.</p>

Mercaptobenzothiazole

Polyaniline

Acetylcholinesterase

Self-Assembled Monolayer

Organophosphates

Carbamates

Pesticides

Organic Phase Amperometric Biosensor

Nanomolar Detection Limit

Voltammetry.

Diffusion-Reaction Modeling, Non-Linear Dynamics, Feedback, Bifurcation and Chaotic Behaviour of the Acetylcholine Neurocycle and Their Relation to Alzheimer's and Parkinson's Diseases

Mustafa, Ibrahim Hassan

January 2010

The disturbances and abnormalities occurring in the components of the Acetylcholine (ACh) neurocycle are considered one of the main features of cholinergic sicknesses like Parkinson’s and Alzheimer’s diseases. A fundamental understanding of the ACh neurocycle is therefore very critical in order to design drugs that keep the ACh concentrations in the normal physiological range. In this dissertation, a novel two-enzyme-two-compartment model is proposed in order to explore the bifurcation, dynamics, and chaotic characteristics of the ACh neurocycle. The model takes into consideration the physiological events of the choline uptake into the presynaptic neuron and the ACh release in the postsynaptic neuron. In order to approach more realistic behavior, two complete kinetic mechanisms for enzymatic processes pH-dependent are built: the first mechanism is for the hydrolysis reaction catalyzed by the acetylcholinesterase (AChE) and the other is for the synthesis reaction catalyzed by the cholineacetyltransferase (ChAT). The effects of hydrogen ion feed concentrations, AChE activity, ChAT activity, feed ACh concentrations, feed choline concentrations, and feed acetate concentrations as bifurcation parameters, on the system performance are studied. It was found that hydrogen ions play an important role, where they create potential differences through the plasma membranes. The concentrations of ACh, choline and acetate in compartments 1 and 2 are affected by the activity of AChE through a certain range of their concentrations, where the activity of AChE is inhibited completely after reaching certain values. A detailed bifurcation analysis over a wide range of parameters is carried out in order to uncover some important features of the system, such as hysteresis, multiplicity, Hopf bifurcation, period doubling, chaotic characteristics, and other complex dynamics. The effects of the feed choline concentrations and the feed acetate concentrations as bifurcation parameters are studied in this dissertation. It is found that the feed choline concentrations play an important role and have a direct effect on the ACh neurocycle through a certain important range of the parameters. However, the feed acetate concentrations have less effect. It is concluded from the results that the feed choline is a more important factor than the feed acetate in ACh processes. The effects of ChAT activity and the choline recycle ratio as bifurcation parameters, on the system performance are investigated. It was found that as the ChAT activity increases, ACh concentrations in compartments 1 and 2 increase continuously. The effect of the choline recycle ratio shows that choline reuptake plays a very critical role in the synthesis of ACh in compartment 1, where it supplies the choline as a substrate for the synthesis reaction by ChAT. The concentrations of ACh, choline and acetate in compartments 1 and 2 are affected by the choline recycle ratio through a certain range of the choline recycle ratio; then, they become constant as the choline recycle ratio increases further. It is concluded from our results that choline uptake is the rate limiting step in the ACh processes in both compartments in comparison to ChAT activity. Based on partial dissociation of the acetic acid in compartments 1, and 2 of the ACh cholinergic system, the two-parameter continuation technique has been applied to investigate the pH range to be closer to physiological ranges of pH values. In addition, static/dynamic solutions of the ACh cholinergic neurocycle system based on feed choline concentration as the main bifurcation parameter in both compartments have been investigated. The findings of the above studies are related to the real phenomena occurring in the neurons, like periodic stimulation of neural cells and non-regular functioning of ACh receptors. It was found that ACh, choline, acetate, and pH exist inside the physiological range associated with taking into consideration the partial dissociation of the acetic acid. The disturbances and irregularities (chaotic attractors) occurring in the ACh cholinergic system may be good indications of cholinergic diseases such as Alzheimer’s and Parkinson’s diseases. The results have been compared to the results of physiological experiments and other published models. As there is strong evidence that cholinergic brain diseases like Alzheimer’s disease and Parkinson’s disease are related to the concentration of ACh, the present findings are useful for uncovering some of the characteristics of these diseases and encouraging more physiological research.

