Novel sulfanyl- and sulfinylcaffeine analogues as inhibitors of monoamine oxidase / Wayne Mentz

Mentz, Wayne

January 2013

Parkinson’s disease (PD) is a neurodegenerative disorder, which is progressive in nature and usually associated with the elderly. It is the second most common age-related neurodegenerative disorder after Alzheimer’s disease (AD). PD occurs when there is a dramatic loss of dopamine (DA) in the striatum, a substructure of the basal ganglia, of the brain due to the degeneration of the nigrostriatal pathway that contains the dopaminergic neurons. Motor symptoms of PD include bradykinesia, muscular rigidity and resting tremors. Non-motor symptoms include speech and sleep problems, hallucinations and depression. Diverse treatment options are available to treat the symptoms of PD, including levodopa (L-Dopa), DA agonists and monoamine oxidase B (MAO-B) inhibitors. The MAOs are flavoproteins that are bound to the outer membrane of the mitochondria and catalyze the oxidative deamination of neurotransmitters such as serotonin (5-HT), noradrenaline (NA) and DA. Two isoforms occur, namely MAO-A and –B, which share a 70% sequence identity. MAO-A catalyzes the oxidation of 5-HT and MAO-B has a substrate specificity towards benzylamine and 2-phenylethylamine. DA, NA, adrenaline and tryptamine are oxidized by both forms. MAO-A plays an important role in depression while MAO-B plays an important role in PD. The two isoforms are not evenly distributed in the brain. Of particular relevance to PD is the observation that, in the basal ganglia, MAO-B is the predominant form and the oxidation of DA in this region is largely due to MAO-B activity. Also, with an increase in age, there is an up to fourfold increase in MAO-B activity in the brain. In the aged parkinsonian brain, MAO-B is therefore a major DA metabolizing enzyme and MAO-B inhibitors have an important role in the therapy of PD. MAO-B inhibitors may potentially reduce the metabolic destruction of DA and thereby provide relief from the symptoms of PD. MAO-B inhibitors may also exert a neuroprotective effect in PD. In the catalytic cycle of MAO-B, one mole each of an aldehyde, hydrogen peroxide and ammonia are formed for each mole of primary amine substrate oxidized. Ferrous iron, which is abundant in the basal ganglia, may react with the hydrogen peroxide to form hydroxyl radicals in the Fenton reaction. The hydroxyl radical damages virtually all types of biomolecules including proteins, DNA, lipids, carbohydrates and amino acids. The aldehyde, in turn, may react with amino groups of proteins, and thus lead to cell injury. Inhibitors of MAO-B may reduce the MAO-catalyzed formation of hydrogen peroxide and aldehydes in the basal ganglia, and thus act as neuroprotective agents. MAO-B inhibitors that are currently being used in the treatment of PD are selegiline and rasagiline. Both are irreversible inhibitors of MAO-B. While irreversible inhibitors of MAO have been used extensively as drugs, irreversible inhibition has a number of disadvantages. These include the loss of selectivity as a result of repeated drug administration and a slow and variable rate of enzyme recovery following termination of drug treatment. The turnover rate for the biosynthesis of MAO-B in the human brain may require as much as 40 days while with reversible inhibition, enzyme activity is recovered when the inhibitor is eliminated from the tissues. For these reasons the discovery of novel MAO-B inhibitors, which interact reversibly with the enzymes are of value in the therapy of PD. The goal of this study was to design novel and reversible inhibitors of MAO-B, which may find application in the therapy of PD. In the current study, caffeine was used as scaffold for the design of new MAO inhibitors. Caffeine is reported to be a weak inhibitor of MAO-B, with an IC50 value of 5084 μM. Substitution at C-8 of the caffeine moiety, however, yields compounds with potent MAO-B inhibitory properties. Of particular importance to this study is a recent report that a series of 8-sulfanylcaffeine analogues acts as selective inhibitors of human MAO-B. Among the compounds examined, 8-[(phenylethyl)sulfanyl]caffeine was found to be a particularly potent MAO-B inhibitor with an IC50 value of 0.223 μM. In an attempt to further enhance the MAO-B inhibition potency of 8-[(phenylethyl)sulfanyl]caffeine, and possibly to discover highly potent MAO-B inhibitors, a series of five 8-[(phenylethyl)sulfanyl]caffeine analogues was synthesized and evaluated as inhibitors of human MAO-A and –B. For the purpose of this study 8- [(phenylethyl)sulfanyl]caffeine homologues containing C-3 alkyl (CF3, CH3 and OCH3) and halogen (Cl and Br) substituents on the phenyl ring were considered. Furthermore, a series of two 8-sulfinylcaffeine analogues and one 8-sulfonylcaffeine were synthesized and their MAO inhibitory potencies were measured. The purpose with these compounds was to compare the MAO inhibitory properties of the 8-sulfinylcaffeine analogues and 8-sulfonylcaffeine with those of the 8-sulfanylcaffeine analogues. This study also investigates the MAO inhibition properties of three selected 8-[(phenylpropyl)sulfanyl]caffeine and two 8-(benzylsulfanyl)caffeine analogues. Chemistry: The target 8-sulfanylcaffeine analogues were synthesized according to the literature procedure. 8-Chlorocaffeine was reacted with an appropriate mercaptan in the presence of NaOH, to yield the target 8-sulfanylcaffeine analogues in yields of 6.4–50.7%. 