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Identification of monoamine oxidase inhibitors using a molecular modelling approach / Anke PienaarPienaar, Anke January 2014 (has links)
Monoamine oxidase (MAO) is an enzyme located on the outer mitochondrial membrane
and is considered to be a target for the treatment of diseases such as Parkinson’s
disease and depression. MAO may be classified into two isoforms, MAO-A and MAO-B.
Since MAO-A and MAO-B catalyzes the metabolism of serotonin and dopamine,
respectively, MAO-A inhibitors are used in the therapy of depression while MAO-B
inhibitors are useful in the treatment of Parkinson’s disease.
The older nonselective and irreversible MAO inhibitors, however, are not frequently
used because they may ellicit potentially dangerous side effects such as the “cheese
reaction”. The cheese reaction occurs when irreversible MAO-A inhibitors block the
metabolism of tyramine in the gastrointestinal tract. Excessive amounts of tyramine
subsequently enter the systemic circulation and cause a hypertensive reaction.
This problem may be overcome by the development of selective MAO-B inhibitors and
reversible MAO-A inhibitors. Selective MAO-B inhibitors do not cause the cheese
reaction, because tyramine is metabolized, in the intestines, by MAO-A. Tyramine also
has the ability to displace reversible MAO-A inhibitors and can subsequently be
normally metabolized, thus not causing the cheese reaction. Several reseach groups
are therefore involved in the discovery of reversible MAO-A and MAO-B inhibitors. As
mentioned above, such drugs may be used in the treatment of depression and
Parkinson’s disease. One approach is the de novo design of novel molecules with
affinities for MAO-A and MAO-B active sites. In a second approach, existing drugs may
be reappropriated as MAO inhibitors. With this approach, approved drugs are screened
for the possibility that they, in addition to their action at the indicated target, also act as
inhibitors of MAO-A and/or MAO-B. Such drugs may then be applied as MAO inhibitors
in the treatment of depression and Parkinson’s disease. From a toxicological point of
view, it is also of importance to identify MAO-A inhibitory activities among existing drugs
as this will alert to the occurance of potential side effects such as the cheese reaction.
In this study the second approach will be followed. This study will screen a virtual library
of approved drugs for inhibitory activity towards MAO-A and MAO-B. Molecular modeling may be used to screen virtual libraries of drugs as potential
inhibitors of the MAO enzymes. This may conveniently be achieved by employing
structure-based or ligand-based pharmacophore models.
In this study a virtual library of approved drugs was screened for secondary inhibitory
activities towards the MAO isoforms with the use of structure-based pharmacophore
models. There are several advantages to this approach. Molecular modeling aims at
reducing the overall cost associated with the discovery and development of a new drug
by identifying the most promising candidates to focus the experimental efforts on. It aids
in understanding how a ligand binds to the active site of an enzyme. It is relatively
easier to re-register a drug for a second pharmacological activity. This approach may
also lead to drugs with a multi-target mode of action.
The structure-based pharmacophores were constructed using the known
crystallographic structures of MAO-A and MAO-B with the inhibitors, harmine and
safinamide, complexed in the active sites, respectively. Employing the MAO-A and
MAO-B structure-based pharmacophore model in the virtual screening of a library of
approved drugs, 45 compounds were found to map to the MAO-A and MAO-B
pharmacophore models.
Among the hits, 29 compounds were selected for in vitro evaluation as MAO-A and
MAO-B inhibitors. The IC50 values for these compounds were determined. After in vitro
evaluation, 13 compounds showed inhibitory activity towards MAO. Of the 13
compounds 3 showed interesting inhibitory activities. These compounds included
caffeine (IC50 = 0.761 μM for MAO-A and 5.08 μM for MAO-B), esomeprazole (IC50 =
23.2 μM for MAO-A and 48.3 μM for MAO-B) and leflunomide (IC50 = 19.1μM for MAO-A
and 13.7 μM for MAO-B). The MAO inhibitory properties of caffeine and esomeprazole
were further investigated.
The reversibility of MAO inhibition by caffeine and esomeprazole were determined by
dialysis and dilution studies. Sets of Lineweaver-Burk plots were constructed to
determine the modes of binding of these inhibitors to the MAO enzymes. Both caffeine
and esomeprazole were found to be reversible and competitive inhibitors of MAO. Dialysis of mixtures of caffeine with MAO-A and MAO-B resulted in the recovery of
enzyme activity to levels of 97% and 96%, respectively. Dialysis of mixtures of
esomeprazole with MAO-A and MAO-B resulted in the recovery of enzyme activity to
levels of 93% and 88%, respectively. Similarly, dilution of mixtures containing
esomeprazole and MAO-A/MAO-B resulted in the recovery of enzyme activity to levels
of 94% and 87%, respectively.For the inhibition of MAO-A and MAO-B by caffeine and
esomeprazole, the Lineweaver-Burk plots were indicative of a competitive mode of
inhibition.
