Your search keyword '"Fernando Alves de Lima Franco"' showing total 5 results

1. Leishmania (L.) amazonensis LaLRR17 increases parasite entry in macrophage by a mechanism dependent on GRP78

Author

Mauricio S. Peña, Fenny Hui Fen Tang, Fernando Alves de Lima Franco, Alessandro Taunay Rodrigues, Guilherme Moreira Paiva Carrara, Thaís Larissa Silva Araujo, Ricardo José Giordano, Giuseppe Palmisano, Maristela Martins de Camargo, Silvia Reni Bortolin Uliana, and Beatriz Simonsen Stolf

Subjects

GRP78, infection, LaLRR17, Leishmania (L.) amazonensis, macrophage, phagocytosis, Biochemistry, QD415-436, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

Leishmaniases affect 12 million people worldwide. They are caused by Leishmania spp., protozoan parasites transmitted to mammals by female phlebotomine flies. During the life cycle, promastigote forms of the parasite live in the gut of infected sandflies and convert into amastigotes inside the vertebrate macrophages. The parasite evades macrophage's microbicidal responses due to virulence factors that affect parasite phagocytosis, survival and/or proliferation. The interaction between Leishmania and macrophage molecules is essential to phagocytosis and parasite survival. Proteins containing leucine-rich repeats (LRRs) are common in several organisms, and these motifs are usually involved in protein–protein interactions. We have identified the LRR17 gene, which encodes a protein with 6 LRR domains, in the genomes of several Leishmania species. We show here that promastigotes of Leishmania (L.) amazonensis overexpressing LaLRR17 are more infective in vitro. We produced recombinant LaLRR17 protein and identified macrophage 78 kDa glucose-regulated protein (GRP78) as a ligand for LaLRR17 employing affinity chromatography followed by mass spectrometry. We showed that GRP78 binds to LaLRR17 and that its blocking precludes the increase of infection conferred by LaLRR17. Our results are the first to report LRR17 gene and protein, and we hope they stimulate further studies on how this protein increases phagocytosis of Leishmania.

Published

2023

2. O-Alkyl Hydroxamates Display Potent and Selective Antileishmanial Activity

Author

Yudibeth Sixto-López, Margarita López-Viota, Sonia Panadero-Fajardo, Mavys Tabraue-Chávez, Mónica Díaz-Gavilán, José Pérez del Palacio, José Correa-Basurto, Joaquina Martín-Sánchez, Mercedes de la Cruz, Fernando Alves de Lima Franco, Nuria de Pedro, José F. Domínguez-Seglar, Victoriano Corpas-López, Francisco Franco-Montalban, Francisco Morillas-Márquez, Julian Lopez-Viota, and José A. Gómez-Vidal

Subjects

chemistry.chemical_classification, 0303 health sciences, biology, Chemistry, Meglumine antimoniate, Leishmania, biology.organism_classification, medicine.disease, 01 natural sciences, In vitro, 0104 chemical sciences, Amino acid, 010404 medicinal & biomolecular chemistry, 03 medical and health sciences, Docking (dog), Biochemistry, In vivo, parasitic diseases, Drug Discovery, medicine, Canine leishmaniasis, Molecular Medicine, Amastigote, 030304 developmental biology, medicine.drug

Abstract

Leishmania (L.) infantum causes visceral, cutaneous, and mucosal leishmaniasis in humans and canine leishmaniasis in dogs. Herein, we describe that O-alkyl hydroxamate derivatives displayed potent and selective in vitro activity against the amastigote stage of L. infantum while no activity was observed against promastigotes. Compound 5 showed potent in vivo activity against L. infantum. Moreover, the combination of compound 5 supported on gold nanoparticles and meglumine antimoniate was also effective in vivo and improved the activity of these compounds compared to that of the individual treatment. Docking studies showed that compound 5 did not reach highly conserved pocket C and established interactions with the semiconserved residues V44, A45, R242, and E243 in pocket A of LiSIR2rp1. The surface space determined by these four amino acids is not conserved in human sirtuins. Compound 5 represents a new class of selective ligands with antileishmanial activity.

Published

2020

3. Genetic structure of Phlebotomus (Larroussius) ariasi populations, the vector of Leishmania infantum in the western Mediterranean: Epidemiological implications

Author

Jérôme Depaquit, Montserrat Gállego, Joaquina Martín-Sánchez, Souad Guernaoui, Carlos Alves-Pires, Ricardo Molina, S. D. Barón, Victoriano Díaz, Rosa Gálvez, M. Odette Afonso, Fernando Alves de Lima Franco, Azzedine Bounamous, Francisco Morillas-Márquez, Bernard Pesson, and Manuel Morales-Yuste

