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. 2012;30(2):225-31.
doi: 10.3233/JAD-2012-111940.

Metabolism and neurotoxicity of homocysteine thiolactone in mice: evidence for a protective role of paraoxonase 1

Kamila Borowczyk  1 Diana M ShihHieronim Jakubowski
Affiliations

Metabolism and neurotoxicity of homocysteine thiolactone in mice: evidence for a protective role of paraoxonase 1

Kamila Borowczyk et al. J Alzheimers Dis. 2012.

Abstract

Homocysteine (Hcy)-thiolactone is toxic, induces epileptic seizures in rodents, and has been implicated in Alzheimer's disease. Paraoxonase 1 (Pon1), a component of high-density lipoprotein, hydrolyzes Hcy-thiolactone in vitro. Whether this reflects a physiological function and whether Pon1 can protect against Hcy-thiolactone toxicity was unknown. Here we show that Hcy-thiolactone was elevated in brains of Pon1-/- mice (1.5-fold, p = 0.047) and that Pon1-/- mice excrete more Hcy-thiolactone than wild type animals (2.4-fold, p = 0.047). The frequency of seizures induced by intraperitoneal injections of L-Hcy-thiolactone was significantly higher in Pon1-/- mice compared with wild type animals (52.8% versus 29.5%, p = 0.042); the latency of seizures was lower in Pon1-/- mice than in wild type animals (31.8 min versus 41.2 min, p = 0.019). Using the Pon1 null mice, we provide the first direct evidence that a specific Hcy metabolite, Hcy-thiolactone, rather than Hcy itself is neurotoxic in vivo. Our findings indicate that Pon1 protects mice against Hcy-thiolactone neurotoxicity by hydrolyzing it in the brain, and suggest a mechanism by which Pon1 can protect against neurodegeneration associated with hyperhomocysteinemia and Alzheimer's disease.

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Figures

Fig. 1
Fig. 1
Kinetics of plasma Hcy-thiolactone and total Hcy in mice. Representative kinetics of Hcy-thiolactone (A) and tHcy (B) turnover obtained for individual Pon1−/− (○) and Pon1+/+(x) mice injected intraperitoneally with 600 nmol L-Hcy-thiolactone/g body weight are shown. Data points were fitted to the exponential equation [At] = [A0]· ek·t, where k is a first order rate constant, [At] and [A0] are measured concentrations at time t and extrapolated concentrations at time zero, respectively.
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