In an attempt to gain further insignt, caffeine, esomeprazole and leflunomide were
docked into models of the active sites of MAO-A and MAO-B. An analysis of the
interactions between the enzyme models and the ligands were carried out and the
results are discussed in the dissertation
The results of the present study show that screening of a virtual database of molecules
with a pharmacophore model may be useful in identifying existing drugs with potential
MAO inhibitory activities. The search for new reversible MAO inhibitors for the treatment
of diseases, including Parkinson’s disease and depression, may be facilitated by
employing a virtual screening approach. Such an approach also may be more costeffective
than de novo inhibitor design. In addition, the virtual screening approach may
alert to potential side effects of existing drugs that may arise as a consequence of a
secondary inhibition of MAO. / MSc (Pharmaceutical Chemistry), North-West University, Potchefstroom Campus, 2014
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Identification of monoamine oxidase inhibitors using a molecular modelling approach / Anke PienaarPienaar, Anke January 2014 (has links)
Monoamine oxidase (MAO) is an enzyme located on the outer mitochondrial membrane
and is considered to be a target for the treatment of diseases such as Parkinson’s
disease and depression. MAO may be classified into two isoforms, MAO-A and MAO-B.
Since MAO-A and MAO-B catalyzes the metabolism of serotonin and dopamine,
respectively, MAO-A inhibitors are used in the therapy of depression while MAO-B
inhibitors are useful in the treatment of Parkinson’s disease.
The older nonselective and irreversible MAO inhibitors, however, are not frequently
used because they may ellicit potentially dangerous side effects such as the “cheese
reaction”. The cheese reaction occurs when irreversible MAO-A inhibitors block the
metabolism of tyramine in the gastrointestinal tract. Excessive amounts of tyramine
subsequently enter the systemic circulation and cause a hypertensive reaction.
This problem may be overcome by the development of selective MAO-B inhibitors and
reversible MAO-A inhibitors. Selective MAO-B inhibitors do not cause the cheese
reaction, because tyramine is metabolized, in the intestines, by MAO-A. Tyramine also
has the ability to displace reversible MAO-A inhibitors and can subsequently be
normally metabolized, thus not causing the cheese reaction. Several reseach groups
are therefore involved in the discovery of reversible MAO-A and MAO-B inhibitors. As
mentioned above, such drugs may be used in the treatment of depression and
Parkinson’s disease. One approach is the de novo design of novel molecules with
affinities for MAO-A and MAO-B active sites. In a second approach, existing drugs may
be reappropriated as MAO inhibitors. With this approach, approved drugs are screened
for the possibility that they, in addition to their action at the indicated target, also act as
inhibitors of MAO-A and/or MAO-B. Such drugs may then be applied as MAO inhibitors
in the treatment of depression and Parkinson’s disease. From a toxicological point of
view, it is also of importance to identify MAO-A inhibitory activities among existing drugs
as this will alert to the occurance of potential side effects such as the cheese reaction.
In this study the second approach will be followed. This study will screen a virtual library
of approved drugs for inhibitory activity towards MAO-A and MAO-B. Molecular modeling may be used to screen virtual libraries of drugs as potential
inhibitors of the MAO enzymes. This may conveniently be achieved by employing
structure-based or ligand-based pharmacophore models.
In this study a virtual library of approved drugs was screened for secondary inhibitory
activities towards the MAO isoforms with the use of structure-based pharmacophore
models. There are several advantages to this approach. Molecular modeling aims at
reducing the overall cost associated with the discovery and development of a new drug
by identifying the most promising candidates to focus the experimental efforts on. It aids
in understanding how a ligand binds to the active site of an enzyme. It is relatively
easier to re-register a drug for a second pharmacological activity. This approach may
also lead to drugs with a multi-target mode of action.
The structure-based pharmacophores were constructed using the known
crystallographic structures of MAO-A and MAO-B with the inhibitors, harmine and
safinamide, complexed in the active sites, respectively. Employing the MAO-A and
MAO-B structure-based pharmacophore model in the virtual screening of a library of
approved drugs, 45 compounds were found to map to the MAO-A and MAO-B
pharmacophore models.
