Vitamin B12 does not increase cell viability after hydrogen peroxide induced damage in mouse kidney proximal tubular cells and brain endothelial cells.

Vitamin B12 (B12) is an essential co-factor for two enzymes in mammalian metabolism and can also act as a mimetic of superoxide dismutase (SOD) converting superoxide (O2 •‒) to hydrogen peroxide (H2O2). High oral dose B12 decreases renal O2 •‒ and post-ischemia/reperfusion injury in mice and protects against damage induced by hypoxia/reperfusion in mouse kidney proximal tubular cells (BU.MPT). O2 •‒ is unstable and rapidly converted to H2O2. H2O2 mediates oxidative stress associated with O2 •‒. Whether B12 protects against damage induced by H2O2 is unknown. Both BU.MPT cells and mouse brain endothelial cells (bEdn.3) were applied to test the effects of B12 on H2O2-induced cytotoxicity. Both types of cells were treated with different doses of H2O2 with or without different doses of B12. Cell viability was analyzed 24 h later. H2O2 caused cell death only at a very high dose, and high pharmacological dose of B12 did not prevent this detrimental effect in either cell type. In bEnd.3 cells, transcriptional levels of heme oxygenase-1 (HO-1) increased, while nuclear factor erythroid 2-related factor 2 (Nrf2) decreased by H2O2. The levels of transcripts were not affected by the B12 treatment. We conclude that the cytotoxic effects of exogenous H2O2 in BU.MPT and bEdn.3 cells are not prevented by B12.

Beneficial effects of nicotinamide on hypertensive mice with impaired endothelial nitric oxide function.

Nicotinamide (Nam, amide form of niacin acid or nicotinate), a precursor for nicotinamide adenine dinucleotide (NAD+), is important for normal physiological function of organisms. Nam also suppresses mobilization of Ca2+ from sarcoplasmic reticulum into cytoplasm through inhibiting ADP-ribose cyclase. Previously, we have demonstrated that a pharmacological dose of Nam normalizes maternal blood pressure in mouse models of preeclampsia, a pregnancy related hypertensive disorder. We hypothesized that Nam could decrease blood pressure in hypertensive conditions unrelated to pregnancy. Nam at a dose of 500 mg/kg/day was given to wild type (WT) mice treated with L-NAME, endothelial nitric oxide synthase (eNOS)-null and renin transgenic (Renin-Tg) mice via drinking water. Blood pressure was measured by tail-cuff at different stages of treatment. The function and structure of kidneys of WT mice with L-NAME were determined at the end of the study. The gene expression of markers of inflammation and fibrosis in the kidneys of WT mice with L-NAME was also measured. Nam effectively prevented increase in blood pressure in L-NAME treated mice and decreased elevated blood pressure in eNOS-null mice. However, it did not alter high blood pressure in Renin-Tg mice. Nam prevented increase in urinary albumin excretion and collagen deposit in kidneys of WT mice treated with L-NAME. In addition, Nam significantly decreased the mRNA levels of the markers of inflammation and fibrosis in the kidneys of WT mice treated with L-NAME. Nam may execute beneficial effects on hypertensive conditions associated with eNOS dysfunction via suppressing inflammation. Because Nam is generally regarded as safe in humans, it merits further evaluation for the tailored treatment for the subgroup of hypertensive cases associated with impaired eNOS system.

Beneficial effects of nicotinamide on the mouse model of preeclampsia.

Preeclampsia (PE) is a pregnancy related disorder that is characterized by hypertension and proteinuria in the mother. It is associated with impaired coagulation and liver function, and a variety of other detrimental effects. In severe cases without treatment, PE can progress to eclampsia and result in seizures, a life-threatening condition. Although the etiology of PE is largely unknown, sFlt-1 (soluble vascular endothelial growth factor receptor 1) released by the impaired placenta resulting from insufficient perfusion plays a critical role in PE, and phenotypes of PE can be induced by experimentally increasing sFlt-1. We and other investigators have proposed that endothelin-1 (ET-1) system is the mediator of the pathological effects of excess sFlt-1, and antagonists of ET-1 receptor block the effects of sFlt-1. Unfortunately, this class of drugs is teratogenic and unsuitable for treating pregnant women. Nicotinamide is a naturally occurring derivative of vitamin B3 in the body and inhibits ADP-ribosyl cyclase, which is activated by the ET-1 receptor. Therefore, if utilized, it would be expected to play a beneficial role in PE. In mouse models of PE, a high dose of nicotinamide shows great success in lowering blood pressure, correcting renal function and structure, prolonging pregnancy as well as increasing fetal weight/number. Nicotinamide, being generally regarded as safe, could be a promising substance to further investigate for use in clinical trials.