FRANCISCO RAFAEL MARTINS LAURINDO

(Fonte: Lattes)
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Instituto do Coração, Hospital das Clínicas, Faculdade de Medicina
LIM/64, Hospital das Clínicas, Faculdade de Medicina - Líder

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Autor e Coautores FMUSP-HC Normalizados: LEONARDO YUJI TANAKA ×

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  • conferenceObject
    Early exposure to high-sucrose diet triggers hippocampal endoplasmic reticulum-stress in young rats
    (2016) PAES, Antonio Marcus de Andrade; PINTO, Bruno Araujo Serra; MELO, Thamys Marinho; FLISTER, Karla Frida Torres; FRANCA, Lucas Martins; TANAKA, Leonardo Yudi; LAURINDO, Francisco Rafael Martins
  • article 65 Citação(ões) na Scopus
    Red wine and equivalent oral pharmacological doses of resveratrol delay vascular aging but do not extend life span in rats
    (2012) LUZ, Protasio L. da; TANAKA, Leonardo; BRUM, Patricia Chakur; DOURADO, Paulo Magno Martins; FAVARATO, Desiderio; KRIEGER, Jose Eduardo; LAURINDO, Francisco Rafael M.
    Objective: To investigate, in male Wistar rats, the effects of long-term moderate red wine (RW) consumption (equivalent to similar to 0.15 mg% resveratrol RS), or RS in low (L, 0.15 mg%) or high (H, 400 mg%) doses in chow. Background: Both RW and RS exhibit cardioprotection. RS extends lifespan in obese rats. It is unclear whether RW consumption or low-dose RS delay vascular aging and prolong life span in the absence of overt risk factors. Methods: Endpoints were aerobic performance, exercise capacity, aging biomarkers (p53,p16,p21, telomere length and telomerase activity in aortic homogenates), vascular reactivity. Data were compared with controls (C) given regular chow. Results: Expressions of p53 decreased similar to 50% similar to with RW and LRS (p < 0.05 vs. C), p16 by similar to 29% with RW (p < 0.05 vs. C) and p21 was unaltered. RW and LRS increased telomere length >6.5-fold vs. C, and telomerase activity increased with LRS and HRS. All treatments increased aerobic capacity (C 32.5 +/- 1.2, RW 38.7 + 1.7, LRS 38.5 + 1.6, HRS 38.3 + 1.8 mlO2 min(-1) kg(-1)), and RW or LRS also improved time of exercise tolerance vs. C (p < 0.05). Endothelium-dependent relaxation improved with all treatments vs. C. Life span, however, was unaltered with each treatment vs. C = 673 +/- 30 days, p = NS. Conclusions: RW and LRS can preserve vascular function indexes in normal rats, although not extending life span. These effects were translated into better aerobic performance and exercise capacity.
  • article 16 Citação(ões) na Scopus
    Conserved Gene Microsynteny Unveils Functional Interaction Between Protein Disulfide Isomerase and Rho Guanine-Dissociation Inhibitor Families
    (2017) MORETTI, Ana I. S.; PAVANELLI, Jessyca C.; NOLASCO, Patricia; LEISEGANG, Matthias S.; TANAKA, Leonardo Y.; FERNANDES, Carolina G.; WOSNIAK JR., Joao; KAJIHARA, Daniela; DIAS, Matheus H.; FERNANDES, Denise C.; JO, Hanjoong; Ngoc-Vinh Tran; EBERSBERGER, Ingo; BRANDES, Ralf P.; BONATTO, Diego; LAURINDO, Francisco R. M.
    Protein disulfide isomerases (PDIs) support endoplasmic reticulum redox protein folding and cell-surface thiol-redox control of thrombosis and vascular remodeling. The family prototype PDIA1 regulates NADPH oxidase signaling and cytoskeleton organization, however the related underlying mechanisms are unclear. Here we show that genes encoding human PDIA1 and its two paralogs PDIA8 and PDIA2 are each flanked by genes encoding Rho guanine-dissociation inhibitors (GDI), known regulators of RhoGTPases/cytoskeleton. Evolutionary histories of these three microsyntenic regions reveal their emergence by two successive duplication events of a primordial gene pair in the last common vertebrate ancestor. The arrangement, however, is substantially older, detectable in echinoderms, nematodes, and cnidarians. Thus, PDI/RhoGDI pairing in the same transcription orientation emerged early in animal evolution and has been largely maintained. PDI/RhoGDI pairs are embedded into conserved genomic regions displaying common cis-regulatory elements. Analysis of gene expression datasets supports evidence for PDI/RhoGDI coexpression in developmental/inflammatory contexts. PDIA1/RhoGDIa were co-induced in endothelial cells upon CRISP-R-promoted transcription activation of each pair component, and also in mouse arterial intima during flow-induced remodeling. We provide evidence for physical interaction between both proteins. These data support strong functional links between PDI and RhoGDI families, which likely maintained PDI/RhoGDI microsynteny along > 800-million years of evolution.
