Julieta Gasparri scite author profile

Julieta Gasparri

4Publications

65Citation Statements Received

58Citation Statements Given

How they've been cited

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129

Affiliations

Consejo Nacional de Investigaciones Científicas y Técnicas, National University of Quilmes, University of Buenos Aires

Publications

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Poor glycemic control in type 2 diabetes enhances functional and compositional alterations of small, dense HDL3c

Rosso

Lhomme

Meroño

et al. 2017

Biochimica et Biophysica Acta (BBA) - Molecular and Cell Biolog

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High-density lipoprotein (HDL) possesses multiple biological activities; small, dense HDL3c particles displaying distinct lipidomic composition exert potent antiatherogenic activities which can be compromised in dyslipidemic, hyperglycemic insulin-resistant states. However, it remains indeterminate (i) whether such functional HDL deficiency is related to altered HDL composition, and (ii) whether it originates from atherogenic dyslipidemia, dysglycemia, or both. In the present work we analyzed compositional characteristics of HDL subpopulations and functional activity of small, dense HDL3c particles in treatment-naïve patients with well-controlled (n=10) and poorly-controlled (n=8) type 2 diabetes (T2D) and in normolipidemic age- and sex-matched controls (n=11). Our data reveal that patients with both well- and poorly-controlled T2D displayed dyslipidemia and low-grade inflammation associated with altered HDL composition. Such compositional alterations in small, dense HDL subfractions were specifically correlated with plasma HbA1c levels. Further analysis using a lipidomic approach revealed that small, dense HDL3c particles from T2D patients with poor glycemic control displayed additional modifications of their chemical composition. In parallel, antioxidative activity of HDL3c towards oxidation of low-density lipoprotein was diminished. These findings indicate that defective functionality of small, dense HDL particles in patients with T2D is not only affected by the presence of atherogenic dyslipidemia, but also by the level of glycemic control, reflecting compositional alterations of HDL.

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Biodistribution of liposome/DNA systems after subcutaneous and intraperitoneal inoculation

Chiaramoni

Gasparri

Speroni

et al. 2009

Journal of Liposome Research

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In this work, we analyzed protein interaction, cell toxicity, and biodistribution of liposome formulation for further possible applications as DNA vehicles in gene-therapy protocols. In relation to protein interaction, cationic liposomes showed the lowest protein interaction, but this parameter was incremented with DNA association. On the other hand, noncharged liposomes presented high protein interaction, but DNA association decreased this parameter. Protein interaction of polymeric liposomes did not change with DNA association. Cell toxicity of these three liposome formulations was low, cell death became present at concentrations higher than 0.5 mg/mL, and these concentrations were higher than those usually used in transfection assays. In the case of noncharged and polymeric liposomes, toxicity increased upon interaction with serum proteins. DNA/liposome-mediated tissue distribution was analyzed in Balb-c female mice. Results indicated that noncharged liposomes were able to deliver DNA to liver after intraperitoneal (i.p.) inoculation, while polymeric liposomes were able to deliver DNA to kidney by using the same inoculation route. Cationic liposomes were able to deliver DNA to a wide range of tissues by the i.p. route (e.g., liver, intestine, kidney, and blood). After subcutaneous inoculation, only cationic liposomes were able to deliver DNA to blood, but not the other two formulations within the detection limits of the method.

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Ultraviolet irradiation of diacetylenic liposomes as a strategy to improve size stability and to alter protein binding without cytotoxicity enhancement

Temprana

Amor

Femia

et al. 2010

Journal of Liposome Research

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Membrane-modification effects, induced by ultraviolet (UV) irradiation in diacetylenic liposomes, were analyzed upon contact with cells, biological membranes, and proteins. Liposomes formulated with mixtures of unsaturated 1,2-bis(10,12-tricosadiynoyl)-sn-glycero-3-phosphocholine and saturated 1,2-dimyristoyl-sn-glycero-3-phosphocholine, in a 1:1 molar ratio, were compared with those that were UV-irradiated and analyzed in several aspects. Membrane polymerization inherence on size stability was studied as well as its impact on mitochondrial and microsomal membrane peroxidation induction, hemolytic activity, and cell viability. Moreover, in order to gain insight about the possible irradiation effect on interfacial membrane properties, interaction with bovine serum albumin (BSA), lysozyme (Lyso), and apolipoprotein (apoA-I) was studied. Improved size stability was found for polymerized liposomes after a period of 30 days at 4°C. In addition, membrane irradiation had no marked effect on cell viability, hemolysis, or induction of microsomal and mitochondrial membrane peroxidation. Interfacial membrane characteristics were found to be altered after polymerization, since a differential protein binding for polymerized or nonpolymerized membranes was observed for BSA and Lyso, but not for apoA-I. The substantial contribution of this work is the finding that even when maintaining the same lipid composition, changes induced by UV irradiation are sufficient to increase size stability and establish differences in protein binding, in particular, reducing the amount of bound Lyso and BSA, without increasing formulation cytotoxicity. This work aimed at showing that the usage of diacetylenic lipids and UV modification of membrane interfacial properties should be strategies to be taken into consideration when designing new delivery systems.

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Alternative site of implantation affects tumor malignancy and metastatic potential in mice: Its comparison to the flank model

Speroni

Bustuoabad²,

Gasparri³

et al. 2009

Cancer Biology & Therapy

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MC-C fibrosarcoma and B16F0 melanoma tumors were implanted intradermally in the dorsal region of the foot of mice. Tumor progression was compared to standard implantation in the flank. Although foot tumors only reached 13% (MC-C) and 25% (B16F0) of the mean volume of flank tumors, a more malignant phenotype in terms of histology and survival rate was observed in this type of tumors. Moreover, lung metastases were only detected in hosts bearing foot tumors, in contrast to MC-C and B16F0 populations with tumors growing in the flank. In addition, cellular influx and local immune reaction were higher in the dorsal region of the foot. According to our results, the dermis of the flank allows excessive tumor growth due to its low reactivity. Thus, differences in innate and adaptive immune effectors between the evaluated tumor microenvironments would account for the differences in tumor malignancy. Due to its striking differences with the standard flank inoculation, the tumor implantation model herein introduced could be a valuable tool to study the metastatic potential of different cell lines and the microenvironment components affecting tumor growth.

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