Acetylcholine

Acetylcholinesterase

Cholineacetyltransferase

Choline

Bifurcation

Beta Amyloid Aggregation

Bifurcation

Alzheimer’s disease

Parkinson’s disease

Dynamic behavior

Chemical Engineering

Diffusion-Reaction Modeling, Non-Linear Dynamics, Feedback, Bifurcation and Chaotic Behaviour of the Acetylcholine Neurocycle and Their Relation to Alzheimer's and Parkinson's Diseases

Mustafa, Ibrahim Hassan

January 2010

The disturbances and abnormalities occurring in the components of the Acetylcholine (ACh) neurocycle are considered one of the main features of cholinergic sicknesses like Parkinson’s and Alzheimer’s diseases. A fundamental understanding of the ACh neurocycle is therefore very critical in order to design drugs that keep the ACh concentrations in the normal physiological range. In this dissertation, a novel two-enzyme-two-compartment model is proposed in order to explore the bifurcation, dynamics, and chaotic characteristics of the ACh neurocycle. The model takes into consideration the physiological events of the choline uptake into the presynaptic neuron and the ACh release in the postsynaptic neuron. In order to approach more realistic behavior, two complete kinetic mechanisms for enzymatic processes pH-dependent are built: the first mechanism is for the hydrolysis reaction catalyzed by the acetylcholinesterase (AChE) and the other is for the synthesis reaction catalyzed by the cholineacetyltransferase (ChAT). The effects of hydrogen ion feed concentrations, AChE activity, ChAT activity, feed ACh concentrations, feed choline concentrations, and feed acetate concentrations as bifurcation parameters, on the system performance are studied. It was found that hydrogen ions play an important role, where they create potential differences through the plasma membranes. The concentrations of ACh, choline and acetate in compartments 1 and 2 are affected by the activity of AChE through a certain range of their concentrations, where the activity of AChE is inhibited completely after reaching certain values. A detailed bifurcation analysis over a wide range of parameters is carried out in order to uncover some important features of the system, such as hysteresis, multiplicity, Hopf bifurcation, period doubling, chaotic characteristics, and other complex dynamics. The effects of the feed choline concentrations and the feed acetate concentrations as bifurcation parameters are studied in this dissertation. It is found that the feed choline concentrations play an important role and have a direct effect on the ACh neurocycle through a certain important range of the parameters. However, the feed acetate concentrations have less effect. It is concluded from the results that the feed choline is a more important factor than the feed acetate in ACh processes. The effects of ChAT activity and the choline recycle ratio as bifurcation parameters, on the system performance are investigated. It was found that as the ChAT activity increases, ACh concentrations in compartments 1 and 2 increase continuously. The effect of the choline recycle ratio shows that choline reuptake plays a very critical role in the synthesis of ACh in compartment 1, where it supplies the choline as a substrate for the synthesis reaction by ChAT. The concentrations of ACh, choline and acetate in compartments 1 and 2 are affected by the choline recycle ratio through a certain range of the choline recycle ratio; then, they become constant as the choline recycle ratio increases further. It is concluded from our results that choline uptake is the rate limiting step in the ACh processes in both compartments in comparison to ChAT activity. Based on partial dissociation of the acetic acid in compartments 1, and 2 of the ACh cholinergic system, the two-parameter continuation technique has been applied to investigate the pH range to be closer to physiological ranges of pH values. In addition, static/dynamic solutions of the ACh cholinergic neurocycle system based on feed choline concentration as the main bifurcation parameter in both compartments have been investigated. The findings of the above studies are related to the real phenomena occurring in the neurons, like periodic stimulation of neural cells and non-regular functioning of ACh receptors. It was found that ACh, choline, acetate, and pH exist inside the physiological range associated with taking into consideration the partial dissociation of the acetic acid. The disturbances and irregularities (chaotic attractors) occurring in the ACh cholinergic system may be good indications of cholinergic diseases such as Alzheimer’s and Parkinson’s diseases. The results have been compared to the results of physiological experiments and other published models. As there is strong evidence that cholinergic brain diseases like Alzheimer’s disease and Parkinson’s disease are related to the concentration of ACh, the present findings are useful for uncovering some of the characteristics of these diseases and encouraging more physiological research.