8-Chlorocaffeine, in turn, was conveniently synthesized in high yield by reacting chlorine with caffeine in chloroform. In certain instances, the mercaptan starting materials were not commercially available and were thus synthesized according to the literature procedure by reacting an appropriate alkylbromide with thiourea. The resulting thiouronium salt was hydrolyzed in the presence of NaOH to yield the target mercaptan. The 8-sulfinylcaffeine analogues and 8- sulfonylcaffeine were synthesized by reacting the 8-sulfanylcaffeines with H2O2 in the presence of glacial acetic acid and acetic anhydride. The structures and the purities of the inhibitors were verified by NMR, MS and HPLC analyses. MAO inhibition studies: The MAO inhibitory properties of the test compounds were examined using the recombinant human enzymes. The mixed MAO-A/B substrate, kynuramine, was employed as substrate for both enzymes and the inhibition potencies were expressed as the IC50 values. The 8-[(phenylethyl)sulfanyl]caffeine analogues were found to be highly potent inhibitors of MAO-B. The IC50 values recorded for these homologues ranged from 0.017–0.125 μM, making them twofold to 13-fold more potent MAO-B inhibitors than the lead compound, 8- [(phenylethyl)sulfanyl]caffeine (IC50 = 0.223 μM). For comparison, the reversible MAO-B selective inhibitor, lazabemide, exhibits an IC50 value of 0.091 μM under the same conditions (unpublished data from our laboratory). Interestingly, both alkyl (CF3, CH3 and OCH3) and halogen (Cl and Br) substitution lead to highly potent MAO-B inhibition. It may therefore be concluded that substitution on C-3 is a general strategy to enhance the MAO-B inhibition potency of 8-[(phenylethyl)sulfanyl]caffeine. The results of the MAO inhibitory studies with the 8- [(phenylpropyl)sulfanyl]caffeine analogues showed that these compounds are also inhibitors of MAO-B with IC50 values of 0.061–0.500 μM. Those homologues substituted with chlorine on the para and meta positions of the phenyl ring were found to be exceptionally potent inhibitors with IC50 values of 0.061 μM and 0.062 μM, respectively. For the series of 8- (benzylsulfanyl)caffeines, meta substitution with chlorine (IC50 = 0.227 μM) and bromine (IC50 = 0.199 μM) was also found to enhance the MAO-B inhibition potency of 8- (benzylsulfanyl)caffeine (IC50 = 1.86 μM). The results document that the 8-sulfinylcaffeines are also inhibitors of MAO-B with IC50 values of 11.8–131 μM. The 8-sulfonylcaffeine was also found to be a MAO-B inhibitor. Compared to the 8-sulfanylcaffeines, these homologues are, however, weaker inhibitors. It may, therefore, be concluded that 8-sulfinylcaffeines and 8-sulfonylcaffeines are comparatively weak MAO-B inhibitors and less suited for the design of high potency MAO-B inhibitors. The results also document that the 8-[(phenylethyl)sulfanyl]caffeines are relatively weak MAO-A inhibitors with IC50 values of 5.66–141 μM, with one homologue exhibiting no inhibition under the experimental conditions. As evident from the selectivity indices (SI values), the 8- [(phenylethyl)sulfanyl]caffeines were all selective inhibitors of the MAO-B isoform. Two compounds exhibited SI values in excess of 1000. Since these compounds are also highly potent MAO-B inhibitors, they represent suitable leads for the design of potent and selective MAO-B inhibitors. The 8-sulfinylcaffeines and 8-sulfonylcaffeine were found to be weak MAO-A inhibitors with IC50 values of 166–250 μM. The SI values demonstrate that these compounds are MAO-B selective inhibitors, although to a lesser degree than the 8- [(phenylethyl)sulfanyl]caffeines. The 8-[(phenylpropyl)sulfanyl]caffeines are also MAO-A inhibitors with IC50 values of 0.708–6.48 μM. It is noteworthy that these homologues are the most potent MAO-A inhibitors among the compounds evaluated in this study. In fact, one of the 8-[(phenylpropyl)sulfanyl]caffeines, 8-{[3-(4-chlorophenyl)propyl]sulfanyl}caffeine (IC50 = 0.708 μM), is the only compound with an IC50 value for the inhibition of MAO-A in the submicromolar range. The 8-[(phenylpropyl)sulfanyl]caffeines display, in general, lower degrees of selectivity for MAO-B than the corresponding 8-[(phenylethyl)sulfanyl]caffeines. Reversibility studies: The reversibility of the interaction of a representative inhibitor, 8-{[2-(3- (trifluoromethyl)phenyl)ethyl]sulfanyl}caffeine, with MAO-B was investigated by evaluating the recovery of the enzymatic activity after dilution of the enzyme-inhibitor complex. For this purpose, MAO-B was preincubated with the test compound at concentrations of 10 × IC50 and 100 × IC50 for 30 min. The reactions were subsequently diluted 100-fold to 0.1 × IC50 and 1 × IC50, respectively. The results show that, after dilution to 0.1 × IC50 and 1 × IC50, the MAO-B catalytic activities are recovered to 35% and 22%, respectively, of the control value. For reversible enzyme inhibition, the enzyme activities are expected to recover to levels of approximately 90% and 50%, respectively, after 100-fold dilution of the preincubations containing inhibitor concentrations of 10 × IC50 and 100 × IC50. After preincubation of MAO-B with the irreversible inhibitor (R)-deprenyl (at 10 × IC50), and dilution of the resulting complex to 0.1 × IC50, MAO-B activity is not recovered (3.0% of control). These data indicate that the test compound does indeed react reversibly with MAO-B but because enzyme activities are not recovered to the expected 90% and 50% respectively, it may suggest that the test compound possess a quasi-reversible or tight-binding component. Hansch-type structure activity relationship studies: A limited Hansch-type QSAR study was performed for the inhibition of MAO by the 8-[(phenylethyl)sulfanyl]caffeines. For this purpose, five parameters were used to describe the physicochemical properties of the C-3 substituents on the phenyl rings of the inhibitors. The Van der Waals volume (Vw) and Taft steric parameter (Es) served as descriptors of the bulkiness of the substituents, while the lipophilicities were described by the Hansch constant (π). The electronic properties were described by the classical Hammett constant (σm) and the Swain-Lupton constant (F). A one-parameter fit with the Taft steric parameter versus the inhibition potency (logIC50) yielded the best correlation with a correlation coefficient (R2) of 0.912 and a statistical F value of 41.27 (Fmax = 35). The positive sign of the Es (+0.47) parameter coefficient indicated that the inhibition potencies of the 8- [(phenylethyl)sulfanyl]caffeines towards MAO-B may be enhanced by substitution with sterically large groups at C-3 of the phenyl rings of the inhibitors. / Thesis (MSc (Pharmaceutical Chemistry))--North-West University, Potchefstroom Campus, 2013

