LCZ696 Possesses a Protective Effect Against Homocysteine (Hcy)-Induced Impairment of Blood-Brain Barrier (BBB) Integrity by Increasing Occludin, Mediated by the Inhibition of Egr-1.

Homocysteine (Hcy) is a non-essential amino acid produced from methionine. It has been reported that high concentrations of Hcy are related to the pathogenesis of neurodegenerative diseases and induce the disruption of the blood-brain barrier (BBB) by triggering oxidative stress and inflammation. LCZ696 is a novel antihypertensive agent that has been recently reported to possess promising anti-inflammatory properties. However, whether it has a protective effect on the BBB disruption is still unknown. For the first time, in this study, we aim to investigate whether LCZ696 exerts anti-inflammatory effects on Hcy-induced injury in brain endothelial cells and explore its neuroprotective properties. In in vivo experiments, we found that treatment with LCZ696 ameliorated oxidative stress by reducing malondialdehyde (MDA) and increasing glutathione (GSH). Furthermore, LCZ696 downregulated the excessive release of interleukin-6 (IL-6) and tumor necrosis factor-α (TNF-α) at mRNA and protein levels. Importantly, it reversed the disruption of the BBB induced by Hcy stimulation. In the in vitro human brain microvascular endothelial cell (HBMVEC) experiments, compared to the control, the permeability of the endothelial monolayer was significantly enlarged, the expression level of occludin declined, and Egr-1 upregulated by the introduction of Hcy, and these were all reversed by the treatment with LCZ696. Lastly, we found that the protective effects of LCZ696 against Hcy-induced reduction of occludin and hyper-permeability of the endothelial monolayer were greatly abolished by the overexpression of Egr-1. Taken together, we found that LCZ696 protected against Hcy-induced impairment of BBB integrity by increasing the expression of occludin, all mediated by the inhibition of Egr-1.

Utilization of B12 for the treatment of chronic migraine.

Chronic migraine is a particular classification of a headache that is typically unilateral and pulsatile and lasts for at least 3 months. Owing to its high prevalence and detrimental impact on personal, social, and economic aspects of patient lives, much desire has gone into fully understanding the pathogenesis of migraine, and to search for therapeutic agents. In addition to current therapeutics such as triptans, ergotamine, and monoclonal antibodies targeting calcitonin gene-related peptide receptors, vitamin B12 has been investigated for its possible use as a prophylactic agent for migraines. Specifically, the observed effects of vitamin B12 on nitric oxide and homocysteine prompt further investigation of its underlying mechanisms in migraine pathophysiology. In this comprehensive review, we provide a brief overview of migraines and current therapies while focusing on the promising role of vitamin B12 as a possible treatment option for chronic migraine management.

A novel nutritional supplement to reduce plasma homocysteine in nonpregnant women: A randomised controlled trial in The Gambia.

BACKGROUND: Infant DNA methylation profiles are associated with their mother's periconceptional nutritional status. DNA methylation relies on nutritional inputs for one-carbon metabolic pathways, including the efficient recycling of homocysteine. This randomised controlled trial in nonpregnant women in rural Gambia tests the efficacy of a novel nutritional supplement designed to improve one-carbon-related nutrient status by reducing plasma homocysteine, and assesses its potential future use in preconception trials. METHODS AND FINDINGS: We designed a novel drink powder based on determinants of plasma homocysteine in the target population and tested it in a three-arm, randomised, controlled trial. Nonpregnant women aged between 18 and 45 from the West Kiang region of The Gambia were randomised in a 1:1:1 allocation to 12 weeks daily supplementation of either (a) a novel drink powder (4 g betaine, 800 µg folic acid, 5.2 µg vitamin B12, and 2.8 mg vitamin B2), (b) a widely used multiple micronutrient tablet (United Nations Multiple Micronutrient Preparation [UNIMMAP]) containing 15 micronutrients, or (c) no intervention. The trial was conducted between March and July 2018. Supplementation was observed daily. Fasted venepuncture samples were collected at baseline, midline (week 5), and endline (week 12) to measure plasma homocysteine. We used linear regression models to determine the difference in homocysteine between pairs of trial arms at midline and endline, adjusted for baseline homocysteine, age, and body mass index (BMI). Blood pressure and pulse were measured as secondary outcomes. Two hundred and ninety-eight eligible women were enrolled and randomised. Compliance was >97.8% for both interventions. At endline (our primary endpoint), the drink powder and UNIMMAP reduced mean plasma homocysteine by 23.6% (-29.5 to -17.1) and 15.5% (-21.2 to -9.4), respectively (both p < 0.001), compared with the controls. Compared with UNIMMAP, the drink powder reduced mean homocysteine by 8.8% (-15.8 to -1.2; p = 0.025). The effects were stronger at midline. There was no effect of either intervention on blood pressure or pulse compared with the control at endline. Self-reported adverse events (AEs) were similar in both intervention arms. There were two serious AEs reported over the trial duration, both in the drink powder arm, but judged to be unrelated to the intervention. Limitations of the study include the use of a single targeted metabolic outcome, homocysteine. CONCLUSIONS: The trial confirms that dietary supplements can influence metabolic pathways that we have shown in previous studies to predict offspring DNA methylation. Both supplements reduced homocysteine effectively and remain potential candidates for future epigenetic trials in pregnancy in rural Gambia. TRIAL REGISTRATION: Clinicaltrials.gov Reference NCT03431597.

