Sphingomyelin in high-density lipoproteins: structural role and biological function.

High-density lipoprotein (HDL) levels are an inverse risk factor for cardiovascular diseases, and sphingomyelin (SM) is the second most abundant phospholipid component and the major sphingolipid in HDL. Considering the marked presence of SM, the present review has focused on the current knowledge about this phospholipid by addressing its variable distribution among HDL lipoparticles, how they acquire this phospholipid, and the important role that SM plays in regulating their fluidity and cholesterol efflux from different cells. In addition, plasma enzymes involved in HDL metabolism such as lecithin-cholesterol acyltransferase or phospholipid transfer protein are inhibited by HDL SM content. Likewise, HDL SM levels are influenced by dietary maneuvers (source of protein or fat), drugs (statins or diuretics) and modified in diseases such as diabetes, renal failure or Niemann-Pick disease. Furthermore, increased levels of HDL SM have been shown to be an inverse risk factor for coronary heart disease. The complexity of SM species, described using new lipidomic methodologies, and their distribution in different HDL particles under many experimental conditions are promising avenues for further research in the future.

Liver X receptor activation enhances cholesterol loss from the brain, decreases neuroinflammation, and increases survival of the NPC1 mouse.

Although cholesterol is a major component of the CNS, there is little information on how or whether a change in sterol flux across the blood-brain barrier might alter neurodegeneration. In Niemann-Pick type C (NPC) disease, a mutation in NPC1 protein causes unesterified cholesterol to accumulate in the lysosomal compartment of every cell, including neurons and glia. Using the murine model of this disease, we used genetic and pharmacologic approaches in an attempt to alter cholesterol homeostasis across the CNS. Genetic deletion of the sterol transporters ATP-binding cassette transporter A1 (ABCA1) and low-density lipoprotein receptor in the NPC1 mouse did not affect sterol balance or longevity. However, deletion of the nuclear receptor, liver X receptor beta (LXRbeta), had an adverse effect on progression of the disease. We therefore tested the effects of increasing LXR activity by oral administration of a synthetic ligand for this transcription factor. Treatment with this LXR agonist increased cholesterol excretion out of brain from 17 to 49 microg per day, slowed neurodegeneration, and prolonged life. This agonist did not alter synthesis of cholesterol or expression of genes associated with the formation of 24(S)-hydroxycholesterol or neurosteroids such as CYP46A1, 3alphaHSD, and CYP11A1. However, levels of the sterol transporters ABCA1 and ATP-binding cassette transporter G1 were increased. Concomitantly, markers of neuroinflammation, CD14, MAC1, CD11c, and inducible nitric oxide synthase, were reduced, and microglia reverted from their amoeboid, active form to a ramified, resting configuration. Thus, LXR activation resulted in increased cholesterol excretion from the brain, decreased neuroinflammation, and deactivation of microglia to slow neurodegeneration and extend the lifespan of the NPC1 mouse.

Effects of dietary cholesterol restriction in a feline model of Niemann-Pick type C disease.

A feline model of Niemann-Pick disease type C (NPC) was employed to evaluate the effect of dietary cholesterol restriction on progression of disease. Two NPC-affected treated cats were fed a cholesterol-restricted diet beginning at 8 weeks of age; the cats remained on the diet for 150 and 270 days respectively. The study goal was to lower the amount of low density lipoprotein (LDL) available to cells, hypothetically reducing subsequent lysosomal accumulation of unesterified cholesterol and other lipids. Neurological progression of disease was not altered and dietary cholesterol restriction did not significantly decrease storage in NPC-affected treated cats. One NPC-affected treated cat had decreased serum alkaline phosphatase activity (ALP) and decreased serum cholesterol concentration. Liver lipid concentrations of unesterified cholesterol, cholesterol ester and phospholipids in NPC-affected treated cats were similar to those seen in NPC-affected untreated cats. Ganglioside concentrations in the NPC-affected treated cats and NPC-affected untreated cats were similar. Histological findings in liver sections from NPC-affected treated cats showed a diffuse uniform microvacuolar pattern within hepatocytes and Kupffer cells, in contrast to a heterogeneous macro/microvacuolar pattern and prominent nodular fibrosis in NPC-affected untreated cats. Similar differences in vacuolar patterns were seen in splenic macrophages. Although some hepatic parameters were modified, dietary cholesterol restriction did not appear to alter disease progression in NPC-affected kittens.

Enfermedad de niemann pick error innato del metabolismo de los lípidos: reporte de caso

Se hace una revisión de la enfermedad de Niemann-Pick que es una alteración innata del metabolismo de los fosfolípidos, la ESPINGOMIELINA, que se acumula en los lisosomas, constituyendo la enfermedad lisosomal, debido a una alteración cualitativa o cuantitativa de la ESZPINGOMIELINASA. La enfermedad es transmitida en forma autosómica recesiva, alterando los diversos órganos, especialmente el sistema nervioso y el fondo de ojo en el cual se observa en la mácula una mancha de color cereza. A continuación se presenta el caso problema en un indígena puro del Cañar-Ecuador (años anteriores se encontró otro caso que fue descrito por su extrema rareza), existe consanguinidad; hepatoesplenomegalia, mancha roja en mácula y células espúmosas en médula ósea. Un hermano falleció con identicas características clínicas.

The effect of cholesterol-lowering agents on hepatic and plasma cholesterol in Niemann-Pick disease type C.

Niemann-Pick disease type C (NP-C) is a neurovisceral lipidosis characterized by defective intracellular trafficking of cholesterol and lysosomal accumulation of unesterified cholesterol, believed to be an offending metabolite. We studied the effect of cholesterol-lowering agents on hepatic and plasma cholesterol levels in NP-C by randomly assigning 25 patients with NP-C to one of five treatment regimens containing different combinations of cholestyramine, lovastatin, nicotinic acid, or dimethyl sulfoxide (DMSO). Unesterified cholesterol content was measured in liver biopsies before and after 4 months' treatment. All drug regimens except DMSO alone reduced hepatic and plasma cholesterol levels. Toxicity was limited and did not prevent any patient from completing the study. The combination of cholestyramine, lovastatin, and nicotinic acid lowered cholesterol levels in liver and blood with minimal side effects. A controlled clinical study will be necessary to determine if this regimen influences the rate of neurologic progression.