8-Sulfanylcaffeine analogues

8-sulfinylcaffeine analogues

Caffeine

Monoamine oxidase inhibitors

Parkinson’s disease

8-sulfanielkafeïen-analoë

8-sulfinielkafeïen-analoë

Kafeïen

Monoamien oksidase inhibeerders

Parkinson se siekte

Aminopyrimidine derivatives as adenosine antagonists / Janke Kleynhans

Kleynhans, Janke

January 2013

Aims of this project - The aim of this study was to design and synthesise novel 2-aminopyrimidine derivatives as potential adenosine A1 and A2A receptor antagonists. Background and rationale - Parkinson’s disease is the second most common neurodegenerative disorder (after Alzheimer’s disease) and is characterised by the selective death of the dopaminergic neurons of the nigro-striatal pathway. Distinctive motor symptoms include bradykinesia, muscle rigidity and tremor, while non-motor symptoms, of which cognitive dysfunction is an example, also frequently occur. Current therapy provides symptomatic relief mainly by augmentation of dopaminergic signalling (levodopa, dopamine agonists, MAO and COMT enzyme inhibitors), but disease progression is not adequately addressed. New therapies that can prevent further neurodegeneration in addition to providing symptomatic relief are therefore urgently required. Adenosine has an important function as neuromodulator in the central nervous system. The adenosine A2A receptor in particular plays an essential role in the regulation of movement. This, coupled to the fact that it is uniquely distributed in the basal ganglia, contributes to its attractiveness as non-dopaminergic target in the treatment of movement disorders, such as Parkinson’s disease. The efficacy of adenosine receptor antagonists has been illustrated in animal models of Parkinson’s disease and several adenosine receptor antagonists have also reached clinical trials. The neuroprotective properties of adenosine A2A receptor antagonists are further attributed to their ability to modulate neuro-inflammation and decrease the release of the excitatory neurotransmitter glutamate, which is implicated in neurotoxicity. While adenosine A1 receptor antagonism has a synergistic effect on the motor effects of adenosine A2A receptor antagonism, it has the additional benefit of improving cognitive dysfunction, a cardinal non-motor symptom of Parkinson’s disease. Dual antagonism of adenosine A1 and A2A receptors therefore offers the potential of providing symptomatic relief as well as the neuroprotection so desperately needed in the clinical environment. Amino substituted heterocyclic scaffolds, such as those containing the 2-aminopyrimidine motif, have been shown to exhibit good efficacy as dual adenosine receptor antagonists. Since the structure activity relationships of 2-aminopyrimidines have not been comprehensively explored, it is in this regard that this study aimed to make a contribution. Results - Fourteen 2-aminopyrimidines were synthesised successfully over three steps, (although in low yields) and characterised by nuclear magnetic resonance and infrared spectroscopy, mass spectrometry, by determination of melting points and high performance liquid chromatography. Structure modifications explored included variation of the aromatic substituent on position 4, as well as variations in the substituents of the phenyl ring, present on position 6 of the pyrimidine ring. Radioligand binding assays were performed to determine the affinities of the synthesised compounds for the adenosine A1 and A2A receptor subtypes. Several high dual affinity derivatives were identified during this study; the compound with the highest affinity was 4-(5- methylthiophen-2-yl)-6-[3-(piperidine-1-carbonyl)phenyl]pyrimidin-2-amine (39f) with Ki values of 0.5 nM and 2.3 nM for the adenosine A2A and adenosine A1 receptors, respectively. A few general structure activity relationships were derived, which included: The effect of the aromatic substituent (position 4) on A2A affinity could be summarised (in order of declining affinity) as follows: 5-methylthiophene > phenyl > furan > pyridine > p-fluorophenyl > benzofuran. On the other hand, the effect of this substituent on A1 receptor affinity could be summarised (in order of declining affinity) as follows: phenyl > 5-methylthiophene > pfluorophenyl > benzofuran > pyridine. The affinities as exhibited by the methylthiophene derivatives 39f, 39h – 39j, further showed that while piperidine substitution (39f) resulted in optimal A2A and A1 affinity, pyrrolidine substitution (39j) was less favourable. Substitution at the 4ʹ position of the phenyl ring, as well as thiazole substitution, generally resulted in poor adenosine A1 and A2A receptor affinity. However, 4-[2-amino-6-(5-methylfuran-2-yl)pyrimidin- 4-yl]-N-(1,3-benzothiazol-2-yl)benzamide (39l) surprisingly demonstrated good affinity and selectivity for the adenosine A1 receptor. The results obtained during radioligand binding assays were rationalised by QSAR and molecular modelling (Discovery Studio 3.1, Accelrys) studies. The inverse relationship seen between log Ki (as indicator of affinity) and polar surface area, illustrated the importance of this physico-chemical property in the design of 2-aminopyrimidine A2A antagonists. The results from the docking study further showed that the orientation adopted by derivatives in the binding cavity (and particular hydrogen bonding to Asn 253 and Glu 169) is of importance. Results from the MTT cell viability assay indicated that none of the high affinity derivatives had a significant effect on cell viability at 1 μM, a concentration much higher than their Ki values. However, incorporation of the furan, benzofuran and p-fluorophenyl groups as aromatic substituent and a pyrrolidine as amine substituent, presented liabilities. Lastly, the haloperidol induced catalepsy assay (in rats) was used to give a preliminary indication of adenosine receptor antagonism or agonism. Compound 39f failed to reverse catalepsy under standard conditions, but showed some reversal after an increased time period. Indications therefore exist that 39f is an adenosine receptor antagonist that suffers from bioavailability issues. Compound (39c), 4-phenyl-6-[3-(piperidine-1- carbonyl)phenyl]pyrimidin-2-amine which also demonstrated promising affinity in the radioligand binding assays however showed a statistically significant reduction in catalepsy, indicating adenosine A2A receptor antagonism, and in vivo efficacy. Highly potent, dual affinity aminopyrimidine derivatives with acceptable toxicity profiles were identified in this study, with compound 39c demonstrating in vivo activity. The aim of designing and synthesising a promising dual adenosine A1/A2A receptor antagonist is therefore realised, with compound 39c as the most favourable example. / MSc (Pharmaceutical Chemistry), North-West University, Potchefstroom Campus, 2014

2-Aminopyrimidines

Dual adenosine A1/A2A antagonists

Neuroprotection

Parkinson’s disease

2-Aminopirimidiene

Dualistiese adenosien A1/A2A-antagoniste

Neurobeskerming

Parkinson se siekte

Novel sulfanyl- and sulfinylcaffeine analogues as inhibitors of monoamine oxidase / Wayne Mentz