Hydrogen sulfide suppresses homocysteine-induced glial activation and inflammatory response.

Neuro-inflammation plays a critical role in hyperhomocysteinemia (HHcy)-associated neurodegenerative disorders. Hydrogen sulfide (H2S) has been suggested as an endogenous neuromodulator and potent anti-inflammatory molecule. In present study, we have investigated the effect of NaHS supplementation (a H2S source) on inflammatory response in animals subjected to HHcy. NaHS adminstration restored the decreased levels of H2S and polysulfides with a concomitant increase in the activity of cystathionase (CSE) and cystathionine ß-synthase (CBS) in the brain regions of HHcy animals. NaHS supplementation reduced the expression of glial fibrillary acidic protein (GFAP) and ionized calcium binding adaptor molecule 1 (Iba1) suggesting attenuation of astrocyte and microglia activation in HHcy animals. Tumor necrosis factor-alpha (TNF-α), interleukin-6 (IL-6) and monocyte chemoattractant protein-1 (MCP-1) were decreased in the cortex and hippocampus of HHcy animals following NaHS supplementation. Moreover, NaHS supplementation also decreased the TNF-α, IL-6 and MCP-1 in the serum of HHcy animals. NaHS supplementation reduced nitrite levels, 3-nitrotyrosine (3-NT) modified proteins and inducible nitric oxide synthase (iNOS) in the cortex and hippocampus of HHcy animals. However, NaHS administration increased endothelial nitric oxide synthase (eNOS) expression in brain regions of Hcy treated animals. Expression of platelet endothelial cell adhesion molecule (PECAM) was decreased in the microvessels from HHcy animals supplemented with NaHS. Furthermore, HHcy-induced memory deficits assessed by Morris water maze and novel object recognition test were reversed by NaHS administration. Taken together, the findings suggest that NaHS supplementation ameliorates Hcy-induced glia mediated inflammatory response and cognitive deficits. Therefore, H2S may be a novel therapeutic molecule to treat HHcy associated neurological disorders and neuro-inflammatory conditions.

Homocysteine and small vessel stroke: A mendelian randomization analysis.

OBJECTIVE: Trials of B vitamin therapy to lower blood total homocysteine (tHcy) levels for prevention of stroke are inconclusive. Secondary analyses of trial data and epidemiological studies suggest that tHcy levels may be particularly associated with small vessel stroke (SVS). We assessed whether circulating tHcy and B vitamin levels are selectively associated with SVS, but not other stroke subtypes, using Mendelian randomization. METHODS: We used summary statistics data for single-nucleotide polymorphisms (SNPs) associated with tHcy (n = 18), folate (n = 3), vitamin B6 (n = 1), and vitamin B12 (n = 14) levels, and the corresponding data for stroke from the MEGASTROKE consortium (n = 16,952 subtyped ischemic stroke cases and 404,630 noncases). RESULTS: Genetically predicted tHcy was associated with SVS, with an odds ratio of 1.34 (95% confidence interval [CI], 1.13-1.58; p = 6.7 × 10-4 ) per 1 standard deviation (SD) increase in genetically predicted tHcy levels, but was not associated with large artery or cardioembolic stroke. The association was mainly driven by SNPs at or near the MTHFR and MUT genes. The odds ratios of SVS per 1 SD increase in genetically predicted folate and vitamin B6 levels were 0.49 (95% CI, 0.34-0.71; p = 1.3 × 10-4 ) and 0.70 (95% CI, 0.52-0.94; p = 0.02), respectively. Genetically higher vitamin B12 levels were not associated with any stroke subtype. INTERPRETATION: These findings suggest that any effect of homocysteine-lowering treatment in preventing stroke will be confined to the SVS subtype. Whether genetic variants at or near the MTHFR and MUT genes influence SVS risk through pathways other than homocysteine levels and downstream effects require further investigation. Ann Neurol 2019;85:495-501.