  • conferenceObject
    Peri/epicellular protein disulfide isomerase PDI acts as an organizer of cytoskeletal mechanoadaptation in vascular smooth muscle cells
    (2018) TANAKA, Leonardo Yuji; ARAUJO, Thais Larissa; RODRIGUEZ, Andres Ignacio; FERRAZ, Mariana Sacrini Ayres; PELEGATI, Vitor Bianchin; SANTOS, Aline Mara; CESAR, Carlos Lens; ALENCAR, Adriano Mesquita; LAURINDO, Francisco Rafael Martins
  • conferenceObject
    Peri/epicellular Protein Disulfide Isomerase Reshapes Vascular Architecture to Counteracts Constrictive Remodeling
    (2014) TANAKA, Leonardo Yuji; ARAUJO, Haniel Alves; HIRONAKA, Gustavo Ken; ARAUJO, Thais Larissa; RODRIGUEZ, Andres Ignacio; CASAGRANDE, Annelise Silva; TAKIMURA, Celso Kiyoshi; LAURINDO, Francisco Rafael
  • article 11 Citação(ões) na Scopus
    Hyperbaric oxygenation improves redox control and reduces mortality in the acute phase of myocardial infarction in a rat model
    (2020) OLIVEIRA, Mario S.; TANAKA, Leonardo Y.; ANTONIO, Ednei L.; I, Laura Brandizzi; SERRA, Andrey J.; SANTOS, Leonardo Dos; KRIEGER, Jose E.; LAURINDO, Francisco R. M.; TUCCI, Paulo J. F.
    Among the mechanisms of action of hyperbaric oxygenation (HBO), the chance of reducing injury by interfering with the mechanisms of redox homeostasis in the heart leads to the possibility of extending the period of viability of the myocardium at risk. This would benefit late interventions for reperfusion to the ischemic area. The objective of the present study was to investigate the changes in the redox system associated with HBO therapy maintained during the first hour after coronary occlusion in an acute myocardial infarction (MI) rat model. Surviving male rats (n=105) were randomly assigned to one of three groups: Sham (SH=26), myocardial infarction (MI=45) and infarction+hyperbaric therapy (HBO=34, 1 h at 2.5 atm). After 90 min of coronary occlusion, a sample of the heart was collected for western blot analysis of total protein levels of superoxide dismutase, catalase, peroxiredoxin and 3-nitrotyrosine. Glutathione was measured by enzyme-linked immunosorbent assay (ELISA). The detection of the superoxide radical anion was carried out by oxidation of dihydroethidium analyzed with confocal microscopy. The mortality rate of the MI group was significantly higher than that of the HBO group. No difference was noted in the myocardial infarction size. The oxidized/reduced glutathione ratio and peroxiredoxin were significantly higher in the SH and MI when compared to the HBO group. Superoxide dismutase enzymes and catalase were significantly higher in the HBO group compared to the MI and SH groups. 3-Nitrotyrosine and the superoxide radical were significantly lower in the HBO group compared to these in the MI and SH groups. These data demonstrated that hyperbaric oxygenation therapy decreased mortality by improving redox control in the hearts of rats in the acute phase of myocardial infarction.
  • article 34 Citação(ões) na Scopus
    Peri/Epicellular Protein Disulfide Isomerase Sustains Vascular Lumen Caliber Through an Anticonstrictive Remodeling Effect
    (2016) TANAKA, Leonardo Y.; ARAUJO, Haniel A.; HIRONAKA, Gustavo K.; ARAUJO, Thais L. S.; TAKIMURA, Celso K.; RODRIGUEZ, Andres I.; CASAGRANDE, Annelise S.; GUTIERREZ, Paulo S.; LEMOS-NETO, Pedro Alves; LAURINDO, Francisco R. M.