Mentz, Wayne

January 2013

Parkinson’s disease (PD) is a neurodegenerative disorder, which is progressive in nature and usually associated with the elderly. It is the second most common age-related neurodegenerative disorder after Alzheimer’s disease (AD). PD occurs when there is a dramatic loss of dopamine (DA) in the striatum, a substructure of the basal ganglia, of the brain due to the degeneration of the nigrostriatal pathway that contains the dopaminergic neurons. Motor symptoms of PD include bradykinesia, muscular rigidity and resting tremors. Non-motor symptoms include speech and sleep problems, hallucinations and depression. Diverse treatment options are available to treat the symptoms of PD, including levodopa (L-Dopa), DA agonists and monoamine oxidase B (MAO-B) inhibitors. The MAOs are flavoproteins that are bound to the outer membrane of the mitochondria and catalyze the oxidative deamination of neurotransmitters such as serotonin (5-HT), noradrenaline (NA) and DA. Two isoforms occur, namely MAO-A and –B, which share a 70% sequence identity. MAO-A catalyzes the oxidation of 5-HT and MAO-B has a substrate specificity towards benzylamine and 2-phenylethylamine. DA, NA, adrenaline and tryptamine are oxidized by both forms. MAO-A plays an important role in depression while MAO-B plays an important role in PD. The two isoforms are not evenly distributed in the brain. Of particular relevance to PD is the observation that, in the basal ganglia, MAO-B is the predominant form and the oxidation of DA in this region is largely due to MAO-B activity. Also, with an increase in age, there is an up to fourfold increase in MAO-B activity in the brain. In the aged parkinsonian brain, MAO-B is therefore a major DA metabolizing enzyme and MAO-B inhibitors have an important role in the therapy of PD. MAO-B inhibitors may potentially reduce the metabolic destruction of DA and thereby provide relief from the symptoms of PD. MAO-B inhibitors may also exert a neuroprotective effect in PD. In the catalytic cycle of MAO-B, one mole each of an aldehyde, hydrogen peroxide and ammonia are formed for each mole of primary amine substrate oxidized. Ferrous iron, which is abundant in the basal ganglia, may react with the hydrogen peroxide to form hydroxyl radicals in the Fenton reaction. The hydroxyl radical damages virtually all types of biomolecules including proteins, DNA, lipids, carbohydrates and amino acids. The aldehyde, in turn, may react with amino groups of proteins, and thus lead to cell injury. Inhibitors of MAO-B may reduce the MAO-catalyzed formation of hydrogen peroxide and aldehydes in the basal ganglia, and thus act as neuroprotective agents. MAO-B inhibitors that are currently being used in the treatment of PD are selegiline and rasagiline. Both are irreversible inhibitors of MAO-B. While irreversible inhibitors of MAO have been used extensively as drugs, irreversible inhibition has a number of disadvantages. These include the loss of selectivity as a result of repeated drug administration and a slow and variable rate of enzyme recovery following termination of drug treatment. The turnover rate for the biosynthesis of MAO-B in the human brain may require as much as 40 days while with reversible inhibition, enzyme activity is recovered when the inhibitor is eliminated from the tissues. For these reasons the discovery of novel MAO-B inhibitors, which interact reversibly with the enzymes are of value in the therapy of PD. The goal of this study was to design novel and reversible inhibitors of MAO-B, which may find application in the therapy of PD. In the current study, caffeine was used as scaffold for the design of new MAO inhibitors. Caffeine is reported to be a weak inhibitor of MAO-B, with an IC50 value of 5084 μM. Substitution at C-8 of the caffeine moiety, however, yields compounds with potent MAO-B inhibitory properties. Of particular importance to this study is a recent report that a series of 8-sulfanylcaffeine analogues acts as selective inhibitors of human MAO-B. Among the compounds examined, 8-[(phenylethyl)sulfanyl]caffeine was found to be a particularly potent MAO-B inhibitor with an IC50 value of 0.223 μM. In an attempt to further enhance the MAO-B inhibition potency of 8-[(phenylethyl)sulfanyl]caffeine, and possibly to discover highly potent MAO-B inhibitors, a series of five 8-[(phenylethyl)sulfanyl]caffeine analogues was synthesized and evaluated as inhibitors of human MAO-A and –B. For the purpose of this study 8- [(phenylethyl)sulfanyl]caffeine homologues containing C-3 alkyl (CF3, CH3 and OCH3) and halogen (Cl and Br) substituents on the phenyl ring were considered. Furthermore, a series of two 8-sulfinylcaffeine analogues and one 8-sulfonylcaffeine were synthesized and their MAO inhibitory potencies were measured. The purpose with these compounds was to compare the MAO inhibitory properties of the 8-sulfinylcaffeine analogues and 8-sulfonylcaffeine with those of the 8-sulfanylcaffeine analogues. This study also investigates the MAO inhibition properties of three selected 8-[(phenylpropyl)sulfanyl]caffeine and two 8-(benzylsulfanyl)caffeine analogues. Chemistry: The target 8-sulfanylcaffeine analogues were synthesized according to the literature procedure. 8-Chlorocaffeine was reacted with an appropriate mercaptan in the presence of NaOH, to yield the target 8-sulfanylcaffeine analogues in yields of 6.4–50.7%. 8-Chlorocaffeine, in turn, was conveniently synthesized in high yield by reacting chlorine with caffeine in chloroform. In certain instances, the mercaptan starting materials were not commercially available and were thus synthesized according to the literature procedure by reacting an appropriate alkylbromide with thiourea. The resulting thiouronium salt was hydrolyzed in the presence of NaOH to yield the target mercaptan. The 8-sulfinylcaffeine analogues and 8- sulfonylcaffeine were synthesized by reacting the 8-sulfanylcaffeines with H2O2 in the presence of glacial acetic acid and acetic anhydride. The structures and the purities of the inhibitors were verified by NMR, MS and HPLC analyses. MAO inhibition studies: The MAO inhibitory properties of the test compounds were examined using the recombinant human enzymes. The mixed MAO-A/B substrate, kynuramine, was employed as substrate for both enzymes and the inhibition potencies were expressed as the IC50 values. The 8-[(phenylethyl)sulfanyl]caffeine analogues were found to be highly potent inhibitors of MAO-B. The IC50 values recorded for these homologues ranged from 0.017–0.125 μM, making them twofold to 13-fold more potent MAO-B inhibitors than the lead compound, 8- [(phenylethyl)sulfanyl]caffeine (IC50 = 0.223 μM). For comparison, the reversible MAO-B selective inhibitor, lazabemide, exhibits an IC50 value of 0.091 μM under the same conditions (unpublished data from our laboratory). Interestingly, both alkyl (CF3, CH3 and OCH3) and halogen (Cl and Br) substitution lead to highly potent MAO-B inhibition. It may therefore be concluded that substitution on C-3 is a general strategy to enhance the MAO-B inhibition potency of 8-[(phenylethyl)sulfanyl]caffeine. The results of the MAO inhibitory studies with the 8- [(phenylpropyl)sulfanyl]caffeine analogues showed that these compounds are also inhibitors of MAO-B with IC50 values of 0.061–0.500 μM. Those homologues substituted with chlorine on the para and meta positions of the phenyl ring were found to be exceptionally potent inhibitors with IC50 values of 0.061 μM and 0.062 μM, respectively. For the series of 8- (benzylsulfanyl)caffeines, meta substitution with chlorine (IC50 = 0.227 μM) and bromine (IC50 = 0.199 μM) was also found to enhance the MAO-B inhibition potency of 8- (benzylsulfanyl)caffeine (IC50 = 1.86 μM). The results document that the 8-sulfinylcaffeines are also inhibitors of MAO-B with IC50 values of 11.8–131 μM. The 8-sulfonylcaffeine was also found to be a MAO-B inhibitor. Compared to the 8-sulfanylcaffeines, these homologues are, however, weaker inhibitors. It may, therefore, be concluded that 8-sulfinylcaffeines and 8-sulfonylcaffeines are comparatively weak MAO-B inhibitors and less suited for the design of high potency MAO-B inhibitors. The results also document that the 8-[(phenylethyl)sulfanyl]caffeines are relatively weak MAO-A inhibitors with IC50 values of 5.66–141 μM, with one homologue exhibiting no inhibition under the experimental conditions. As evident from the selectivity indices (SI values), the 8- [(phenylethyl)sulfanyl]caffeines were all selective inhibitors of the MAO-B isoform. Two compounds exhibited SI values in excess of 1000. Since these compounds are also highly potent MAO-B inhibitors, they represent suitable leads for the design of potent and selective MAO-B inhibitors. The 8-sulfinylcaffeines and 8-sulfonylcaffeine were found to be weak MAO-A inhibitors with IC50 values of 166–250 μM. The SI values demonstrate that these compounds are MAO-B selective inhibitors, although to a lesser degree than the 8- [(phenylethyl)sulfanyl]caffeines. The 8-[(phenylpropyl)sulfanyl]caffeines are also MAO-A inhibitors with IC50 values of 0.708–6.48 μM. It is noteworthy that these homologues are the most potent MAO-A inhibitors among the compounds evaluated in this study. In fact, one of the 8-[(phenylpropyl)sulfanyl]caffeines, 8-{[3-(4-chlorophenyl)propyl]sulfanyl}caffeine (IC50 = 0.708 μM), is the only compound with an IC50 value for the inhibition of MAO-A in the submicromolar range. The 8-[(phenylpropyl)sulfanyl]caffeines display, in general, lower degrees of selectivity for MAO-B than the corresponding 8-[(phenylethyl)sulfanyl]caffeines. Reversibility studies: The reversibility of the interaction of a representative inhibitor, 8-{[2-(3- (trifluoromethyl)phenyl)ethyl]sulfanyl}caffeine, with MAO-B was investigated by evaluating the recovery of the enzymatic activity after dilution of the enzyme-inhibitor complex. For this purpose, MAO-B was preincubated with the test compound at concentrations of 10 × IC50 and 100 × IC50 for 30 min. The reactions were subsequently diluted 100-fold to 0.1 × IC50 and 1 × IC50, respectively. The results show that, after dilution to 0.1 × IC50 and 1 × IC50, the MAO-B catalytic activities are recovered to 35% and 22%, respectively, of the control value. For reversible enzyme inhibition, the enzyme activities are expected to recover to levels of approximately 90% and 50%, respectively, after 100-fold dilution of the preincubations containing inhibitor concentrations of 10 × IC50 and 100 × IC50. After preincubation of MAO-B with the irreversible inhibitor (R)-deprenyl (at 10 × IC50), and dilution of the resulting complex to 0.1 × IC50, MAO-B activity is not recovered (3.0% of control). These data indicate that the test compound does indeed react reversibly with MAO-B but because enzyme activities are not recovered to the expected 90% and 50% respectively, it may suggest that the test compound possess a quasi-reversible or tight-binding component. Hansch-type structure activity relationship studies: A limited Hansch-type QSAR study was performed for the inhibition of MAO by the 8-[(phenylethyl)sulfanyl]caffeines. For this purpose, five parameters were used to describe the physicochemical properties of the C-3 substituents on the phenyl rings of the inhibitors. The Van der Waals volume (Vw) and Taft steric parameter (Es) served as descriptors of the bulkiness of the substituents, while the lipophilicities were described by the Hansch constant (π). The electronic properties were described by the classical Hammett constant (σm) and the Swain-Lupton constant (F). A one-parameter fit with the Taft steric parameter versus the inhibition potency (logIC50) yielded the best correlation with a correlation coefficient (R2) of 0.912 and a statistical F value of 41.27 (Fmax = 35). The positive sign of the Es (+0.47) parameter coefficient indicated that the inhibition potencies of the 8- [(phenylethyl)sulfanyl]caffeines towards MAO-B may be enhanced by substitution with sterically large groups at C-3 of the phenyl rings of the inhibitors. / Thesis (MSc (Pharmaceutical Chemistry))--North-West University, Potchefstroom Campus, 2013

