KEYWORD |
New treatment for Duchenne muscular dystrophy based on zwitterionic polymers to encapsulate Adeno-Associated Virus vectors
Thesis in external company
keywords ADENOVIRUS VECTORS, EXTRACELLULAR VESICLES, NANOMEDICINE, NANOPARTICLES, THESIS ABROAD, USCULAR DYSTROPHIES
Reference persons VALENTINA ALICE CAUDA
External reference persons Prof. Marta Guerra Rebollo
Institut Quimico de Sarrìa- Universidad Ramon Lull, Barcelona- Spain
Research Groups AA - Materials and Processes for Micro and Nano Technologies
Thesis type EXPERIMENTAL
Description Duchenne muscular dystrophy (DMD) is one of the most common forms of muscular dystrophy. DMD is caused by mutations in the X chromosome's DMD gene that encodes the dystrophin protein. Without functional dystrophin to support muscle strength and stability, muscle fibers are easily damaged. The therapy would consist in replacing the altered dystrophin with a normal one using gene therapy. One of the most clinical promising viral vectors for gene therapy are the adeno-associated viral (AAV) vectors. The majority of the population possesses residual circulating antibodies against AAV due to early exposure in life so, administration of naked AAV vectors elicits a pronounced immune response that gets amplified during the re-administration of the vectors. To solve re-administration and pre-existing immunity issues, we propose strategies to make these vectors evade the host immune response during systemic administration that consists of coating these viral particles with a new family of hybrid vectors.
The aim of this Project is to design and synthesize an AAV coating based zwitterionic polymers. The transduction efficacy, stability of the coating and capacity to prevent formation of neutralizing antibodies in vivo will be studied.
Supervision: Dr. Marta Guerra
Required skills nanoparticles, characterization of nanoparticles, biology and chemistry basis, material science
Notes Methodologies: Synthesis of the zwitterionic polymer, coating of the nanovectors, nanoparticle characterization, cell culture of muscular and non-muscular cells, transduction experiments, cell cytometry, confocal microscopy in vivo antibody neutralization assays.
Deadline 15/12/2023
PROPONI LA TUA CANDIDATURA