Your search keyword '"Selma-Soriano E"' showing total 3 results

1. Rabphilin silencing causes dilated cardiomyopathy in a Drosophila model of nephrocyte damage.

Author

Selma-Soriano E, Casillas-Serra C, Artero R, Llamusi B, Navarro JA, and Redón J

Subjects

Animals, Cardiomyopathy, Dilated genetics, Drosophila Proteins genetics, Gene Silencing, Nerve Tissue Proteins genetics

Abstract

Heart failure (HF) and the development of chronic kidney disease (CKD) have a direct association. Both can be cause and consequence of the other. Many factors are known, such as diabetes or hypertension, which can lead to the appearance and/or development of these two conditions. However, it is suspected that other factors, namely genetic ones, may explain the differences in the manifestation and progression of HF and CKD among patients. One candidate factor is Rph, a gene expressed in the nervous and excretory system in mammals and Drosophila, encoding a Rab small GTPase family effector protein implicated in vesicular trafficking. We found that Rph is expressed in the Drosophila heart, and the silencing of Rph gene expression in this organ had a strong impact in the organization of fibers and functional cardiac parameters. Specifically, we observed a significant increase in diastolic and systolic diameters of the heart tube, which is a phenotype that resembles dilated cardiomyopathy in humans. Importantly, we also show that silencing of Rabphilin (Rph) expression exclusively in the pericardial nephrocytes, which are part of the flies' excretory system, brings about a non-cell-autonomous effect on the Drosophila cardiac system. In summary, in this work, we demonstrate the importance of Rph in the fly cardiac system and how silencing Rph expression in nephrocytes affects the Drosophila cardiac system., (© 2021. The Author(s).)

Published

2021

2. Rabphilin involvement in filtration and molecular uptake in Drosophila nephrocytes suggests a similar role in human podocytes.

Author

Selma-Soriano E, Llamusi B, Fernández-Costa JM, Ozimski LL, Artero R, and Redón J

Subjects

Animals, Cell Lineage drug effects, Cytoplasmic Vesicles drug effects, Cytoplasmic Vesicles metabolism, Drosophila melanogaster drug effects, Endocytosis drug effects, Female, Humans, Larva cytology, Larva drug effects, Podocytes cytology, Podocytes drug effects, Podocytes ultrastructure, Protein Transport drug effects, RNA Interference, Silver Nitrate toxicity, Survival Analysis, Tretinoin metabolism, Drosophila Proteins metabolism, Drosophila melanogaster metabolism, Intracellular Signaling Peptides and Proteins metabolism, Nerve Tissue Proteins metabolism, Podocytes metabolism

Abstract

Drosophila nephrocytes share functional, structural and molecular similarities with human podocytes. It is known that podocytes express the rabphilin 3A ( RPH3A ) - RAB3A complex, and its expression is altered in mouse and human proteinuric disease. Furthermore, we previously identified a polymorphism that suggested a role for RPH3A protein in the development of urinary albumin excretion. As endocytosis and vesicle trafficking are fundamental pathways for nephrocytes, the objective of this study was to assess the role of the RPH3A orthologue in Drosophila , Rabphilin ( Rph ), in the structure and function of nephrocytes. We confirmed that Rph is required for the correct function of the endocytic pathway in pericardial Drosophila nephrocytes. Knockdown of Rph reduced the expression of the cubilin and stick and stones genes, which encode proteins that are involved in protein uptake and filtration. We also found that reduced Rph expression resulted in a disappearance of the labyrinthine channel structure and a reduction in the number of endosomes, which ultimately leads to changes in the number and volume of nephrocytes. Finally, we demonstrated that the administration of retinoic acid to IR-Rph nephrocytes rescued some altered aspects, such as filtration and molecular uptake, as well as the maintenance of cell fate. According to our data, Rph is crucial for nephrocyte filtration and reabsorption, and it is required for the maintenance of the ultrastructure, integrity and differentiation of the nephrocyte., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2020. Published by The Company of Biologists Ltd.)

Published

2020

3. Optical Cross-Sectional Muscle Area Determination of Drosophila Melanogaster Adult Indirect Flight Muscles.

Author

Selma-Soriano E, Artero R, and Llamusi B

Subjects

Animals, Cross-Sectional Studies, Muscles pathology, Drosophila Proteins genetics, Drosophila melanogaster physiology, Muscles surgery

Abstract

Muscle mass wasting, known as muscle atrophy, is a common phenotype in Drosophila models of neuromuscular diseases. We have used the indirect flight muscles (IFMs) of flies, specifically the dorso-longitudinal muscles (DLM), as the experimental subject to measure the atrophic phenotype brought about by different genetic causes. In this protocol, we describe how to embed fly thorax muscles for semi thin sectioning, how to obtain a good contrast between muscle and the surrounding tissue, and how to process optical microscope images for semiautomatic acquisition of quantifiable data and analysis. We describe three specific applications of the methodological pipeline. First, we show how the method can be applied to quantify muscle degeneration in a myotonic dystrophy fly model; second, measurement of muscle cross-sectional area can help to identify genes that either promote or prevent muscle atrophy and/or muscle degeneration; third, this protocol can be applied to determine whether a candidate compound is able to significantly modify a given atrophic phenotype induced by a disease-causing mutation or by an environmental trigger.

Published

2018