8-Sulfanylcaffeine analogues

8-sulfinylcaffeine analogues

Caffeine

Monoamine oxidase inhibitors

Parkinson’s disease

8-sulfanielkafeïen-analoë

8-sulfinielkafeïen-analoë

Kafeïen

Monoamien oksidase inhibeerders

Parkinson se siekte

Protein Structure Characterization by Solid-State NMR: Structural Comparison of Mouse and Human alpha-Synuclein Fibrils, Sparse 13C Labeling Schemes, and Stereospecific Assignment of Val and Leu Prochiral Methyl Groups

Lv, Guohua

28 March 2013

No description available.

570

Biologie (PPN619462639)

Generation of human dopaminergic neurons from induced pluripotent stem cells to model Parkinson's disease

Sánchez Danés, Adriana, 1984-

21 May 2012

Parkinson’s disease (PD) is an incurable, chronically progressive neurodegenerative disease leading to premature invalidity and death. The locomotor disability of PD patients is mainly rooted in the gradual and insidious degeneration of dopaminergic neurons (DA) projecting from the midbrain substantia nigra (SN) to the basal ganglia striatum, a pathological process highlighted microscopically by the formation of insoluble cytosolic protein aggregates, known as Lewy bodies and Lewy neurites. The pathogenic mechanisms leading to PD remain poorly understood, arguably owing to the lack of suitable animal and cellular experimental models of the disease. Therefore, there is an urgent need for developing reliable experimental models that recapitulate the key features of PD. The recent development of induced pluripotent stem cell (iPSC) technology has enabled the generation of patient-specific iPSC and their use to model human diseases, although it is currently unclear whether this approach could be useful to successfully model age-related conditions. Importantly, disease modeling using iPSC largely relies on the existence of efficient protocols for the differentiation of disease-relevant cell types. Here, we first developed an efficient protocol for the differentiation of iPSC to authentic midbrain-specific DA neurons with SN properties by forced expression of LMX1A using a lentivirus-mediated gene delivery system. Next, we generated an iPSC-based cellular model of PD that recapitulates key phenotypic features of PD, such as DA neuron loss and α-synuclein accumulation in DA neurons from PD patients. Overall, our results demonstrate that we have developed a valuable tool for elucidating the pathogenic mechanisms leading to PD, as well as an experimental platform for screening new drugs that may prevent or rescue neurodegeneration in PD. / La malaltia de Parkinson (MP) és una malaltia neurodegenerativa incurable que causa invalidesa i mort prematura. Els pacients de la malaltia de Parkinson presenten alteracions motores degudes a una degeneració gradual de les neurones dopaminèrgiques que projecten des de la substància nigra fins a l’estriat. A nivell microscòpic s’observa la presència d’agregats proteics insolubles en el citosol de les neurones coneguts com cossos o neurites de Lewy. Els mecanismes patològics responsables de la MP no es coneixen bé, possiblement a causa de la manca de models animals i cel•lulars adequats. Per tant, existeix una gran necessitat de desenvolupar models experimentals fiables que recapitulin les característiques bàsiques de la MP. El recent desenvolupament de les cèl•lules mare pluripotents induïdes (iPSC) ha permès la generació de iPSC específiques de pacient i el seu ús per modelar malalties humanes, ara bé, no és clar si aquesta estratègia es pot utilitzar per modelar exitosament malalties d’origen tardà, com ara la MP. És important destacar que el modelatge de malalties utilitzant iPSC, es basa, en gran mesura en l'existència de protocols eficients per a la diferenciació de les iPSC cap al tipus cel•lular rellevant per a la malaltia. Durant aquest període, per primera vegada, s’ha desenvolupat un protocol per a l’eficient diferenciació de les iPSC cap a neurones dopaminèrgiques amb les propietats característiques de neurones dopaminèrgiques nigrostriatals, mitjançant l’expressió forçada de LMX1A utilitzant vectors lentivirals. A continuació, s’ha generat un model cel•lular usant iPSC derivades de pacients de MP que recapitula les principals característiques fenotípiques de la malaltia, com ara la pèrdua de neurones dopaminèrgiques i l'acumulació de α-sinucleïna en les neurones dopaminèrgiques. En general, els nostres resultats demostren que hem desenvolupat una eina valuosa per a l’estudi dels mecanismes patològics que condueixen a la MP, així com una nova plataforma pel descobriment de nous fàrmacs encaminats a prevenir o evitar la neurodegeneració.