    Whole-vessel remodeling critically determines lumen caliber in vascular (patho)physiology, and it is reportedly redox-dependent. We hypothesized that the cell-surface pool of the endoplasmic reticulum redox chaperone protein disulfide isomerase-A1 (peri/epicellular=pecPDI), which is known to support thrombosis, also regulates disease-associated vascular architecture. In human coronary atheromas, PDI expression inversely correlated with constrictive remodeling and plaque stability. In a rabbit iliac artery overdistension model, there was unusually high PDI upregulation (approximate to 25-fold versus basal, 14 days postinjury), involving both intracellular and pecPDI. PecPDI neutralization with distinct anti-PDI antibodies did not enhance endoplasmic reticulum stress or apoptosis. In vivo pecPDI neutralization with PDI antibody-containing perivascular gel from days 12 to 14 post injury promoted 25% decrease in the maximally dilated arteriographic vascular caliber. There was corresponding whole-vessel circumference loss using optical coherence tomography without change in neointima, which indicates constrictive remodeling. This was accompanied by decreased hydrogen peroxide generation. Constrictive remodeling was corroborated by marked changes in collagen organization, that is, switching from circumferential to radial fiber orientation and to a more rigid fiber type. The cytoskeleton architecture was also disrupted; there was a loss of stress fiber coherent organization and a switch from thin to medium thickness actin fibers, all leading to impaired viscoelastic ductility. Total and PDI-associated expressions of 1-integrin, and levels of reduced cell-surface 1-integrin, were diminished after PDI antibody treatment, implicating 1-integrin as a likely pecPDI target during vessel repair. Indeed, focal adhesion kinase phosphorylation, a downstream 1-integrin effector, was decreased by PDI antibody. Thus, the upregulated pecPDI pool tunes matrix/cytoskeleton reshaping to counteract inward remodeling in vascular pathophysiology.
  • article 1 Citação(ões) na Scopus
    Evidence for a protective role of Protein Disulfide Isomerase-A1 against aortic dissection
    (2023) PORTO, Fernando Garcez; TANAKA, Leonardo Yuji; BESSA, Tiphany Coralie de; OLIVEIRA, Percillia Victoria Santos; SOUZA, Julia Martins Felipe de; KAJIHARA, Daniela; FERNANDES, Carolina Goncalves; SANTOS, Patricia Nolasco; LAURINDO, Francisco Rafael Martins
    Background and aims: Redox signaling is involved in the pathophysiology of aortic aneurysm/dissection. Protein Disulfide Isomerases and its prototype PDIA1 are thiol redox chaperones mainly from endoplasmic reticulum (ER), while PDIA1 cell surface pool redox-regulates thrombosis, cytoskeleton remodeling and integrin activation, which are mechanisms involved in aortic disease. Here we investigate the roles of PDIA1 in aortic dissection. Methods: Initially, we assessed the outcome of aortic aneurysm/dissection in transgenic PDIA1-overexpressing FVB mice using a model of 28-day exposure to lysyl oxidase inhibitor BAPN plus angiotensin-II infusion. In a second protocol, we assessed the effects of PDIA1 inhibitor isoquercetin (IQ) against aortic dissection in C57BL/6 mice exposed to BAPN for 28 days. Results: Transgenic PDIA1 overexpression associated with ca. 50% (p = 0.022) decrease (vs.wild-type) in mor-tality due to abdominal aortic rupture and protected against elastic fiber breaks in thoracic aorta. Conversely, exposure of mice to IQ increased thoracic aorta dissection-related mortality rates, from ca. 18%-50% within 28-days (p = 0.019); elastic fiber disruption and collagen deposition were also enhanced. The structurally-related compound diosmetin, which does not inhibit PDI, had negligible effects. In parallel, stretch-tension curves indicated that IQ amplified a ductile-type of biomechanical failure vs. control or BAPN-exposed mice aortas. IQ-induced effects seemed unassociated with nonspecific antioxidant effects or ER stress. In both models, echo-cardiographic analysis of surviving mice suggested that aortic rupture was dissociated from progressive dilatation. Conclusions: Our data indicate a protective role of PDIA1 against aortic dissection/rupture and potentially un-covers a novel integrative mechanism coupling redox and biomechanical homeostasis in vascular remodeling.
