EDER CARLOS ROCHA QUINTAO

(Fonte: Lattes)
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Lattes
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Departamento de Clínica Médica, Faculdade de Medicina - Docente
LIM/10 - Laboratório de Lípides, Hospital das Clínicas, Faculdade de Medicina

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Agora exibindo 1 - 7 de 7
  • article 5 Citação(ões) na Scopus
    The controversy over the use of cholesteryl ester transfer protein inhibitors: is there some light at the end of the tunnel?
    (2016) QUINTAO, Eder C. R.
    Background According to epidemiological studies, there is no clear relationship between the plasma cholesteryl ester transfer protein (CETP) concentration and the development of atherosclerosis in human populations. Although some studies suggest that increased CETP activity relates to undesirable profiles of plasma lipoproteins, promoting an anti-atherogenic plasma lipoprotein profile by drugs that inhibit CETP has not succeeded in preventing atherosclerosis in humans. Materials and Methods This review describes 28 investigations in human populations dealing with plasma CETP, 11 in mice that express human CETP and seven in animals (six in rabbits and one in mice) in which plasma CETP activity was inhibited by drugs. Results Present review shows that models in mice expressing human CETP are not illuminating because they report increase as well reduction of atherosclerosis. However, investigations in rabbits and mice that develop severe hypercholesterolaemia clearly indicate that impairment of the plasma CETP activity elicits protection against the development of atherosclerosis; in all of these experiments are attained substantial reductions of the atherogenic lipoproteins, namely, plasma apoB containing lipoproteins. Conclusion These models are strong indicators that the benefit in preventing atherosclerosis should be earned in cases of hyperlipidemia by CETP inhibitors.
  • article 2 Citação(ões) na Scopus
    Does eating eggs matter?
    (2022) QUINTAO, Eder Carlos Rocha
    Dietary cholesterol is absorbed in proportion to the amount ingested, blocking its hepatic synthesis, increasing its biliary excretion, only slightly increasing production of bile acids while potentially raising the serum concentration of the atherogenic low-density lipoprotein. Humans lie midway between rats and rabbits that respond to dietary cholesterol, respectively, with high and low capacity to produce bile acids, and low or high capacity to raise blood cholesterol. There are regular studies exonerating as well as blaming dietary cholesterol as a cardiovascular risk factor, particularly in genetic hypercholesterolemic individuals. We then resorted at reviewing all meta-analyses on the subject but failed to reach at a clear conclusion useful in medical practice. Nevertheless, ingestion of the same amount of cholesterol results in wide variation in the amounts absorbed and in plasma lipoprotein profiles depending on poorly understood genetic factors. Several genetic conditions are capable of interfering with the absorption and synthesis of cholesterol. Hyperabsorption of dietary cholesterol elicits the accumulation of cholesterol in the liver and in plasma. In this regard, most cases of familial hypercholesterolemia that have a case of intestinal hyperabsorption of cholesterol also demonstrate the same defect. A practical useful suggestion is to measure for a few weeks the total serum cholesterol and its fractions at least three times before and during the intake of eggs that the candidate wishes to maintain in his usual dietary practice as an efficient procedure to identify those who respond with undesirable increases in serum cholesterol.
  • article 99 Citação(ões) na Scopus
    Molecular Pathways Underlying Cholesterol Homeostasis
    (2018) AFONSO, Milessa Silva; MACHADO, Roberta Marcondes; LAVRADOR, Maria Silvia; QUINTAO, Eder Carlos Rocha; MOORE, Kathryn J.; LOTTENBERG, Ana Maria
    Cholesterol is an essential molecule that exerts pleiotropic actions. Although its presence is vital to the cell, its excess can be harmful and, therefore, sustaining cholesterol homeostasis is crucial to maintaining proper cellular functioning. It is well documented that high plasma cholesterol concentration increases the risk of atherosclerotic heart disease. In the last decades, several studies have investigated the association of plasma cholesterol concentrations and the risk of cardiovascular diseases as well as the signaling pathways involved in cholesterol homeostasis. Here, we present an overview of several mechanisms involved in intestinal cholesterol absorption, the regulation of cholesterol synthesis and uptake. We also discuss the importance of reverse cholesterol transport and transintestinal cholesterol transport to maintain cholesterol homeostasis and prevent atherosclerosis development. Additionally, we discuss the influence of dietary cholesterol on plasma cholesterol concentration and the new recommendations for cholesterol intake in a context of a healthy dietary pattern.