Pluripotent stem cells

Parkinson’s Disease

Dopaminergic neurons

LMX1A

Disease modeling

Neurodegeneration

Cèl•lules mare pluripotents

Malaltia de Parkinson

Neurones dopaminèrgiques

LMX1A

Modelatge de malalties

Neurodegeneració

616.8

Efeito de um programa sistematizado de atividades rítmicas e dança nas funções cognitivas, aspectos neuropsiquiátricos e andar de pacientes com doença de Parkinson: um estudo controlado e randomizado / Effects of systematized rhythmic activities and dance program on cognitive function, neuropsychiatric aspects and gait of patients with Parkinson disease: a randomized controlled trial

Lirani-Silva, Ellen [UNESP]

03 July 2018

Submitted by Ellen Lirani Silva (ellen.cindy@gmail.com) on 2018-08-23T19:45:20Z No. of bitstreams: 1 tese_doutorado_EllenLiraniSilva.pdf: 1964030 bytes, checksum: 2837f403aa831161190972cdb1c95319 (MD5) / Approved for entry into archive by Adriana Aparecida Puerta null (dripuerta@rc.unesp.br) on 2018-08-24T11:45:33Z (GMT) No. of bitstreams: 1 liranisilva_e_dr_rcla.pdf: 1964030 bytes, checksum: 2837f403aa831161190972cdb1c95319 (MD5) / Made available in DSpace on 2018-08-24T11:45:33Z (GMT). No. of bitstreams: 1 liranisilva_e_dr_rcla.pdf: 1964030 bytes, checksum: 2837f403aa831161190972cdb1c95319 (MD5) Previous issue date: 2018-07-03 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Introdução: A presente tese de Doutorado é composta por dois estudos. O objetivo do Estudo #1 foi investigar a associação entre domínios do andar (com e sem tarefa dupla) e domínios cognitivos e neuropsiquiátricos de pacientes com DP (DP). O objetivo do Estudo #2 foi investigar os efeitos de uma intervenção de atividades rítmicas e dança no andar, funções cognitivas e aspectos neuropsiquiátricos de pacientes com DP e a manutenção de benefícios após um período de follow up (5 meses). Materiais e método: O Estudo #1 contou com a participação de 87 pacientes com DP. Após avaliação clínica e anamnese, os pacientes foram avaliados quanto ao andar (com e sem tarefa dupla), funções cognitivas e aspectos neuropsiquiátricos. A partir das avaliações, dois modelos foram elaborados: i) modelo do andar formado por 16 características espaço-temporais do andar, distribuídos em cinco domínios (pace, variabilidade, ritmo, assimetria e controle postural); ii) modelo de aspectos cognitivos e neuropsiquiátricos formado por 10 testes, distribuídos em sete domínios (cognição global, memória, função executiva, atenção, memória de trabalho, habilidade visuoespacial, neuropsiquiátrico ). O Estudo #2 contou com a participação de 86 pacientes com DP que foram distribuídos randomicamente em dois grupos: grupo de atividades rítmicas (DPd) e dança e grupo convívio (DPc). As atividades do grupo DPd foram realizadas com base em diferentes estilos, com progressão tanto em mudanças do ambiente como em complexidade dos movimentos. O grupo DPc participou de atividades divididas em três etapas: i) palestras e discussões sobre a DP, sem nenhuma sobrecarga cognitiva e motora; ii) atividades de voz; iii) atividades de disfagia. Ambas as intervenções ocorreram durante 6 meses, 3 vezes por semana, com 1 hora por sessão. O mesmo protocolo de avaliações do Estudo #1 foi utilizado no Estudo #2. As avaliações foram conduzidas, antes e após o período de intervenção (6 meses), e 5 meses após um período sem intervenção. Resultados (Estudo #1): Foram verificadas associações entre domínios cognitivos e do andar, especialmente entre o domínio pace, cognição global, atenção e memória. Ainda, foi verificada uma maior capacidade de predição do domínio pace em condição de tarefa dupla, onde os domínios cognição global e atenção, juntamente com as variáveis de controle do estudo, explicaram em 42% da variância dos dados. Resultados (Estudo #2): Os pacientes do grupo DPd apresentaram diminuição da assimetria durante o andar livre no momento follow up em comparação ao momento pós. Ainda, a intervenção de atividades rítmicas e dança foi capaz de evitar a progressão de características do andar com tarefa dupla relacionada ao domínio pace, enquanto os pacientes do grupo DPc apresentaram piora dessas características ao longo do estudo. Quanto aos aspectos cognitivos, foi observada piora na atenção dos pacientes do grupo DPc, mas não para o grupo DPd. No entanto, apenas o grupo DPc apresentou benefícios na cognição global. Conclusão: Domínios do andar estão associados a domínios cognitivos de pacientes com DP, mas, para o presente estudo, não com domínios neuropsiquiátricos. O domínio pace (andar com tarefa dupla) apresentou o melhor modelo preditivo do estudo, que foi composto pelos domínios cognição global e atenção. Em relação a intervenção proposta no Estudo #2, a intervenção de atividades rítmicas e dança é capaz de beneficiar características discretas do andar e promover a manutenção de alguns aspectos do andar, cognitivos e neuropsiquiátricos. / Introduction: This PhD thesis consists of two studies. The aim of the Study #1 was to investigate the association between gait domains (with and without dual task) and cognitive and neuropsychiatric domains of patients with Parkinson’s disease (PD). The aim of the St udy #2 was to investigate the effects of a rhythm activities and dance intervention on gait, cognitive function and neuropsychiatric aspects of patients with PD, as well as the retention of benefits after a follow up period (5 months). Methods: Study #1 in volved the participation of 87 patients with PD. A fter clinical assessment, gait (with and without dual task), cognition and neuropsychiatric aspects were assessed. Gait, cognition and neuropsychiatric aspects were summarized in two models: i) a gait model with 16 spatial - temporal gait characteristics, described by five domains (pace, variability, rhythm, asymmetry and postural control); ii) a cognitive and neuropsychiatric model with 10 assessments organized in seven domains (global cognition, memory, exec utive function, attention, working memory, visuospatial ability and neuropsychiatric). Study #2 involved 86 patients with PD which were allocated in two groups: rhythm activities and dance intervention group (PDd) and socializing group (PDs). Activities of the PDd group were structured based on different styles of dance, with progression in the environment and movement complexity. Activities of t he PDs group were organized in three phases: i) talks and discussion about PD, with low cognitive or motor impact ; ii) voice activities; iii) activities focused in dysphagia. Both interventions were conducted during 6 months, three time s per week, one hour per session. The testing protocol of Study #2 was the same of the Study #1. All assessments were conducted befor e, immediately after the intervention and after a 5 - month follow up. Results (Study 1): Cognitive domains were associated with gait, specially between pace domain and global cognition, attention and memory domain s . Also, a great capacity of prediction was observed for pace domain under dual task , where global cognition and attention, with control variables , explained 42% of the data variance. Results (Study #2): There was a decrease in gait asymmetry (without dual task) at follow up moment compare d to post intervention for the PDd group. Also, the intervention of rhythm activities and dance was effective to prevent the progression of gait with dual task, specially related to pace domain. The PDs group worsened these gait characteristics during the study. In relation to cognitive aspects, the PDs, but not the PDd, worsened attention. Also, the PDs improved global cognition. Conclusion: Gait d omains are associated to cognitive domains in patients with PD, but not to neuropsychiatric domain. Pace domain (with du al task) had the best predictive model of the study, which was composed by global cognition and attention domains. The rhythm activities and dance intervention was effective to benefit discreet gait characteristics and prevent the progression of some gait, cognitive and neuropsychiatric aspects.

