EDNA REGINA NAKANDAKARE

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Departamento de Clínica Médica, Faculdade de Medicina - Docente
LIM/10 - Laboratório de Lípides, Hospital das Clínicas, Faculdade de Medicina - Líder

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  • article 45 Citação(ões) na Scopus
    Dietary interesterified fat enriched with palmitic acid induces atherosclerosis by impairing macrophage cholesterol efflux and eliciting inflammation
    (2016) AFONSO, Milessa Silva; LAVRADOR, Maria Silvia Ferrari; KOIKE, Marcia Kiyomi; CINTRA, Dennys Esper; FERREIRA, Fabiana Dias; NUNES, Valeria Sutti; CASTILHO, Gabriela; GIOIELLI, Luiz Antonio; BOMBO, Renata Paula; CATANOZI, Sergio; CALDINI, Elia Garcia; DAMACENO-RODRIGUES, Nilsa Regina; PASSARELLI, Marisa; NAKANDAKARE, Edna Regina; LOTTENBERG, Ana Maria
    Interesterified fats are currently being used to replace trans fatty acids. However, their impact on biological pathways involved in the atherosclerosis development was not investigated. Weaning male LDLr-KO mice were fed for 16 weeks on a high-fat diet (40% energy as fat) containing polyunsaturated (PUFA), TRANS, palmitic (PALM), palmitic interesterified (PALM INTER), stearic (STEAR) or stearic interesterified (STEAR INTER). Plasma lipids, lipoprotein profile, arterial lesion area, macrophage infiltration, collagen content and inflammatory response modulation were determined. Macrophage cholesterol efflux and the arterial expression of cholesterol uptake and efflux receptors were also performed. The interesterification process did not alter plasma lipid concentrations. Although PALM INTER did not increase plasma cholesterol concentration as much as TRANS, the cholesterol enrichment in the LDL particle was similar in both groups. Moreover, PALM INTER induced the highest IL-1 beta, MCP-1 and IL-6 secretion from peritoneal macrophages as compared to others. This inflammatory response elicited by PALM INTER was confirmed in arterial wall, as compared to PALM. These deleterious effects of PALM INTER culminate in higher atherosclerotic lesion, macrophage infiltration and collagen content than PALM, STEAR, STEAR INTER and PUFA. These events can partially be attributed to a macrophage cholesterol accumulation, promoted by apoAl and HDL2-mediated cholesterol efflux impairment and increased Olr-1 and decreased Abca1 and Nr1h3 expressions in the arterial wall. Interesterified fats containing palmitic acid induce atherosclerosis development by promoting cholesterol accumulation in LDL particles and macrophagic cells, activating the inflammatory process in LDLr-KO mice.
  • conferenceObject
    LIPOPROTEINS AND LIPID METABOLISM: HDL. AEROBIC EXERCISE TRAINING DOES NOT SYSTEMATICALLY AFFECT MACROPHAGE GENE EXPRESSION INVOLVED IN REVERSE CHOLESTEROL TRANSPORT AND CHOLESTEROL EFFLUX IN CETP TRANSGENIC MICE
    (2016) PINTO, P. R.; SILVA, K. S.; GOMES, D. J.; MACHADO-LIMA, A.; IBORRA, R. T.; FERREIRA, G. S.; QUINTAO, E. C. R.; NAKANDAKARE, E. R.; MACHADO, U. F.; CORREA-GIANNELLA, M. L. C.; CATANOZI, S.; PASSARELLI, M.
  • conferenceObject
    AGE-ALBUMIN REDUCES ABCA-1 CONTENT IN MACROPHAGES BY INDUCING ITS MODIFICATION BY AGE AND DEGRADATION BY THE UBIQUITIN-PROTEASOME AND LYSOSOMAL SYSTEM.
    (2016) IBORRA, R. Tallada; MACHADO-LIMA, A.; MACHADO, U. Fabres; RUI, L.; NAKANDAKARE, E. R.; YOKOYAMA, S.; PASSARELLI, M.
  • conferenceObject
    In vitro transfer of lipids to high density lipoprotein (HDL) and carotid artery intima-media thickness in individuals with marked hyperalphalipoproteinemia
    (2016) LAURINAVICIUS, A. G.; PASSARELLI, M.; NAKANDAKARE, E.; HONG, V.; BORTOLOTTO, L.; BITTENCOURT, M. S.; CONCEICAO, R. O. D.; SANTOS, R. D.; MARANHAO, R.