Pioglitazone restores the homocysteine­impaired function of endothelial progenitor cells via the inhibition of the protein kinase C/NADPH oxidase pathway.

Homocysteine (Hcy) has been shown to impair the migratory and adhesive activity of endothelial progenitor cells (EPCs). As a peroxisome proliferator­activated receptor γ agonist, pioglitazone (PIO) has been predicted to regulate angiogenesis, and cell adhesion, migration and survival. The aim of the present study was to determine whether PIO could inhibit Hcy­induced EPC dysfunctions such as impairments of cell migration and adhesion. EPC migration and adhesion were assayed using 8.0­µm pore size Transwell membranes and fibronectin­coated culture dishes, respectively. Hcy at a concentration of 200 µM was observed to markedly impair cell migration and adhesiveness, and PIO at a concentration of 10 µM attenuated the Hcy­mediated inhibition of EPC migration and adhesion. The mechanism of these effects may be through the inhibition of protein kinase C (PKC) and reactive oxygen species production. The expression levels of the nicotinamide adenine dinucleotide phosphate (NADPH) oxidase subunits, NADPH oxidase 2 (Nox2) and p67phox, were upregulated by Hcy, with a peak in levels following treatment with a concentration of 200 µM. PIO downregulated the expression levels of Nox2 and p67phox via the PKC signaling pathway. Furthermore, the mechanism of PIO associated with downregulating the p67phox and Nox2 subunits of NADPH oxidase was verified. Thus, PKC and NADPH oxidase may serve a major role in the protective effects of PIO in EPCs under conditions of high Hcy concentrations.

The intervention of enalapril maleate and folic acid tablet on the expressions of the GRP78 and CHOP and vascular remodeling in the vascular smooth muscle cells of H-hypertensive rats with homocysteine.

OBJECTIVE: GRP78 and CHOP play essential roles in endoplasmic reticulum stress (ERS) of the vascular smooth muscle cells. We aim to investigate the effect of enalapril maleate and folic acid tablet on the expressions of GRP78 and CHOP and vascular remodeling in a homocysteine (HCY)-treated hypertensive rat model. MATERIALS AND METHODS: The hypertensive rat model was established with the technique of coarctation in the abdominal aorta, and the blood pressure of the rat was measured with the non-destructive tail-cuff method two weeks after operation. Thirty-six rats with hypertension were randomly divided into 3 groups (n=12 in each group). The control group received common diet and double distilled water, methionine group received 30 g/L methionine diet and double distilled water, while enalapril maleate and folic acid tablet group received 30 g/L methionine diet and 0.2 mg.kg-1.d-1 solution of enalapril maleate and folic acid tablet. Samples were collected at week 4 and week 8 for analysis. The plasma homocysteine was measured by homocysteine detector; MAP was detected through carotid artery incubation and aortic media thickness was determined by image analyses software. The expression of GRP78 and CHOP in the vascular smooth muscle cells were identified by immunohistochemistry and Western blot. RESULTS: Compared with the control group, the concentration of HCY in the serum of rats in methionine group was increased significantly after 4 weeks (p < 0.01), and even more significant after 8 weeks (p < 0.01). Compared with that of methionine group, the level of HCY in enalapril maleate and folic acid tablet group rats was significantly decreased (p < 0.01). The level of MAP in methionine group was increased significantly after 8 weeks compared with that of control group (p < 0.05). However, the MAP in enalapril maleate and folic acid tablet group was decreased significantly compared with that of methionine group. Compared with control group, the media thickness of vascular smooth muscle of rats in the methionine group was increased significantly (p < 0.05) while was statistically reduced in the enalapril maleate and folic acid tablet group (p < 0.05). The expressions of GRP78 and CHOP in methionine group were significantly elevated compared to that of control in a time dependent manner (p < 0.05), which were remarkably down regulated in enalapril maleate and folic acid tablet group compared with that in methionine group. CONCLUSIONS: The administration of enalapril maleate and folic acid tablet can maintain the normal state of cells via the alleviation of ERS and vascular damages, reduction of HCY and the thickness of arterial media as well as the improvement of vascular remodeling.

Probiotics Affect One-Carbon Metabolites and Catecholamines in a Genetic Rat Model of Depression.