  • article 17 Citação(ões) na Scopus
    PDIA1 acts as master organizer of NOX1/NOX4 balance and phenotype response in vascular smooth muscle
    (2021) FERNANDES, Denise C.; JR, Joao Wosniak; GONCALVES, Renata C.; TANAKA, Leonardo Y.; FERNANDES, Carolina G.; ZANATTA, Daniela B.; MATTOS, Ana Barbosa M. de; STRAUSS, Bryan E.; LAURINDO, Francisco R. M.
    Changes in vascular smooth muscle cell (VSMC) phenotype underlie disease pathophysiology and are strongly regulated by NOX NADPH oxidases, with NOX1 favoring synthetic proliferative phenotype and NOX4 supporting differentiation. Growth factor-triggered NOX1 expression/activity strictly depends on the chaperone oxidoreductase protein disulfide isomerase-A1 (PDIA1). Intracellular PDIA1 is required for VSMC migration and cytoskeleton organization, while extracellular PDIA1 fine-tunes cytoskeletal mechanoadaptation and vascular remodeling. We hypothesized that PDIA1 orchestrates NOX1/NOX4 balance and VSMC phenotype. Using an inducible PDIA1 overexpression model in VSMC, we showed that early PDIA1 overexpression (for 24-48 h) increased NOX1 expression, hydrogen peroxide steady-state levels and spontaneous VSMC migration distances. Sustained PDIA1 overexpression for 72 h and 96 h supported high NOX1 levels while also increasing NOX4 expression and, remarkably, switched VSMC phenotype to differentiation. Differentiation was preceded by increased nuclear myocardin and serum response factor-response element activation, with no change in cell viability. Both NOX1 and hydrogen peroxide were necessary for later PDIA1-induced VSMC differentiation. In primary VSMC, PDIA1 knockdown decreased nuclear myocardin and increased the proliferating cell nuclear antigen expression. Newly-developed PDIA1 -overexpressing mice (TgPDIA1) exhibited normal general and cardiovascular baseline phenotypes. However, in TgPDIA1 carotids, NOX1 was decreased while NOX4 and calponin expressions were enhanced, indicating overdifferentiation vs. normal carotids. Moreover, in a rabbit overdistension injury model during late vascular repair, PDIA1 silencing impaired VSMC redifferentiation and NOX1/NOX4 balance. Our results suggest a model in which PDIA1 acts as an upstream organizer of NOX1/NOX4 balance and related VSMC phenotype, accounting for baseline differentiation setpoint.
  • article 28 Citação(ões) na Scopus
    Early and sustained exposure to high-sucrose diet triggers hippocampal ER stress in young rats
    (2016) PINTO, Bruno Araujo Serra; MELO, Thamys Marinho; FLISTER, Karla Frida Torres; FRANCA, Lucas Martins; KAJIHARA, Daniela; TANAKA, Leonardo Yuji; LAURINDO, Francisco Rafael Martins; PAES, Antonio Marcus de Andrade
    Early-life environmental insults have been shown to promote long-term development of chronic non-communicable diseases, including metabolic disturbances and mental illnesses. As such, premature consumption of high-sugar foods has been associated to early onset of detrimental outcomes, whereas underlying mechanisms are still poorly understood. In the present study, we sought to investigate whether early and sustained exposure to high-sucrose diet promotes metabolic disturbances that ultimately might anticipate neurological injuries. At postnatal day 21, weaned male rats started to be fed a standard chow (10 % sucrose, CTR) or a high-sucrose diet (25 % sucrose, HSD) for 9 weeks prior to euthanasia at postnatal day 90. HSD did not alter weight gain and feed efficiency between groups, but increased visceral, non-visceral and brown adipose tissue accumulation. HSD rats demonstrated elevated blood glucose levels in both fasting and fed states, which were associated to impaired glucose tolerance. Peripheral insulin sensitivity did not change, whereas hepatic insulin resistance was supported by increased serum triglyceride levels, as well as higher TyG index values. Assessment of hippocampal gene expression showed endoplasmic reticulum (ER) stress pathways were activated in HSD rats, as compared to CTR. HSD rats had overexpression of unfolded protein response sensors, PERK and ATF6; ER chaperone, PDIA2 and apoptosis-related genes, CHOP and Caspase 3; but decreased expression of chaperone GRP78. Finally, HSD rats demonstrated impaired neuromuscular function and anxious behavior, but preserved cognitive parameters. In conclusion, our data indicate that early exposure to HSD promote metabolic disturbances, which disrupt hippocampus homeostasis and might precociously affect its neurobehavioral functions.