Among the hits, 29 compounds were selected for in vitro evaluation as MAO-A and
MAO-B inhibitors. The IC50 values for these compounds were determined. After in vitro
evaluation, 13 compounds showed inhibitory activity towards MAO. Of the 13
compounds 3 showed interesting inhibitory activities. These compounds included
caffeine (IC50 = 0.761 μM for MAO-A and 5.08 μM for MAO-B), esomeprazole (IC50 =
23.2 μM for MAO-A and 48.3 μM for MAO-B) and leflunomide (IC50 = 19.1μM for MAO-A
and 13.7 μM for MAO-B). The MAO inhibitory properties of caffeine and esomeprazole
were further investigated.
The reversibility of MAO inhibition by caffeine and esomeprazole were determined by
dialysis and dilution studies. Sets of Lineweaver-Burk plots were constructed to
determine the modes of binding of these inhibitors to the MAO enzymes. Both caffeine
and esomeprazole were found to be reversible and competitive inhibitors of MAO. Dialysis of mixtures of caffeine with MAO-A and MAO-B resulted in the recovery of
enzyme activity to levels of 97% and 96%, respectively. Dialysis of mixtures of
esomeprazole with MAO-A and MAO-B resulted in the recovery of enzyme activity to
levels of 93% and 88%, respectively. Similarly, dilution of mixtures containing
esomeprazole and MAO-A/MAO-B resulted in the recovery of enzyme activity to levels
of 94% and 87%, respectively.For the inhibition of MAO-A and MAO-B by caffeine and
esomeprazole, the Lineweaver-Burk plots were indicative of a competitive mode of
inhibition.
In an attempt to gain further insignt, caffeine, esomeprazole and leflunomide were
docked into models of the active sites of MAO-A and MAO-B. An analysis of the
interactions between the enzyme models and the ligands were carried out and the
results are discussed in the dissertation
The results of the present study show that screening of a virtual database of molecules
with a pharmacophore model may be useful in identifying existing drugs with potential
MAO inhibitory activities. The search for new reversible MAO inhibitors for the treatment
of diseases, including Parkinson’s disease and depression, may be facilitated by
employing a virtual screening approach. Such an approach also may be more costeffective
than de novo inhibitor design. In addition, the virtual screening approach may
alert to potential side effects of existing drugs that may arise as a consequence of a
secondary inhibition of MAO. / MSc (Pharmaceutical Chemistry), North-West University, Potchefstroom Campus, 2014
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Comparação da eficácia clínica do naproxeno, associado ou não ao esomeprazol, no controle da dor, edema e trismo em exodontias deterceiros molares inferiores / Comparison of the clinical efficacy of naproxen, associated or not with esomeprazole, in the control of pain, swelling and trismus in lower third molar removalWeckwerth, Giovana Maria 30 March 2016 (has links)
Anti-inflamatórios não esteroidais (AINEs) são frequentemente utilizados para controlar a dor pós-operatória e inflamação em pacientes após a cirurgia oral e maxilofacial, mas eles são muitas vezes associados a problemas gastrointestinais. Recentemente, o AINE naproxeno foi introduzido no mercado em combinação com esomeprazol, um inibidor da bomba de prótons que reduz a formação de ácido do estômago, com o intuito de amenizar esses efeitos colaterais. Usando um design duplo-cego randomizado e cruzado, este estudo teve como objetivo avaliar, pela primeira vez, o controle da dor aguda pós-operatória em 46 pacientes que consumiram um comprimido de NE (naproxeno 500 mg + esomeprazol 20 mg) ou de naproxeno puro (500 mg) a cada 12 horas por 4 dias após a cirurgia dos dois terceiros molares inferiores em posições semelhantes, em dois momentos distintos. As pacientes do sexo feminino relataram significativamente mais dor em 1, 1,5, 2, 3 e 4 horas após a cirurgia e também consumiram sua primeira medicação de socorro (paracetamol) em um tempo significativamente menor quando consumiram NE em comparação com naproxeno puro (3,7 horas e 6,7 horas, respectivamente). Não foram encontradas diferenças significativas nos pacientes do sexo masculino entre cada grupo de pesquisa. Em conclusão, o naproxeno melhorou o manejo da dor aguda pós-operatória quando comparado ao NE em mulheres, embora, ao longo de todo o estudo, a dor foi considerada leve após o uso de ambos os medicamentos em homens e mulheres com escores de dor em média bem abaixo de 40 mm na EAV. / Nonsteroidal anti-inflammatory drugs (NSAIDs) are frequently used to manage postoperative pain and inflammation in patients after oral and maxillofacial surgery, yet they are often associated with gastrointestinal problems. Recently the NSAID naproxen was introduced in combination with esomeprazole, a proton pump inhibitor that reduces stomach acid formation, in an effort to assuage these side effects. Using a double-blinded randomized crossover design, this study aimed to evaluate, for the first time, acute postoperative pain management in 46 volunteers who consumed a tablet of either naproxen (500 mg) with esomeprazole (20 mg) (NE) or only naproxen (500 mg) every 12 hours for 4 days after extractions of the two lower third molars, in two different appointments. Female volunteers reported significantly more pain at 1, 1.5, 2, 3 and 4 hours after surgery and also consumed their first rescue medication (acetaminophen) at a time significantly earlier when consuming NE when compared to naproxen (3.7 hours and 6.7 hours, respectively). No significant differences were found in the males between each research group. In conclusion, naproxen improved acute postoperative pain management when compared to NE in women although, throughout the entire study, pain was mild after the use of both drugs in both men and women with pain scores on average well below 40 mm on the VAS.