Acetylcholine

Acetylcholinesterase

Cholineacetyltransferase

Choline

Bifurcation

Beta Amyloid Aggregation

Bifurcation

Alzheimer’s disease

Parkinson’s disease

Dynamic behavior

Chemical Engineering

Structure-function properties of hemp seed proteins and protein-derived acetylcholinesterase-inhibitory peptides

Malomo, Sunday

January 2014

Hemp seed proteins (HSP) were investigated for physicochemical and functional properties in model food systems. In addition, the HSP were enzymatically digested and the released peptides investigated as potential therapeutic agents. Membrane isolated HSP (mHPC) were the most soluble with >60% solubility at pH 3-9 when compared to a maximum of 27% for isoelectric pH-precipitated proteins (iHPI). However, iHPI formed emulsions with smaller oil droplet sizes (<1 µm) while mHPI formed bigger oil droplets. The iHPI was subjected to enzymatic hydrolysis using different concentrations (1-4%) of six proteases (pepsin, pancreatin, flavourzyme, thermoase, papain and alcalase) to produce various HSP hydrolysates (HPHs). HPHs had strong in vitro inhibitions of angiotensin converting enzyme (ACE) and renin activities, the two main enzyme systems involved in hypertension. Oral administration of the HPHs to spontaneously hypertensive rats led to fast and persistent reductions in systolic blood pressure. The HPHs also inhibited in vitro activities of acetylcholinesterase (AChE), a serine hydrolase whose excessive activities lead to inadequate level of the cholinergic neurotransmitter, acetylcholine (ACh). Inadequate ACh level in the brain has been linked to neurodegenerative diseases such as dementia and Alzheimer’s disease (AD); therefore, AChE inhibition is a therapeutic target. The 1% pepsin HPH was the most active with up to 54% AChE inhibition at 10 µg/mL peptide concentration. The 1% pepsin HPH (dominated by <1 kDa) was subjected to reverse-phase HPLC peptide purification coupled with tandem mass spectrometry, which led to identification of several peptide sequences. Some of the peptides inhibited activities of both animal and human AChE forms with LYV being the most potent against human AChE (IC50 = 7 µg/ml). Thus the LYV peptide may serve as a useful template for the development of future potent AChE-inhibitory peptidomimetics. In conclusion, several novel AChE-inhibitory peptides were discovered and their amino acid sequences elucidated for the first time. Results from this work identified HSP products that could serve as functional ingredients in the food industry. The work also produced and confirmed the in vitro AChE-inhibitory activities of several new peptide sequences that may serve as therapeutic agents for AD management. / October 2015

hemp seeds

hemp protein hydrolysates

bioactive peptides

structure-function

emulsion

foaming

hydrophobicity

acetylcholine

acetylcholinesterase

amino acid sequence

Žmogaus epikardinių nervinių mazgų topografijos ir sandaros ypatumai prenataliniu laikotarpiu / The Peculiarities of Topography and Morphology of the Human Epicardiac Neural Ganglia during Prenatal Period

