Ryotaro Saiki

Intense Correlation Between Brain Infarction and Protein-Conjugated Acrolein

Background and Purpose— We recently found that increases in plasma levels of protein-conjugated acrolein and polyamine oxidases, enzymes that produce acrolein, are good markers for stroke. The aim of this study was to determine whether the level of protein-conjugated acrolein is increased and levels of spermine and spermidine, the substrates of acrolein production, are decreased at the locus of infarction. Methods— A unilateral infarction was induced in mouse brain by photoinduction after injection of Rose Bengal. The volume of the infarction was analyzed using the public domain National Institutes of Health image program. The level of protein-conjugated acrolein at the locus of infarction and in plasma was measured by Western blotting and enzyme-linked immunosorbent assay, respectively. The levels of polyamines at the locus of infarction and in plasma were measured by high-performance liquid chromatography. Results— The level of protein-conjugated acrolein was greatly increased, and levels of spermine and spermidine were decreased at the locus of infarction at 24 hours after the induction of stroke. The size of infarction was significantly decreased by N-acetylcysteine, a scavenger of acrolein. It was also found that the increases in the protein-conjugated acrolein, polyamines, and polyamine oxidases in plasma were observed after the induction of stroke. Conclusions— The results indicate that the induction of infarction is well correlated with the increase in protein-conjugated acrolein at the locus of infarction and in plasma.

Brain infarction correlates more closely with acrolein than with reactive oxygen species.

Although it is thought that the major factor responsible for cell damage is reactive oxygen species (ROS), our recent studies have shown that acrolein is more toxic than ROS. Thus, the relative importance of acrolein and ROS in cell damage during brain infarction was compared using photochemically induced thrombosis model mice. The levels of acrolein-conjugated albumin, and of 4-hydroxynonenal (HNE)-conjugated albumin and 8-OHdG were evaluated as indicators of damage produced by acrolein and ROS, respectively. The increase in acrolein-conjugated albumin was much greater than the increase in HNE-conjugated albumin or 8-OHdG, suggesting that acrolein is more strongly involved in cell damage than ROS during brain infarction. It was also shown that infarction led more readily to RNA damage than to DNA or phospholipid damage. As a consequence, polyamines were released from RNA, and acrolein was produced from polyamines, especially from spermine by spermine oxidase. Production of acrolein from spermine by spermine oxidase was clarified using spermine synthase-deficient Gy mice and transglutaminase 2-knockout mice, in which spermine content is negligible or spermidine/spermine N(1)-acetyltransferase activity is elevated.

AMD1 is essential for ESC self-renewal and is translationally down-regulated on differentiation to neural precursor cells

The gene expression networks governing embryonic stem cell (ESC) pluripotency are complex and finely regulated during differentiation toward specific lineages. We describe a new role for Amd1 (adenosyl methionine decarboxylase), a key enzyme in the polyamine synthesis pathway, in regulating both ESC self-renewal and differentiation to the neural lineage. Amd1 is highly expressed in ESCs and is translationally down-regulated by the neural precursor cell (NPC)-enriched microRNA miR-762 during NPC differentiation. Overexpression of Amd1 or addition of the polyamine spermine blocks ESC-to-NPC conversion, suggesting Amd1 must be down-regulated to decrease the levels of inhibitory spermine during differentiation. In addition, we demonstrate that high levels of Amd1 are required for maintenance of the ESC state. We show that forced overexpression of Amd1 in ESCs results in maintenance of high Myc levels and a delay in differentiation on removal of LIF. We propose that Amd1 is a major regulator of ESC self-renewal and that its essential role lies in its regulation of Myc levels within the cell.

Increased protein-conjugated acrolein and amyloid-β40/42 ratio in plasma of patients with mild cognitive impairment and Alzheimer's disease.

The objective of this study was to determine whether plasma levels of acrolein, a compound that causes cell damage, and amyloid-β (Aβ) are useful biochemical markers for Alzheimers disease (AD). The study included 221 elderly subjects divided into 101 non-demented [33 healthy control and 68 non-demented subjects with white matter hyperintensity (nd-WMH)], 50 mild cognitive impairment (MCI), and 70 AD. Increases in both protein-conjugated acrolein (PC-Acro) and Aβ40/42 ratio were observed in MCI and AD patients compared with values in control subjects. When the combined measurements of PC-Acro and Aβ40/42 ratio were evaluated using the median value of the relative risk value for dementia, they were in the order AD (0.98) ≥ MCI (0.97) > nd-WMH (0.83) > control (0.35). The results indicate that measurements of PC-Acro and Aβ40/42 ratio not only detect MCI and AD patients but also nd-WMH subjects. Furthermore, both PC-Acro and Aβ40/42 ratio in plasma for 120 MCI and AD patients were significantly higher than those for 101 control and nd-WMH subjects, indicating that both values become useful biochemical markers for MCI and AD subjects.

