Your search keyword '"Donato Zipeto"' showing total 3 results

1. Advanced Cellular Models for Rare Disease Study: Exploring Neural, Muscle and Skeletal Organoids

Author

Cristina Bombieri, Andrea Corsi, Elisabetta Trabetti, Alessandra Ruggiero, Giulia Marchetto, Gaetano Vattemi, Maria Teresa Valenti, Donato Zipeto, and Maria Grazia Romanelli

Subjects

organoids, iPSC, 3D cell culture, CRISPR/Cas9, rare diseases, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Organoids are self-organized, three-dimensional structures derived from stem cells that can mimic the structure and physiology of human organs. Patient-specific induced pluripotent stem cells (iPSCs) and 3D organoid model systems allow cells to be analyzed in a controlled environment to simulate the characteristics of a given disease by modeling the underlying pathophysiology. The recent development of 3D cell models has offered the scientific community an exceptionally valuable tool in the study of rare diseases, overcoming the limited availability of biological samples and the limitations of animal models. This review provides an overview of iPSC models and genetic engineering techniques used to develop organoids. In particular, some of the models applied to the study of rare neuronal, muscular and skeletal diseases are described. Furthermore, the limitations and potential of developing new therapeutic approaches are discussed.

Published

2024

2. Increased Prevalence of Unstable HLA-C Variants in HIV-1 Rapid-Progressor Patients

Author

Chiara Stefani, Antonella Sangalli, Elena Locatelli, Tania Federico, Giovanni Malerba, Maria Grazia Romanelli, Gustavo Adolfo Argañaraz, Bosco Christiano Maciel Da Silva, Alberto Jose Duarte Da Silva, Jorge Casseb, Enrique Roberto Argañaraz, Alessandra Ruggiero, and Donato Zipeto

Subjects

AIDS progression, HLA-C stability, HIV-1 infection control, ASPCR, MHC class I, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

HIV-1 infection in the absence of treatment results in progression toward AIDS. Host genetic factors play a role in HIV-1 pathogenesis, but complete knowledge is not yet available. Since less-expressed HLA-C variants are associated with poor HIV-1 control and unstable HLA-C variants are associated with higher HIV-1 infectivity, we investigated whether there was a correlation between the different stages of HIV-1 progression and the presence of specific HLA-C allotypes. HLA-C genotyping was performed using allele-specific PCR by analyzing a treatment-naïve cohort of 96 HIV-1-infected patients from multicentric cohorts in the USA, Canada, and Brazil. HIV-1-positive subjects were classified according to their different disease progression status as progressors (Ps, n = 48), long-term non-progressors (LTNPs, n = 37), and elite controllers (ECs, n = 11). HLA-C variants were classified as stable or unstable according to their binding stability to β2-microglobulin/peptide complex. Our results showed a significant correlation between rapid progression to AIDS and the presence of two or one unstable HLA-C variants (p-value: 0.0078, p-value: 0.0143, respectively). These findings strongly suggest a link between unstable HLA-C variants both at genotype and at allele levels and rapid progression to AIDS. This work provides further insights into the impact of host genetic factors on AIDS progression.

Published

2022

3. Control of the Autophagy Pathway in Osteoarthritis: Key Regulators, Therapeutic Targets and Therapeutic Strategies

Author

Maria Teresa Valenti, Luca Dalle Carbonare, Donato Zipeto, and Monica Mottes

Subjects

mesenchimal stem cells, chondrocytic commitment, autophagy, osteoarthritis, miRNAs, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Autophagy is involved in different degenerative diseases and it may control epigenetic modifications, metabolic processes, stem cells differentiation as well as apoptosis. Autophagy plays a key role in maintaining the homeostasis of cartilage, the tissue produced by chondrocytes; its impairment has been associated to cartilage dysfunctions such as osteoarthritis (OA). Due to their location in a reduced oxygen context, both differentiating and mature chondrocytes are at risk of premature apoptosis, which can be prevented by autophagy. AutophagomiRNAs, which regulate the autophagic process, have been found differentially expressed in OA. AutophagomiRNAs, as well as other regulatory molecules, may also be useful as therapeutic targets. In this review, we describe and discuss the role of autophagy in OA, focusing mainly on the control of autophagomiRNAs in OA pathogenesis and their potential therapeutic applications.

Published

2021