Saburkina, Inga

29 January 2008

Intrakardinė nervų sistema atlieka svarbų vaidmenį reguliuodama širdies ritmą, miokardo laidumą ir susitraukimo jėgą bei vainikinių arterijų tonusą. Neišnešiotų kūdikių intrakardinės inervacijos topografija yra svarbi, atliekant perkateterinę radijodažninę abliaciją, taikomą medikamentiniam gydimui rezistentiškų supraventrikulinių bei atrioventrikulinių reciprokinių tachikardijų atvejais. Tyrėjų duomenys, apie mazgų topografiją bei struktūrinę organizaciją, yra gana skirtingi ir, kad žmogaus vaisių širdies intrakardinis nervinis rezginys iš tiesų nėra pakankamai ištirtas. Todėl darbo tikslas buvo ištirti žmogaus epikardinių nervinių mazgų topografiją ir morfologij�� įvairaus amžiaus vaisių širdyse. Disertacinio darbo rezultatai rodo, kad (1) žmogaus epikardiniai nerviniai mazgai yra lokalizuoti definityvinėse vietose jau penkiolikos savaičių vaisiaus širdyje; (2) epikardinių mazgų skaičius ir pasklidimas žmogaus 15-40 savaičių vaisiuose nėra susijęs su amžiumi; (3) epikardinių nervinių subrezginių mazgų laukų topografija yra pastovi tirtose vaisių širdyse; (4) epikardinių nervinių subrezginių mazgų laukų struktūra – ganglijų skaičius ir jų sritinė lokalizacija yra individualiai kintantys; (5) epikardinių mazgų ir mazginių neuronų dydis, o taip pat mazgų forma bei tarpmazginių nervų skaičius yra susiję su vaisių amžiumi. / Intrinsic cardiac nervous system plays a crucial role in regulation of heart rate, contractility and tone of the coronary vessels. In neonates and infants, the intrinsic neural pathways are considered to be important for radiofrequency ablation that is performed in cases of incessant supraventricular and atrioventricular nodal reentrant tachycardia. Findings regarding to topography of intrinsic cardiac ganglia in the human fetuses differ substantially and deserves a further examination. The aim of this study was to investigate the topography and morphology of the human epicardiac neural ganglia during prenatal period. Results of the present study show, that: (1) the human fetal epicardiac ganglia are in their definitive location already from 15 weeks of gestation; (2) the number of the fetal epicardiac ganglia does not age-dependent and does not differ significantly between the fetal and the adult humans; (3) the distribution of the fetal epicardiac ganglia does not age-dependent; (4) the variability of the neural ganglionated fields, including both the ganglion number and the regional ganglion density, vary substantially from heart to heart; (5) the sizes of epicardiac ganglia in the human fetuses differ substantially from the adult ones, and that the ganglion structure, ganglion size and the number of interganglionic nerves are dependent on gestation stage of the human fetuses.

Biology

Širdies inervacija

Autonominiai mazgai

Širdies nervai

Žmogaus vaisius

Acetilcholinesterazė

Heart innervation

Autonomic ganglia

Intrinsic cardiac nerves

Human fetus

Acetylcholinesterase

Žmogaus plautinių venų nervinio rezginio morfofunkcinės ypatybės / Morpho–functional pecularities of intrinsic neural plexus on the human pulmonary veins

Vaitkevičius, Raimundas

26 January 2010

Plautines venas, kaip ir širdies miokardą, kontroliuoja širdies nervinė sistema. Nors žmogaus epikardinis nervinis rezginys šiuo metu yra nemažai tyrinėtas, plautinių venų inervacija į tyrėjų akiratį pateko tik po darbų, įrodančių žmogaus plautinių venų ir kairiojo prieširdžio anatominių struktūrų, tarp jų ir intramuralinių nervinių mazgų ir nervinių kelių, svarbų vaidmenį širdies aritmijų genezėje. Šio tyrimo tikslas buvo vizualizuoti plautinių venų nervines struktūras totaliuose žmogaus kairiojo prieširdžio–plautinių venų preparatuose, parodant žmogaus plautinių venų nervų ir nervinių mazgų ryšį su širdies nervine sistema. Mokslinio tyrimo metu spręsti šie uždaviniai: 1) nustatyti inervacijos kelius, kuriais nervai plinta žmogaus plautinėse venose bei įvertinti sritis, išsiskiriančias nervinių struktūrų gausa, 2) ištirti žmogaus plautinių venų žiočių ir jų sienos sluoksnių nervinius komponentus bei jų pasiskirstymo ypatybes, 3) nustatyti parasimpatinei, simpatinei ir aferentinei nervų sistemai priskiriamų žymenų, atitinkamai cholinacetiltansferazės, tirozinhidroksilazės, su kalcitonino genu susijusio peptido ir substancijos P, lokalizaciją ir pasiskirstymo ypatumus žmogaus plautinėse venose. Šiame darbe atliktuose neuromorfologiniuose tyrimuose buvo panaudotos žmogaus vaisių ir suaugusių žmonių širdys, paimtos autopsijų metu. Plautinių venų nervinis rezginys išryškintas, taikant histocheminį acetilcholinesterazės metodą ir imunohistochemines reakcijas. Remiantis tyrimo... [toliau žr. visą tekstą] / Although the crucial role in a spontaneous atrial fibrillation falls on cardiomyocytes of the human pulmonary veins, the autonomic nervous system is not considered only as the strong regulator of atrial electrophysiology but it is also the major initiator of atrial fibrillation due to a disordered interaction between the atrial autonomic nerves and the cardiomyocytes of the pulmonary vein. The aim of the present study was to investigate the intrinsic neural plexus on whole (non–sectioned) human pulmonary veins. The objectives of the study was: 1) to determine the sources and morphology of nerve routes by which intrinsic nerves supply the human pulmonary veins, 2) to examine the neural structures located within distinct wall layers of the human pulmonary veins, 3) to identify the distribution and expression of tyrosine hydroxylase, choline acetyltransferase, calcitonin gene related peptide and substance P positive nerve structures on the human pulmonary veins as corresponding markers for sympathetic, parasympathetic and sensory nerve cells and fibers. Twenty–two hearts of the human fetuses and thirty five hearts of the adult humans containing the full set of pulmonary veins were investigated applying a histochemical methods for acetylcholinesterase to stain intrinsic neural structures with their subsequent stereomicroscopic examination. ChAT, TH, substantia P and CGRP immunoreactive nerves structures were also studied in the pulmonary veins sections, obtained from the six... [to full text]

