Metabolism and Neurotoxicity of Homocysteine Thiolactone in Mice: Evidence for a Protective Role of Paraoxonase 1

Borowczyk, Kamila; Shih, Diana M.; Jakubowski, Hieronim

doi:10.3233/jad-2012-111940

Cited by 61 publications

(69 citation statements)

References 33 publications

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“…These results collectively indicated that PON1 was primarily involved in M1 formation from 2-oxo-ticlopidine. PON1 is known to be involved in the hydrolysis of lactone or thiolactone derivatives such as pilocarpine (Billecke et al, 2000;Hioki et al, 2011) and homocysteine thiolactone (Borowczyk et al, 2012).…”

Section: Discussionmentioning

confidence: 99%

Multiple Cytochrome P450 Isoforms Are Involved in the Generation of a Pharmacologically Active Thiol Metabolite, whereas Paraoxonase 1 and Carboxylesterase 1 Catalyze the Formation of a Thiol Metabolite Isomer from Ticlopidine

et al. 2013

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Ticlopidine is a first-generation thienopyridine antiplatelet drug that prevents adenosine 59-diphosphate (ADP)-induced platelet aggregation. We identified the enzymes responsible for the two-step metabolic bioactivation of ticlopidine in human liver microsomes and plasma. Formation of 2-oxo-ticlopidine, an intermediate metabolite, was NADPH dependent and cytochrome P450 (CYP) 1A2, 2B6, 2C19, and 2D6 were involved in this reaction. Conversion of 2-oxo-ticlopidine to thiol metabolites was observed in both microsomes (M1 and M2) and plasma (M1). These two metabolites were considered as isomers, and mass spectral analysis suggested that M2 was a thiol metabolite bearing an exocyclic double bond, whereas M1 was an isomer in which the double bond was migrated to an endocyclic position in the piperidine ring. The conversion of 2-oxo-ticlopidine to M1 in plasma was significantly increased by the addition of 1 mM CaCl 2 . In contrast, the activity in microsomes was not changed in the presence of CaCl 2 . M1 formation in plasma was inhibited by EDTA but not by other esterase inhibitors, whereas this activity in microsomes was substantially inhibited by carboxylesterase (CES) inhibitors such as bis-(p-nitrophenyl)phosphate (BNPP), diisopropylphosphorofluoride (DFP), and clopidogrel. The conversion of 2-oxo-ticlopidine to M1 was further confirmed with recombinant paraoxonase 1 (PON1) and CES1. However, M2 was detected only in NADPHdependent microsomal incubation, and multiple CYP isoforms were involved in M2 formation with highest contribution of CYP2B6. In vitro platelet aggregation assay demonstrated that M2 was pharmacologically active. These results collectively indicated that the formation of M2 was mediated by CYP isoforms whereas M1, an isomer of M2, was generated either by human PON1 in plasma or by CES1 in the human liver.

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Section: Discussionmentioning

confidence: 99%

Multiple Cytochrome P450 Isoforms Are Involved in the Generation of a Pharmacologically Active Thiol Metabolite, whereas Paraoxonase 1 and Carboxylesterase 1 Catalyze the Formation of a Thiol Metabolite Isomer from Ticlopidine

et al. 2013

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“…Reduced PON1 activity is linked to cardiovascular disease [7,8]. In mice, Pon1 gene deletion impairs urine concentrating ability, which leads to a polyuria phenotype [9].…”

Section: Introductionmentioning

confidence: 99%

“…Hcy is a negative determinant of HDL and PON1 [17] and reduces Apoa1 and Pon1 gene expression [18]. HDL and purified PON1 detoxify Hcy-thiolactone [19] and protect against protein Nhomocysteinylation [9,20]. N-Homocysteinylation causes protein damage and is linked to kidney and cardiovascular diseases (reviewed in [21]).…”

Section: Introductionmentioning

confidence: 99%

Paraoxonase 1 deficiency and hyperhomocysteinemia alter the expression of mouse kidney proteins involved in renal disease

Suszyńska-Zajczyk

Sikora

Jakubowski

2014

Molecular Genetics and Metabolism

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“…It is a homocysteine-thiolactonase. [31][32][33][34] PON1 evolved from bi-functional enzymes that act as homoserine lactones which are quorum-sensing molecules employed by many gram-negative bacteria. PON1 is thereby a component of the innate immunity.…”

Section: Introductionmentioning

confidence: 99%

Paraoxonase 1 in neurological disorders

Menini

Gugliucci

2013

Redox Report

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Paroxonase 1 displays multiple physiological activities that position it as a putative player in the pathogenesis of neurological disorders. Here we reviewed the literature focusing on the role of paraoxonase 1 (PON1) as a factor in the risk of stroke and the major neurodegenerative diseases. PON1 activity is reduced in stroke patients, which significantly correlates inversely with carotid and cerebral atherosclerosis. The presence of the R allele of the Q192R PON1 polymorphism seems to potentiate this risk for stroke. PON1 exerts peroxidase activities that may be important in neurodegenerative disorders associated with oxidative stress. PON1 is also a key detoxifier of organophosphates and organophosphate exposure has been linked to the development of neurological disorders in which acetylcholine plays a significant role. In Parkinson's disease most of the studies suggest no participation of either L55M or the Q192R polymorphisms in its pathogenesis. However, many studies suggest that the MM55 PON1 genotype is associated with a higher risk for Parkinson's disease in individuals exposed to organophosphates. In Alzheimer's disease most studies have failed to find any association between PON1 polymorphisms and the development of the disease. Some studies show that PON1 activity is decreased in patients with Alzheimer's disease or other dementias, suggesting a possible protective role of PON1. No links between PON1 polymorphisms or activity have been found in other neurodegenerative diseases such as multiple sclerosis and amyotrophic lateral sclerosis. PON1 is a potential player in the pathogenesis of several neurological disorders. More research is warranted to ascertain the precise pathogenic links and the prognostic value of its measurement in neurological patients.

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Metabolism and Neurotoxicity of Homocysteine Thiolactone in Mice: Evidence for a Protective Role of Paraoxonase 1

Cited by 61 publications

References 33 publications

Multiple Cytochrome P450 Isoforms Are Involved in the Generation of a Pharmacologically Active Thiol Metabolite, whereas Paraoxonase 1 and Carboxylesterase 1 Catalyze the Formation of a Thiol Metabolite Isomer from Ticlopidine

Multiple Cytochrome P450 Isoforms Are Involved in the Generation of a Pharmacologically Active Thiol Metabolite, whereas Paraoxonase 1 and Carboxylesterase 1 Catalyze the Formation of a Thiol Metabolite Isomer from Ticlopidine

Paraoxonase 1 deficiency and hyperhomocysteinemia alter the expression of mouse kidney proteins involved in renal disease

Paraoxonase 1 in neurological disorders

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