  • article 20 Citação(ões) na Scopus
    Cholesterol metabolism in aging simultaneously altered in liver and nervous system
    (2022) NUNES, Valeria Sutti; FERREIRA, Guilherme da Silva; QUINTAO, Eder Carlos Rocha
    In humans, aging, triggers increased plasma concentrations of triglycerides, cholesterol, low-density lipoproteins and lower capacity of high-density lipoproteins to remove cellular cholesterol. Studies in rodents showed that aging led to cholesterol accumulation in the liver and decrease in the brain with reduced cholesterol synthesis and increased levels of cholesterol 24-hydroxylase, an enzyme responsible for removing cholesterol from the brain. Liver diseases are also related to brain aging, inducing changes in cholesterol metabolism in the brain and liver of rats. It has been suggested that late onset Alzheimer's disease is associated with metabolic syndrome. Non-alcoholic fatty liver is associated with lower total brain volume in the Framingham Heart Study offspring cohort study. Furthermore, disorders of cholesterol homeostasis in the adult brain are associated with neurological diseases such as Niemann-Pick, Alzheimer, Parkinson, Huntington and epilepsy. Apolipoprotein E (apoE) is important in transporting cholesterol from astrocytes to neurons in the etiology of sporadic Alzheimer's disease, an aging-related dementia. Desmosterol and 24S-hydroxycholesterol are reduced in ApoE KO hypercholesterolemic mice. ApoE KO mice have synaptic loss, cognitive dysfunction, and elevated plasma lipid levels that can affect brain function. In contrast to cholesterol itself, there is a continuous uptake of 27hydroxycholesterol in the brain as it crosses the blood-brain barrier and this flow can be an important link between intra-and extracerebral cholesterol homeostasis. Not surprisingly, changes in cholesterol metabolism occur simultaneously in the liver and nervous tissues and may be considered possible biomarkers of the liver and nervous system aging.
  • article 5 Citação(ões) na Scopus
    Does plasma HDL-C concentration interact with whole-body cholesterol metabolism?
    (2013) LEANCA, C. C.; NUNES, V. S.; NAKANDAKARE, E. R.; FARIA, E. C. de; QUINTAO, E. C. R.
    This review examines the interactions between plasma high density lipoprotein (HDL) metabolism and whole-body cholesterol economy. More specifically, this review addresses three questions: 1) does plasma HDL-C concentration correlate with the parameters of whole-body cholesterol metabolism? 2) Do variations in cholesterol metabolism interfere with plasma HDL-C concentrations? 3) Are the markers of cholesterol synthesis and intestinal absorption specifically under the control of plasma HDL? The following answers were provided to each question, respectively: 1) plasma HDL influences whole-body cholesterol synthesis rate but the evidence that HDL modifies the total amount of cholesterol absorbed by the intestine is not clearly supported by present investigations; 2) there are suggestions that changes in whole body cholesterol metabolism rates do not interfere with plasma HDL-C concentrations; 3) markers of cholesterol synthesis and absorption may specifically be controlled by plasma HDL-C concentrations regarding the genetic causes of extremely low HDL-C concentrations, although within the general population plasma HDL-C concentration is likely ascribed to insulin resistance or diabetes mellitus.
  • article 3 Citação(ões) na Scopus
    Plasma Non-cholesterol Sterols as Markers of Cholesterol Synthesis and Intestinal Absorption: A Critical Review
    (2020) QUINTAO, Eder Carlos Rocha
    Plasma concentrations of phytosterols and non-cholesterol stem! precursors of cholesterol synthesis have been used as markers of intestinal cholesterol absorption and synthesis in inherited and secondary dyslipidemias and in population-based investigations to evaluate the risk for cardiovascular disease, respectively. The method aims at replacing initial research procedures such as the use of stable isotopes associated with fecal steroid balance, which are limited by the high cost and tedious procedures. However, we show in this review that numerous results obtained with serum sterol measurements are contradictory. in this regard, the following points are discussed: 1) how phytosterols relate to atherosclerosis considering that defects in biliary output or in the transport of phytosterols from the intestinal mucosa back into the intestinal lumen provide increased content of phytosterols and other sterols in plasma and tissues, thus not allowing to conclude that their presence in arteries and atheromas represents the etiology of atherosclerosis; 2) serum non-cholesterol sterols as markers of cholesterol synthesis and absorption, such as cholestanol, present discrepant results, rendering them often inadequate to identify cases of coronary artery disease as well as alterations in the whole body cholesterol metabolism; 3) such methods of measurement of cholesterol metabolism are confounded by factors like diabetes mellitus, body weight and other pathologies including considerable hereditary hyperlipidemias biological variabilities that influence the efficiency of synthesis and intestinal absorption of cholesterol.
  • article 18 Citação(ões) na Scopus
    Do clinical and experimental investigations support an antiatherogenic role for dietary phytosterols/stanols?
    (2012) LOTTENBERG, Ana Maria; BOMBO, Renata P. A.; ILHA, Angela; NUNES, Valeria Sutti; NAKANDAKARE, Edna R.; QUINTAO, Eder C. R.
    The plasma cholesterol-reducing effect of phytosterols (PS) has been recognized in several studies, but the usefulness of PS in preventing coronary heart disease remains controversial, as some investigations claim that the high PS concentrations found in plasma and specific tissues are related to an increased risk of cardiovascular events. It has also been demonstrated that PS may induce inflammation and reduce cholesterol efflux from macrophages, conditions that are directly implicated in the development of atherosclerosis. As to arterial dysfunction and atherosclerosis, some studies have concluded that plasma PS concentrations are unrelated or only weakly related or that PS intake or plasma PS concentrations are harmful. Thus, in light of the National Cholesterol Education Program-ATPIII report, it is necessary to evaluate the relevance of their findings. To this end, we have evaluated the studies conducted on cells, animal models, and humans regarding the influence of PS on the development of atherosclerosis.