Medicine

Plautinės venos

Inervacija

Acetilcholinesterazė

Širdies nervinė sistema

Prieširdžių virpėjimas

Pulmonary veins

Innervation

Acetylcholinesterase

Intrinsic cardiac nerves

Atrial fibrillation

Mercaptobenzothiazole-on-Gold Biosensor Systems for Organophosphate and Carbamate Pesticide Compounds.

Somerse, Vernon Sydwill.

January 2007

<p>This study firstly reports the development, characterisation, and application of thick-film acetylcholinesterase (AChE) biosensors based on a gold electrode modified with a mercaptobenzothiazole (MBT) self-assembled monolayer and either poly(omethoxyaniline) (POMA) or poly(2,5-dimethoxyaniline) (PDMA) in the presence of polystyrene(4-sulphonic acid) (PSSA). The Au/MBT/POMA-PSSA/AChE and Au/MBT/PDMA-PSSA/AChE biosensors were then applied to successfully detect standard organophosphorous and carbamate pesticides in a 0.1 M phosphate buffer, 0.1 M KCl (pH 7.2) solution. Secondly, it reports the construction of the Au/MBT/PANI/AChE/PVAc thick-film biosensor for the determination of certain organophosphate and carbamate pesticide solutions in selected aqueous organic solvent solutions.</p>

Mercaptobenzothiazole

Polyaniline

Acetylcholinesterase

Self-Assembled Monolayer

Organophosphates

Carbamates

Pesticides

Organic Phase Amperometric Biosensor

Nanomolar Detection Limit

Voltammetry.

Application of hydrogen bond acidic polycarbosilane polymers and solid phase microextraction for the collection of nerve agent simulant /

Boglarski, Stephen L

January 2006

Thesis (M.S.P.H.)--Uniformed Services University of the Health Sciences, 2006 / Typescript (photocopy)

Επίδραση της πόσης αφεψημάτων των φυτών Rosmarinus sp. & Hypericum sp. στην από το μόλυβδο (Pb) επαγώμενη νευροτοξικότητα