Doença de Parkinson

Atividades rítmicas

Dança

Cognição

Aspectos neuropsiquiátricos

Andar

Tarefa dupla

Parkinson’s disease

Rhythm activities

Dance

Cognition

Neuropsychiatric aspects

Gait

Dual task

Efeitos do exercício físico sobre a expressão da proteína glial fibrilar ácida (GFAP) e comportamento motor de ratos submetidos ao modelo de doença de Parkinson induzida por 6-OHDA / Exercise improves motor behavioral deficits and induces GFAP expression in 6-OHDA model of Parkinson’s disease

Dutra, Márcio Ferreira

January 2009

The aim of this study was to investigate whether exercise could improve motor behavioral deficits and alter expression of glial fibrillary acidic protein (GFAP) in dorsal striatum in a 6-hydroxydopamine (6-OHDA) rat model of Parkinson’s disease (PD). To this end, animals were randomly divided into 4 groups: sham sedentary (SS, n = 7); sham trained (ST, n=8); lesioned sedentary (LS, n=8) and lesioned trained (LT, n = 8). Rats were unilaterally lesioned with 6-OHDA (10 μg/3 μg) injected into the left medial forebrain bundle and sham groups were only injected with vehicle solution. The treadmill training protocol consisted of running with progressive increase in velocity, 5 days/week, during 4 weeks. Behavioral tasks were applied to asses the motor abilities of all animals prior to 6-OHDA injection and at 8th and 29th days post-injection. The tyrosine hydroxylase (TH - in substantia nigra pars compacta) and GFAP (in dorsal striatum) immunostaining was evaluated by semiquantitative analysis of the intensity (optical density - OD). The 6-OHDA lesion decreased the OD of TH and increased the OD of GFAP. In addition, the 6-OHDA lesion increased the number of ipsilateral rotations induced by methylphenidate (40 mg/kg, i.p., 30 min) and caused motor behavioral deficits. On the other hand, the treadmill training resulted in an increase in maximal exercise capacity in both trained groups (ST and LT). The training was able to reduce the number of ipsilateral rotations and ameliorated the motor behavioral deficits on 8th and 29th days postlesion. Interestingly, the exercise led to a significant increase in OD of GFAP in the LT group while there was no such effect in ST group. Our results indicate that treadmill training can improve motor behavioral deficits and suggest that the effects of exercise may be directly or, indirectly, mediated by astrocytes, as an increase in GFAP was observed in the dorsal striatum. Nevertheless, these are the first data showing an increase in GFAP expression post-exercise in this model and further research is needed to determine the precise action of exercise on astrocytes in Parkinson’s disease.

Proteina ácida fibrilar da glia

Exercício físico

Atividade motora

Comportamento animal

Doença de Parkinson

Oxidopamina

Exercise

Treadmill training

Parkinson’s disease

6-OHDA

Astrocytes

GFAP

Efeitos do exercício físico sobre a expressão da proteína glial fibrilar ácida (GFAP) e comportamento motor de ratos submetidos ao modelo de doença de Parkinson induzida por 6-OHDA / Exercise improves motor behavioral deficits and induces GFAP expression in 6-OHDA model of Parkinson’s disease

Dutra, Márcio Ferreira

January 2009

The aim of this study was to investigate whether exercise could improve motor behavioral deficits and alter expression of glial fibrillary acidic protein (GFAP) in dorsal striatum in a 6-hydroxydopamine (6-OHDA) rat model of Parkinson’s disease (PD). To this end, animals were randomly divided into 4 groups: sham sedentary (SS, n = 7); sham trained (ST, n=8); lesioned sedentary (LS, n=8) and lesioned trained (LT, n = 8). Rats were unilaterally lesioned with 6-OHDA (10 μg/3 μg) injected into the left medial forebrain bundle and sham groups were only injected with vehicle solution. The treadmill training protocol consisted of running with progressive increase in velocity, 5 days/week, during 4 weeks. Behavioral tasks were applied to asses the motor abilities of all animals prior to 6-OHDA injection and at 8th and 29th days post-injection. The tyrosine hydroxylase (TH - in substantia nigra pars compacta) and GFAP (in dorsal striatum) immunostaining was evaluated by semiquantitative analysis of the intensity (optical density - OD). The 6-OHDA lesion decreased the OD of TH and increased the OD of GFAP. In addition, the 6-OHDA lesion increased the number of ipsilateral rotations induced by methylphenidate (40 mg/kg, i.p., 30 min) and caused motor behavioral deficits. On the other hand, the treadmill training resulted in an increase in maximal exercise capacity in both trained groups (ST and LT). The training was able to reduce the number of ipsilateral rotations and ameliorated the motor behavioral deficits on 8th and 29th days postlesion. Interestingly, the exercise led to a significant increase in OD of GFAP in the LT group while there was no such effect in ST group. Our results indicate that treadmill training can improve motor behavioral deficits and suggest that the effects of exercise may be directly or, indirectly, mediated by astrocytes, as an increase in GFAP was observed in the dorsal striatum. Nevertheless, these are the first data showing an increase in GFAP expression post-exercise in this model and further research is needed to determine the precise action of exercise on astrocytes in Parkinson’s disease.