Inverse correlation between stroke and urinary 3-hydroxypropyl mercapturic acid, an acrolein-glutathione metabolite.

BACKGROUND We found previously that increases in plasma levels of protein-conjugated acrolein and polyamine oxidases, enzymes that produce acrolein, are good biomarkers for stroke. The aim of this study was to test whether 3-hydroxypropyl mercapturic acid (3-HPMA), an acrolein-glutathione metabolite, was increased in the urine of stroke patients. METHODS The level of 3-HPMA in urine was measured by liquid chromatography with tandem mass spectrometry (LC-MS/MS). Stroke (78 subjects) was divided into 52 cerebral infarction (CI) and 26 cerebral hemorrhage (CH) on the basis of clinical information including brain imaging. RESULTS A major acrolein derivative in urine is 3-HPMA. Being different from the results of PC-Acro in plasma, 3-HPMA in urine decreased following stroke. The median value of μmol 3-HPMA/g creatinine (Cre) for 90 control subjects was 2.83, while that for 78 stroke patients was 1.56. The degree of the decrease in 3-HPMA was similar in both CI and CH patients. Furthermore, the median value of μmol 3-HPMA/g Cre in 56 patients with lesions ≥ 1cm in diameter (1.39) was significantly lower than that in 20 patients with lesion <1cm in diameter (2.16). CONCLUSION Inverse correlation between stroke and urinary 3-HPMA was observed. The results suggest that stroke is aggravated when nervous system tissues have a reduced level of glutathione.

Acrolein-conjugated low-density lipoprotein induces macrophage foam cell formation

OBJECTIVE Acrolein-conjugated lysine residues in proteins are present in human atherosclerotic lesions, and are detected in human low-density lipoprotein (LDL). These findings suggest that acrolein may contribute to macrophage foam cell formation and atherogenesis through modification of LDL. The purpose of this study is to determine whether acrolein-conjugated LDL (Acro-LDL) induces macrophage conversion to form foam cells. METHODS Acro-LDL was prepared by incubation of LDL with acrolein. Characteristics of Acro-LDL were examined by agarose gel electrophoresis and western blotting. Cholesterol contents of THP-1 macrophages incubated with Acro-LDL were determined by enzymatic method. Pathway of Acro-LDL uptake by THP-1 macrophages was determined using neutralizing antibody against scavenger receptors. Delivery of Acro-LDL into lysosome and formation of lipid droplet by incubation with Acro-LDL were demonstrated by confocal microscopy. RESULTS The mobility of Acro-LDL determined by agarose gel electrophoresis was increased by modification with acrolein, and the shift of mobility was dependent on the concentration of acrolein. Acrolein interacted with apolipoprotein B in LDL and Acro-LDL uptake by THP-1 macrophage was a more effective inducer of cholesterol accumulation than oxidized LDL uptake. Acro-LDL uptake was mediated by scavenger receptor class A type 1 (SR-A1), but not by CD36. As a result of Acro-LDL uptake, cholesterol ester accumulated in lipid droplets of macrophages, converting them to foam cells. CONCLUSIONS The results show that Acro-LDL uptake via SR-A1 receptors can mediate macrophage foam cell formation.

Distinction between mild cognitive impairment and Alzheimer's disease by CSF amyloid β40 and β42, and protein-conjugated acrolein

BACKGROUND We found previously that the amyloid β40/42 (Aβ40/42) ratio and the level of protein-conjugated acrolein (PC-Acro) in plasma were increased in mild cognitive impairment (MCI) and Alzheimers disease (AD) subjects. We determined whether MCI and AD subjects can be differentiated based on the levels of Aβ40, Aβ42, and PC-Acro in cerebrospinal fluid (CSF). METHODS Aβ40, Aβ42, PC-Acro, Tau and phosphorylated Tau in CSF were measured by ELISA. RESULTS Median values of Aβ40, Aβ40/PC-Acro and Aβ40/42 in CSF were significantly lower in 54 AD subjects than those in 40 MCI subjects. Severity of VOI (volume of interest) atrophy was most intensely correlated with the decrease in Aβ40/PC-Acro and then that in Aβ40 and Aβ42/PC-Acro. MMSE was most intensely correlated with the decrease in Aβ42 and Aβ40, and then that in Aβ42/PC-Acro and Aβ40/PC-Acro. CONCLUSION A decrease in Aβ40/PC-Acro in CSF is well correlated with brain damage, and a decrease in Aβ42 and Aβ40 is well correlated with cognitive ability. Measurement of PC-Acro together with Aβ40 and Aβ42 provides a more precise evaluation of severity of AD subjects.