SCOPE: Probiotics may influence one-carbon (C1) metabolism, neurotransmitters, liver function markers, or behavior. METHODS AND RESULTS: Male adult Flinders Sensitive Line rats (model of depression, FSL; n = 22) received Lactobacillus helveticus R0052 and Bifidobacterium longum R0175 (109 or 1010 colony-forming units per day) or vehicle for 10 weeks. The controls, Flinders Resistant Line rats (FRL, n = 8), only received vehicle. C1-related metabolites were measured in plasma, urine, and different tissues. Monoamine concentrations were measured in plasma, hippocampus, and prefrontal cortex. Vehicle-treated FSL rats had higher plasma concentrations of betaine, choline, and dimethylglycine, but lower plasma homocysteine and liver S-adenosylmethionine (SAM) than FRLs. FSL rats receiving high-dose probiotics had lower plasma betaine and higher liver SAM compared to vehicle-treated FSL rats. FSLs had higher concentrations of norepinephrine, dopamine, and serotonin than FRLs across various brain regions. Probiotics decreased plasma dopamine in FSLs in a dose-dependent manner. There were no detectable changes in liver function markers or behavior. CONCLUSIONS: Probiotics reduced the flow of methyl groups via betaine, increased liver SAM, and decreased plasma dopamine and norepinephrine. Since these changes in methylation and catecholamine pathways are known to be involved in several diseases, future investigation of the effect of probiotics is warranted.

Probucol reverses homocysteine induced inflammatory monocytes differentiation and oxidative stress.

Reactive oxygen species have been demonstrated to involve in homocysteine-induced Ly-6Chi monocytes differentiation. Probucol is an anti-oxidant agent that has been used to treat atherosclerosis. We sought to evaluate the effect and potential mechanism of probucol on homocysteine-induced inflammatory monocytes differentiation. The primary mouse splenocytes suspensions were initiated by recombinant interferon-γ and cultured with L-homocysteine in the presence or absence of probucol. The cells were co-incubated with monoclonal antibodies to CD11b-PE and Ly-6C FITC. Flow cytometry analysis was performed on BD FACS caliber. Data were analyzed using the FlowJo software. Mononuclear cells were gated according to the lower granular and larger size, distinguished with granulocytes and lymphocytes. Monocytes were defined as CD11b+ mononuclear cells and further divided into three groups based on their Ly-6C expressions, Ly-6Chi, Ly-6Cmid and Ly-6Clow subsets. The productions of reactive oxygen species in monocytes subsets were detected by 2',7'-dichlorofluorescein-diacetate (DCFH-DA) containing monocytes were marked as DCFH-DA+ cells in both Ly-6C+ and Ly-6C- subsets. The activity of nicotinamide adenine dinucleotide phosphate oxidase in THP-1 cells was measured by assay kit on enzyme-labelling instrument. L-homocysteine promoted inflammatory monocytes differentiation and its reactive oxygen species productions in dose-dependent manner. Probucol dose-dependently suppressed the differentiation and reactive oxygen species productions of inflammatory monocytes induced by L-homocysteine. Furthermore, the increased NADPH oxidase activity induced by L-homocysteine was significantly reversed by probucol in THP-1 cells. Probucol prevented L-homocysteine-induced inflammatory monocytes differentiation and its reactive oxygen species generation probably through inhibiting NADPH oxidase activity.

Role of homocysteine and folic acid on the altered calcium homeostasis of platelets from rats with biliary cirrhosis.

Previously, we have found that intracellular calcium homeostasis is altered in platelets from an experimental model of liver cirrhosis, the bile-duct ligated (BDL) rat; these alterations are compatible with the existence of a hypercoagulable state. Different studies indicate that cholestatic diseases are associated with hyperhomocysteinemia; thus, we hypothetized that it could contribute to those platelet alterations. In the present study, we have investigated the role of homocysteine (HCY) in platelet aggregation and calcium signaling in the BDL model. The effect of chronic folic acid treatment was also analyzed. Acute treatment with HCY increased the aggregation response to ADP and calcium responses to thrombin in platelets of control and BDL rats. Capacitative calcium entry was not altered by HCY. Chronic treatment with folic acid decreased platelet aggregation in control and BDL rats, but this decrease was greater in BDL rats. In folic acid-treated rats, thrombin-induced calcium entry and release were decreased in platelet of control rats but unaltered in BDL rats; however, capacitative calcium entry was decreased in platelets of control and BDL rats treated with folic acid. Reactive oxygen species were produced at higher levels by BDL platelets after stimulation with HCY or thrombin and folic acid normalized these responses. HCY plays a role in the enhanced platelet aggregation response of BDL rats, probably through an enhanced formation of ROS. Folic acid pretreatment normalizes many of the platelet alterations shown by BDL rats.