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Comparação da eficácia clínica do naproxeno, associado ou não ao esomeprazol, no controle da dor, edema e trismo em exodontias deterceiros molares inferiores / Comparison of the clinical efficacy of naproxen, associated or not with esomeprazole, in the control of pain, swelling and trismus in lower third molar removalGiovana Maria Weckwerth 30 March 2016 (has links)
Anti-inflamatórios não esteroidais (AINEs) são frequentemente utilizados para controlar a dor pós-operatória e inflamação em pacientes após a cirurgia oral e maxilofacial, mas eles são muitas vezes associados a problemas gastrointestinais. Recentemente, o AINE naproxeno foi introduzido no mercado em combinação com esomeprazol, um inibidor da bomba de prótons que reduz a formação de ácido do estômago, com o intuito de amenizar esses efeitos colaterais. Usando um design duplo-cego randomizado e cruzado, este estudo teve como objetivo avaliar, pela primeira vez, o controle da dor aguda pós-operatória em 46 pacientes que consumiram um comprimido de NE (naproxeno 500 mg + esomeprazol 20 mg) ou de naproxeno puro (500 mg) a cada 12 horas por 4 dias após a cirurgia dos dois terceiros molares inferiores em posições semelhantes, em dois momentos distintos. As pacientes do sexo feminino relataram significativamente mais dor em 1, 1,5, 2, 3 e 4 horas após a cirurgia e também consumiram sua primeira medicação de socorro (paracetamol) em um tempo significativamente menor quando consumiram NE em comparação com naproxeno puro (3,7 horas e 6,7 horas, respectivamente). Não foram encontradas diferenças significativas nos pacientes do sexo masculino entre cada grupo de pesquisa. Em conclusão, o naproxeno melhorou o manejo da dor aguda pós-operatória quando comparado ao NE em mulheres, embora, ao longo de todo o estudo, a dor foi considerada leve após o uso de ambos os medicamentos em homens e mulheres com escores de dor em média bem abaixo de 40 mm na EAV. / Nonsteroidal anti-inflammatory drugs (NSAIDs) are frequently used to manage postoperative pain and inflammation in patients after oral and maxillofacial surgery, yet they are often associated with gastrointestinal problems. Recently the NSAID naproxen was introduced in combination with esomeprazole, a proton pump inhibitor that reduces stomach acid formation, in an effort to assuage these side effects. Using a double-blinded randomized crossover design, this study aimed to evaluate, for the first time, acute postoperative pain management in 46 volunteers who consumed a tablet of either naproxen (500 mg) with esomeprazole (20 mg) (NE) or only naproxen (500 mg) every 12 hours for 4 days after extractions of the two lower third molars, in two different appointments. Female volunteers reported significantly more pain at 1, 1.5, 2, 3 and 4 hours after surgery and also consumed their first rescue medication (acetaminophen) at a time significantly earlier when consuming NE when compared to naproxen (3.7 hours and 6.7 hours, respectively). No significant differences were found in the males between each research group. In conclusion, naproxen improved acute postoperative pain management when compared to NE in women although, throughout the entire study, pain was mild after the use of both drugs in both men and women with pain scores on average well below 40 mm on the VAS.
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