Subjects

Male, Lineage (genetic), Range (biology), Molecular Sequence Data, Population genetics, Phlebotomus chadla, Animals, Humans, Amino Acid Sequence, Phlebotomus, Psychodidae, Lineages, Leishmania infantum, Phylogeny, Genetics, Base Sequence, biology, Mediterranean Region, Populations, Haplotype, Cytochromes b, biology.organism_classification, Insect Vectors, Infectious Diseases, Haplotypes, Mitochondrial gene Cyt b, Evolutionary biology, Genetic structure, Insect Proteins, Leishmaniasis, Visceral, Phlebotomus (Larroussius) anasi, Female, Parasitology

Abstract

In recent years there has been growing interest in analyzing the geographical variations between populations of different Phlebotomus spp. by comparing the sequences of various genes However, little is known about the genetic structure of Phlebotonnis arias,. In this study, we were able to sequence a fragment of the mitochondrial Cyt b gene in 133 sandflies morphologically identified as P anasi and proceeding from a wide geographical range covering 35 locations in 11 different regions from five countries. The intra-specific diversity of P. anasi is high, with 45 haplotypes differing from each other by one to 26 bases and they are distributed in two mitochondria' lineages, one limited geographically to Algeria and the other widely dispersed across Mediterranean countries The Algerian lineage is characterized by having 13 fixed polymorphisms and is made up of one sole haplotype. The European/Moroccan P. anasz lineage is characterized by being made up of a great diversity of haplotypes (44) which display some geographical structuring. This could be one of the multiple factors involved in the epidemiological heterogeneity of the foci of leishmaniasis Phlebotomus choral, is the sister group of European/Moroccan P. anasi. The separation of the Algerian haplotype, H45, from the rest of the specimens, European/Moroccan P anon and P chadln, is well supported by the bootstrap analysis (C) 2010 Australian Society for Parasitology Inc. Published by Elsevier Ltd. All rights reserved.

Published

2010

4. Caracterização da região genômica META 1 de Leishmania (Leishmania) amazonensis e comparação com a região ortóloga de L. (L.) major

Author

Fernando Alves de Lima Franco, Silvia Reni Bortolin Uliana, Marcello Andre Barcinski, Luiz Ricardo Orsini Tosi, Carlos Eduardo Winter, and Nobuko Yoshida

Abstract

A caracterização de sequências codificadoras presentes nas vizinhanças do gene META 1 permitiu a identificação de alguns genes expressos preferencialmente em estágios infectivos de L. (L.) amazonensis. Um dos genes presentes é regulado de forma distinta, observando-se maior abundância do RNA em formas amastigotas. Este gene foi denominado LaLRR17 por codificar uma proteína contendo em sua região central 6 repetições ricas em leucina (LRR). As LRR são motivos presentes em diversas famílias de proteínas e são responsáveis pela formação de uma estrutura capaz de estabelecer interações protéicas. A região central da proteína LRR17 apresentou similaridade com a porção carboxi-terminal da proteína NOD 3 humana. A proteína LRR17 foi localizada no citosol de macrófagos infectados com L. (L.) amazonensis. Para caracterizar a função da proteína LRR17 foram obtidas linhagens de L. (L.) amazonensis expressoras do gene LmjLRR17. Essas linhagens mutantes foram mais infectivas em macrófagos in vitro quando comparadas com a linhagem selvagem. Avaliamos também o papel das proteínas NOD 1 e NOD 2 na infecção por L. (L.) amazonensis e L. (L.) major para estabelecer a possível relação da proteína LRR17 na interação com essas vias de defesa celular do macrófago. The characterization of coding sequences in the vicinity of the META 1 gene allowed the identification of some genes preferentially expressed in L. (L.) amazonensis infective stages. One of the identified transcripts presents a distinct pattern of expression with higher levels of mRNA in amastigotes. This gene was named LaLRR17 since it encodes a 72 kDa protein with 6 leucine-rich repeats (LRR) in its central region. Leucine-rich repeats (LRR) are present in several families of proteins and are responsible for the formation of a structure capable of establishing protein interactions. The central region of the LRR17 protein showed similarity with the carboxyl-terminal portion of the NOD 3 human protein. The LaLRR17 protein is secreted to the cytoplasm of L. (L.) amazonensis-infected macrophages. To characterize the function of the LRR17 protein we obtained strains of L. (L.) amazonensis expressing the LmjLRR17 gene. These mutant strains were more infective to macrophages in vitro when compared with the wild type strain. We also evaluated the role of NOD 1 and NOD 2 proteins in infections with L. (L.) amazonensis and L. (L.) major to investigate a possible role of the LRR17 protein in the interaction with these defense pathways in macrophages.

Published

2015

5. Climate change and infectious diseases in Europe: leishmaniasis and its vectors in Spain

Author

Fernando Alves de Lima Franco, Maria Cesárea Sanchís-Marín, Sergio Barón-López, Victoriano Díaz-Sáez, Manuel Morales-Yuste, Joaquina Martín-Sánchez, and Francisco Morillas-Márquez

Subjects

Infectious Diseases, Geography, biology, Environmental protection, medicine, Climate change, Leishmaniasis, Ecosystem, Psychodidae, Socioeconomics, medicine.disease, biology.organism_classification

Published

2010