Inactivation of GAPDH as one mechanism of acrolein toxicity.

We have recently reported that acrolein is more toxic than reactive oxygen species. Thus, the mechanism of cell toxicity by acrolein was studied using mouse mammary carcinoma FM3A cells. Acrolein-conjugated proteins were separated by gel electrophoresis with subsequent determination of their amino acid sequence, and it was found that glyceraldehyde-3-phosphate dehydrogenase (GAPDH) was one of the major acrolein-conjugated proteins in cells. Acrolein interacted with cysteine-150 at the active site of GAPDH, and also with cysteine-282. When cells were treated with 8 μM acrolein, the activity of acrolein-conjugated GAPDH was greatly reduced, and the ATP content in cells was thus significantly reduced. In addition, it was shown that acrolein-conjugated GAPDH translocated to the nucleus, and the level of acetylated GAPDH and the number of TUNEL positive cells was increased, indicating that cell death is enhanced by acrolein-conjugated GAPDH. Inhibition of cell growth by acrolein was partially reversed when the cDNA encoding GAPDH was transformed into cells. These results indicate that inactivation of GAPDH is one mechanism that underlies cell toxicity caused by acrolein.

Distinguishing mild cognitive impairment from Alzheimer's disease with acrolein metabolites and creatinine in urine

BACKGROUND We previously reported that the level of urinary 3-hydroxypropyl mercapturic acid (3-HPMA)/creatinine (Cre) was reduced following stroke. The aim of this study was to determine whether the level of 3-HPMA/Cre in urine was reduced in subjects with dementia. METHODS The level of 3-HPMA was measured by LC-MS/MS, and that of amino acid conjugated acrolein (AC-Acro) was by ELISA. The study included 128 elderly subjects divided into 74 non-demented (control), 22 mild cognitive impairment (MCI) and 32 Alzheimers disease (AD) subjects. RESULTS The urinary 3-HPMA/Cre and AC-Acro/Cre in MCI plus AD subjects were significantly lower than those in control subjects. In addition, urinary Cre in AD subjects was significantly higher than that in MCI subjects, and 3-HPMA/Cre and AC-Acro/Cre in AD subjects were significantly lower than that in MCI subjects. Among these three markers, the lower 3-HPMA/Cre ratio was most strongly correlated with the decline of MMSE (Mini-Mental State Examination) and the increase in CDRsob (Clinical Dementia Rating Scale Sum of Boxes Scores). Furthermore, reduction in 3-HPMA/Cre in urine was well correlated with increase in Aβ40/42 in plasma in demented subjects. CONCLUSION The results indicate that 3-HPMA/Cre in urine is the most reliable biochemical marker to distinguish AD subjects from MCI subjects among three markers.

Structural changes of regulatory domain heterodimer of N-methyl-D-aspartate receptor subunits GluN1 and GluN2B through the binding of spermine and ifenprodil.

Modeling the binding sites for spermine and ifenprodil on the regulatory (R) domains of the N-methyl-d-aspartate receptor GluN1 and GluN2B subunits was carried out after measuring spermine stimulation and ifenprodil inhibition at receptors containing GluN1 and GluN2B R domain mutants. Models were constructed based on the published crystal structure of the GluN1 and GluN2B R domains, which form a heterodimer (Nature 475:249–253, 2011). The experimental results and modeling suggest that a binding site for spermine was formed by the residues near the cleft between the R1 and R2 lobes of the GluN1 R domain (GluN1R) together with residues on the surface of the R2 (C-terminal side) lobe of the GluN2B R domain (GluN2BR). The ifenprodil binding site included residues on the surface of the R1 lobe (N-terminal side) of GluN1R together with residues near the cleft between the R1 and R2 lobes of GluN2BR. It was confirmed using a Western blot analysis that GluN1R and GluN2BR formed a heterodimer. Models of spermine and ifenprodil binding to the heterodimer were constructed. The modeling suggests that an open space between the two R1 lobes of GluN1R and GluN2BR is promoted through spermine binding and that the R1 lobes of GluN1R and GluN2BR approach each other through ifenprodil binding—an effect opposite to that seen with the binding of spermine.