Φερλέμη, Αναστασία - Βαρβάρα

27 October 2010

Το περιβάλλον διαθέτει πλούτο παραγόντων, οι οποίοι επηρεάζουν με θετικό ή αρνητικό τρόπο την ανάπτυξη και τη λειτουργία των οργανισμών. Μεταξύ των μετάλλων, ο μόλυβδος (Pb) θεωρείται ο σημαντικότερος νευροτοξικός περιβαλλοντικός παράγοντας, με τις κυριότερες αρνητικές επιδράσεις του να αφορούν νεαρούς οργανισμούς ή οργανισμούς που βρίσκονται στα πρώτα στάδια ανάπτυξης. Το περιβάλλον, ωστόσο, διαθέτει και πολλούς παράγοντες οι οποίοι δύνανται να χρησιμοποιηθούν για τις ευεργετικές τους ιδιότητες. Τα τελευταία χρόνια το επιστημονικό ενδιαφέρον έχει στραφεί στην εξεύρεση φυτών και φυτικών συστατικών που θα μπορούσαν να δρουν ενάντια της νευροτοξικής δράσης των μετάλλων. Η ελληνική χλωρίδα είναι πλούσια σε κοινά και ενδημικά φυτά που διαθέτουν νευροπροστατευτικές ιδιότητες. Ο σκοπός της εργασίας ήταν η διερεύνηση της πιθανής συσσώρευσης του μολύβδου στον ολικό εγκέφαλο (-παρεγκεφαλίδα) ενήλικων μυών και της πιθανής επαγωγής νευροτοξικών δράσεων, εστιάζοντας στη διεργασία μνήμη/μάθηση και την ενεργότητα του ενζύμου ακετυλοχολινεστεράση, ύστερα από χορήγηση διαλύματος μολύβδου (500 ppm) για διάστημα 4 εβδομάδων. Επιπλέον, διερευνήθηκε η πολυφαινολική σύσταση και η πιθανή προστατευτική δράση ενάντια στο μέταλλο των αφεψημάτων δυο φυτών της ελληνικής χλωρίδας, του κοινού Rosmarinus officinalis (δενδρολίβανο) και του υπενδημικού Hypericum vesiculosum, ύστερα από χορήγηση των αφεψημάτων σε ενήλικους μύες, καθώς και μετά από συγχορήγησή τους με το μόλυβδο για χρονικό διάστημα 4 εβδομάδων. To Η. vesiculosum δεν έχει μελετηθεί ποτέ ξανά ως προς τη σύσταση και τις ιδιότητές του. Τα αποτελέσματά μας υποδεικνύουν ότι και τα δυο αφεψήματα έχουν πλούσιο πολυφαινολικό περιεχόμενο, και ιδιαιτέρως το H. vesiculosum που υπερισχύει του δενδρολίβανου. Επιπλέον, με τη χρήση δυο φασματομετρικών μεθόδων (Φασματομετρία Ατομικής Απορρόφησης/AAS, Φασματομετρία Μάζας με Πηγή Επαγωγικά Συζευγμένου Πλάσματος/ICP-MS) αποδείχτηκε ότι ο Pb συσσωρεύεται στον εγκέφαλο ενήλικων μυών και αυτή η συσσώρευση δεν επηρεάζεται σε σημαντικό βαθμό από την συγχορήγηση των δυο αφεψημάτων με το μέταλλο. Ακόμα, η μελέτη της μνήμης και της μάθησης με τη χρήση της δοκιμασίας της Παθητικής Αποφυγής και η μελέτη της ενεργότητας της AChE στον ολικό εγκέφαλο (-παρεγκεφαλίδα) και στην παρεγκεφαλίδα [SS (διαλυτό σε άλας) κλάσμα που περιέχει κυρίως την G1 ισομορφή της AChE και DS (διαλυτό σε απορρυπαντικό κλάσμα) που περιέχει κυρίως την G4 ισομορφή της AChE, η οποία είναι πολύ σημαντική για το νευρικό σύστημα] απέδειξε ότι (α) ο μόλυβδος ασκεί τις νευροτοξικές του επιδράσεις προκαλώντας γνωστικές βλάβες και δυσλειτουργία του χολινεργικού συστήματος. Η ελάττωση της ενεργότητας της AChE μπορεί να οφείλεται στην αποικοδόμηση των χολινεργικών νευρώνων του ιππόκαμπου και της παρεγκεφαλίδας. (β) Τα δυο αφεψήματα αναστέλλουν την AChE με το δενδρολίβανο να είναι πιο αποδοτικό ακολουθώντας ιστοειδική δράση. Η διαδικασία της μνήμης/μάθησης δε φάνηκε να επηρεάζεται από τα δυο αφεψήματα αν και το δενδρολίβανο έδειξε ένα θετικό αποτέλεσμα που δεν ήταν στατιστικά σημαντικό. (γ) Η συγχορήγηση καθενός από τα αφεψήματα με το διάλυμα του Pb προκάλεσε σημαντικές αλλαγές στην ενεργότητα της AChE (ειδικά στο DS κλάσμα) και το R. officinalis ήταν περισσότερο αποτελεσματικό από το H. vesiculosum. Ολοκληρώνοντας, η συγχορήγηση υποδεικνύει ότι και τα δυο αφεψήματα επηρέασαν με παρόμοιο θετικό τρόπο τη γνωστική λειτουργία σε σχέση με τη δυσλειτουργία που είχε προκαλέσει ο Pb. / There are many environmental factors that can affect positively or negatively both the development and the functions of organisms. Among heavy metals, lead (Pb) is considered to be the most neurotoxic environmental factor, which exerts its negative effects especially in young or developmental organisms. However, there are many environmentally-based factors that could be used for their beneficial properties. In recent years, scientists have turned their interest to the discovery of plants and phenols that could protect the neural system against the neurotoxic effects of heavy metals. Hellenic flora is very rich in common and endemic plants with possible neuroprotective properties. The aim of the present study was to investigate the possible accumulation of lead in adult mice brain and the induction of neurotoxic effects, with emphasis on learning/memory process and acetylcholinesterase (AChE) activity, after the consumption of a lead solution (500 ppm), for 4 weeks. Furthermore, we investigated the polyphenolic content and the possible neuroprotective effects of two beverages (2%w/v), one of the common Rosmarinus officinalis (rosemary) and one of the endemic Hypericum vesiculosum, against metal’s toxicity after consumption/coadministration of each beverage with the lead solution, for 4 weeks. H. vesiculosum has never been studied before for its phenolic content, nor for its biological actions. Our results showed that the two beverages are rich in polyphenols, with H. vesiculosum been richer than R. officinalis. Moreover, the use of two spectrometric methods (Atomic Absorption Spectrometry/AAS, Inductively Coupled Plasma-Mass Spectrometry/ICP-MS) indicated that lead accumulates in adult mice brain, which was not affected after its co-administration with each beverage. Furthermore, the study of cognitive function, as assessed by Passive Avoidance test and determination of AChE activity in whole mice brain and cerebellum, [SS (salt soluble) fraction which contains the G1 isoform of AChE; and DS (detergent soluble) fraction which contains the G4 isoform of AChE that is very important for the neural system], demonstrated that: (a) lead exerts its neurotoxic effects by causing learning and memory deficits and dysfunction of the cholinergic system. The decrease of AChE activity may be due to the degeneration of the cholinergic neurons in the hippocampus and cerebellum; (b) Both beverages inhibit AChE activity, with rosemary being more effective and tissue-specific, while no effect was observed on learning/memory, after consumption of the two beverages. Only rosemary showed a positive effect that wasn’t, however, statically important; (c) The co-administration of each beverage with the lead solution caused important changes in AChE activity (especially in the G4 isoform), and R. officinalis was more effective than H. vesiculosum. Both beverages showed similar protective effects against Pb-induced cognitive dysfunctions in mice.