  • article 1 Citação(ões) na Scopus
    Dietary interesterified fat enriched with palmitic acid induces atherosclerosis by impairing macrophage cholesterol efflux and eliciting inflammation (vol 32C, pg 91, 2016)
    (2016) AFONSO, Milessa Silva; LAVRADOR, Maria Silvia Ferrari; KOIKE, Marcia Kiyomi; CINTRA, Dennys Esper; FERREIRA, Fabiana Dias; NUNES, Valeria Sutti; CASTILHO, Gabriela; GIOIELLI, Luiz Antonio; BOMBO, Renata Paula; CATANOZI, Sergio; CALDINI, Elia Garcia; DAMACENO-RODRIGUES, Nilsa Regina; PASSARELLI, Marisa; NAKANDAKARE, Edna Regina; LOTTENBERG, Ana Maria
  • bookPart
    Distúrbios do Metabolismo Lipídico
    (2016) NAKANDAKARE, Edna Regina; PASSARELLI, Marisa; QUINTãO, Eder C. R.
  • conferenceObject
    LOW-SALT DIET INDUCES ATHEROSCLEROSIS INDEPENDENT OF LOWERING BLOOD PRESSURE IN HYPERTENSIVE MICE
    (2016) CATANOZI, S.; FUSCO, F.; GOMES, D.; BISPO, K.; TOLEDO, V.; BARBEIRO, D.; CAPELOZZI, V.; FURUKAWA, L.; VELOSA, A. P.; TEODORO, W.; HEIMANN, J.; QUINTAO, E.; PASSARELLI, M.; NAKANDAKARE, E.
  • article 16 Citação(ões) na Scopus
    Glycated albumin induces lipid infiltration in mice aorta independently of DM and RAS local modulation by inducing lipid peroxidation and inflammation
    (2016) GOMES, Diego Juvenal; VELOSA, Ana Paula; OKUDA, Ligia Shimabukuro; FUSCO, Fernanda Bueno; SILVA, Karolinne Santana da; PINTO, Paula Ramos; NAKANDAKARE, Edna Regina; CORREA-GIANNELLA, Maria Lucia; WOODS, Tom; BRIMBLE, Margaret Anne; PICKFORD, Russell; RYE, Kerry-Anne; TEODORO, Walcy Rosolia; CATANOZI, Sergio; PASSARELLI, Marisa
    Aims: Advanced glycated albumin (AGE-albumin) adversely impairs macrophage lipid homeostasis in vitro, which may be prevented by angiotensin receptor blockers. In vivo studies are inconclusive whether AGE-albumin itself plays important role in early-stage atherogenesis. We aimed at investigating how AGE-albumin by itself drives atherosclerosis development in dyslipidemic non-diabetic mice and if its effects are due to the activation of renin-angiotensin system in the arterial wall and the expression of genes and proteins involved in lipid flux. Methods and results: Murine albumin glycation was induced by incubation with 10 mM glycolaldehyde and C-albumin with PBS alone. Twelve-week-old-male apoE knockout mice were submitted to a daily IP injection of control (C) or AGE-albumin (2 mg/mL) during 30 days with or without losartan (LOS: 100 mg/L; C + LOS and AGE + LOS). Aortic arch was removed, and gene expression was determined by RT-PCR and protein content by immunofluorescence. Plasma lipid and glucose levels were similar among groups. Systolic blood pressure was similarly reduced in both groups treated with LOS. In comparison to C-albumin, aortic lipid infiltration was 5.3 times increased by AGE-albumin, which was avoided by LOS. LOS prevented the enhancement induced by AGE-albumin in Ager, Tnf and Cybb mRNA levels but did not reduce Olrl. Nfkb and Agt mRNA levels were unchanged by AGE-albumin. LOS similarly reduced Agtri a mRNA level in both C and AGE-albumin groups. In AGE-albumin-treated mice, immunofluorescence for carboxymethyl-lysine, 4-hydroxynonenal and RAGE was respectively, 4.8, 2.6 and 1.7 times enhanced in comparison to C-albumin. These increases were all avoided by LOS. Conclusions: AGE-albumin evokes a pre-stage of atherogenesis in dyslipidemic mice independently of the presence of diabetes mellitus or modulation in the RAS in part by the induction of lipid peroxidation and inflammation.