Proteina ácida fibrilar da glia

Exercício físico

Atividade motora

Comportamento animal

Doença de Parkinson

Oxidopamina

Exercise

Treadmill training

Parkinson’s disease

6-OHDA

Astrocytes

GFAP

Equilíbrio dinâmico em idosos com doença de Parkinson

Caetano, Maria Joana Duarte [UNESP]

13 December 2008

Made available in DSpace on 2014-06-11T19:22:52Z (GMT). No. of bitstreams: 0 Previous issue date: 2008-12-13Bitstream added on 2014-06-13T19:08:24Z : No. of bitstreams: 1 caetano_mjd_me_rcla.pdf: 817407 bytes, checksum: f99f3e12cec3f7e3ecd3ea982d13c044 (MD5) / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / Andar é essencial para o desempenho das funções diárias. No entanto, as alterações morfofuncionais decorrentes do processo de envelhecimento podem comprometer o equilíbrio durante o andar e gerar instabilidade. Este comprometimento é ainda mais acentuado em idosos com doença de Parkinson devido aos distúrbios motores ocasionados pela doença. Neste contexto, os objetivos do presente estudo foram: 1) analisar as características espaço-temporais e os ângulos articulares de indivíduos idosos neurologicamente sadios e com doença de Parkinson idiopática andando livremente e em condições de restrição na largura e na altura da superfície de suporte; 2) relacionar estes parâmetros com as pontuações nas escalas de H&Y e UPDRS (apenas para os pacientes) e com a incidência de queda recente (1 ano) e pontuações na Escala de Equilíbrio Funcional de Berg (para ambos os grupos). Participaram 16 idosos distribuídos em dois grupos: oito idosos neurologicamente sadios e oito com doença de Parkinson idiopática. As características espaço-temporais e os ângulos articulares andando livremente e em condições de restrição na largura e na altura da superfície de suporte foram investigados por meio de ferramenta cinemática. Pacientes com doença de Parkinson apresentaram valores médios significativamente menores que os idosos neurologicamente sadios em relação à duração da fase de balanço e ao comprimento e velocidade da passada e maiores para a duração do duplo suporte devido à hipocinesia, à dificuldade no controle do equilíbrio e ao próprio relacionamento entre as variáveis. As restrições impostas pela superfície de suporte geraram alterações nas características espaço-temporais e angulares do andar dos idosos de ambos os grupos, devido à necessidade de adotar uma estratégia cautelosa que facilite o controle da locomoção, garantindo estabilidade, e ao medo de cair imposto pelas demandas da tarefa,... / Walking is crucial for the performance of daily living activities. However, morpho and functional changes due to the aging process can compromise the balance during walking and generate instability. It is more pronounced in elderly patients with Parkinson’s disease due to the motor signs/symptoms of the disease. In this context, the aims of this study were: 1) to analyze the spatial and temporal parameters and joint angles of healthy elderly and with Parkinson’s disease during free walking and under width and height constraints of the support surface; 2) to correlate these parameters with the scores in H&Y scale and UPDRS (only for patients) and with the occurrence of recent fall (1 year) and the scores in the Berg Functional Balance Scale (for both groups). Sixteen elderly were distributed in two groups: 8 healthy elderly and 8 idiopathic Parkinson’s disease patients. Both the spatial and temporal parameters of gait and joint angles were investigated by means of kinematics tools during free walking and under width and height constraints of the support surface. Parkinson’s disease patients showed significantly lower mean values than healthy elderly for swing phase duration, stride length and stride velocity, and higher double support duration due to the hipokinesia, the difficulty in balance control, and the relationship among the gait variables. The support surface constraints changed the gait spatial and temporal parameters and joint angles in both groups due to the necessity to perform a cautious walking strategy that can facilitate the locomotor control, preventing instability, and the fear of falling enforced by the task demands, specially when width and height constraints were associated. The scores in H&Y and UPDRS were not correlated to the gait parameters of the Parkinson’s disease patients probably because the scales did not reflect the gait performance of patients under medication. There were a relationship among the gait .

Educação fisica

Equilíbrio dinâmico

Restrições da tarefa

Andar

Cinematica

Parkinson, Doença de

Equilibrio (Fisiologia)

Educação física adaptada

Dynamic balance

Parkinson’s disease

Task constraints

Walking

Kinematics

Efeitos do exercício físico sobre a expressão da proteína glial fibrilar ácida (GFAP) e comportamento motor de ratos submetidos ao modelo de doença de Parkinson induzida por 6-OHDA / Exercise improves motor behavioral deficits and induces GFAP expression in 6-OHDA model of Parkinson’s disease

Dutra, Márcio Ferreira

January 2009

The aim of this study was to investigate whether exercise could improve motor behavioral deficits and alter expression of glial fibrillary acidic protein (GFAP) in dorsal striatum in a 6-hydroxydopamine (6-OHDA) rat model of Parkinson’s disease (PD). To this end, animals were randomly divided into 4 groups: sham sedentary (SS, n = 7); sham trained (ST, n=8); lesioned sedentary (LS, n=8) and lesioned trained (LT, n = 8). Rats were unilaterally lesioned with 6-OHDA (10 μg/3 μg) injected into the left medial forebrain bundle and sham groups were only injected with vehicle solution. The treadmill training protocol consisted of running with progressive increase in velocity, 5 days/week, during 4 weeks. Behavioral tasks were applied to asses the motor abilities of all animals prior to 6-OHDA injection and at 8th and 29th days post-injection. The tyrosine hydroxylase (TH - in substantia nigra pars compacta) and GFAP (in dorsal striatum) immunostaining was evaluated by semiquantitative analysis of the intensity (optical density - OD). The 6-OHDA lesion decreased the OD of TH and increased the OD of GFAP. In addition, the 6-OHDA lesion increased the number of ipsilateral rotations induced by methylphenidate (40 mg/kg, i.p., 30 min) and caused motor behavioral deficits. On the other hand, the treadmill training resulted in an increase in maximal exercise capacity in both trained groups (ST and LT). The training was able to reduce the number of ipsilateral rotations and ameliorated the motor behavioral deficits on 8th and 29th days postlesion. Interestingly, the exercise led to a significant increase in OD of GFAP in the LT group while there was no such effect in ST group. Our results indicate that treadmill training can improve motor behavioral deficits and suggest that the effects of exercise may be directly or, indirectly, mediated by astrocytes, as an increase in GFAP was observed in the dorsal striatum. Nevertheless, these are the first data showing an increase in GFAP expression post-exercise in this model and further research is needed to determine the precise action of exercise on astrocytes in Parkinson’s disease.

Proteina ácida fibrilar da glia

Exercício físico

Atividade motora

Comportamento animal

Doença de Parkinson

Oxidopamina

Exercise

Treadmill training

Parkinson’s disease

6-OHDA

Astrocytes

GFAP