Custom-Made Neurons for Cell Therapy in Parkinson's and Huntington's Disease
| Title | Custom-Made Neurons for Cell Therapy in Parkinson's and Huntington's Disease |
|---|---|
| Acronym | Custom-Made |
| Start date | |
| End date | |
| Sponsor | European Research Council - Synergy Grant (ERC-SyG) |
| Institution | University of Milan |
Associated cell lines
- ESi008-B (KiPS3F-7)
- ESi032-A (XFiPS-F44-3F-2)
- RCe021-A (RC-17, RC17)
- TMOi001-A (Gibco Episomal iPSC Line; A18945)
- UCSFi001-A (GM25256, WTC, WTC11, wtc11, Wtc11)
- WAe009-A (H9, WA09)
- WTSIi004-A (HPSI1113i-qolg_3)
Project Description
The rising incidence of age-associated neurodegenerative diseases, due to increased life expectancy, poses a challenge to the brain's limited regenerative capabilities. Stem cell-based therapies offer promise for addressing crucial neuron loss, particularly in Parkinson’s and Huntington’s diseases (PD and HD). Ongoing first-generation stem cell trials, replacing damaged neurons with healthy ones, represent a notable advancement. However, their impact is constrained by a ‘one-cell-fits-all’ generic therapy that does not take in account the diverse clinical needs due to variations in disease etiology, stage, patient heterogeneity, and daily fluctuations in graft requirements. CUSTOM-MADE is a transformative initiative advancing knowledge and crafting a tailored portfolio of stem cell products for individual patients or patient subgroups, notably targeting PD and HD. Integrating stem cell technologies, genomics and bioengineering, CUSTOM-MADE develops rational graft composites of therapeutic neurons and complementary cells to meet the clinical needs of individual patients. Moving into preclinical animal models, the project refines graft connectivity and functional recovery post-transplantation. A groundbreaking leap involves modeling circuitry reconstruction in a fully humanized 3D in-vitro bioengineered system - the connectoids, allowing detailed studies at cellular and molecular levels for defining factors controlling correct and functional graft integration. For increased translatability, CUSTOM-MADE pioneers the generation of cell products whose activity can be self-regulated or tuned to the patients’ individual requirements. The project implements strategic measures to shield grafts from pathology and introduces the innovative concept of grafted cells exhibiting disease-modifying activity. In essence, CUSTOM-MADE drives the field toward customized stem-cell therapies for PD and HD, marking a paradigm shift in the treatment landscape of neurodegenerative diseases.