Μόλυβδος

Rosmarinus officinalis

Hypericum vesiculosum

Μνήμη/Μάθηση

Ακετυλοχολινεστεράση

615.925 688

Lead

Rosmarinus officinalis

Hypericum vesiculosum

Learning/Memory

Acetylcholinesterase

Mercaptobenzothiazole-on-Gold Biosensor Systems for Organophosphate and Carbamate Pesticide Compounds

Somerse, Vernon Sydwill

January 2007

Philosophiae Doctor - PhD / This study firstly reports the development, characterisation, and application of thick-film acetylcholinesterase (AChE) biosensors based on a gold electrode modified with a mercaptobenzothiazole (MBT) self-assembled monolayer and either poly(omethoxyaniline) (POMA) or poly(2,5-dimethoxyaniline) (PDMA) in the presence of polystyrene(4-sulphonic acid) (PSSA). The Au/MBT/POMA-PSSA/AChE and Au/MBT/PDMA-PSSA/AChE biosensors were then applied to successfully detect standard organophosphorous and carbamate pesticides in a 0.1 M phosphate buffer, 0.1 M KCl (pH 7.2) solution. Secondly, it reports the construction of the Au/MBT/PANI/AChE/PVAc thick-film biosensor for the determination of certain organophosphate and carbamate pesticide solutions in selected aqueous organic solvent solutions. / South Africa

Mercaptobenzothiazole

Polyaniline

Acetylcholinesterase

Self-Assembled Monolayer

Organophosphates

Carbamates

Pesticides

Organic Phase Amperometric Biosensor

Nanomolar Detection Limit

Voltammetry