GM2 Gangliosidoses: Clinical Features, Pathophysiological Aspects, and Current Therapies.
Andrés Felipe LealEliana Benincore-FlórezDaniela Solano-GalarzaRafael Guillermo Garzón JaramilloOlga Yaneth Echeverri-PeñaDiego A SuarezCarlos Javier Alméciga-DíazAngela Johana Espejo-MojicaPublished in: International journal of molecular sciences (2020)
GM2 gangliosidoses are a group of pathologies characterized by GM2 ganglioside accumulation into the lysosome due to mutations on the genes encoding for the β-hexosaminidases subunits or the GM2 activator protein. Three GM2 gangliosidoses have been described: Tay-Sachs disease, Sandhoff disease, and the AB variant. Central nervous system dysfunction is the main characteristic of GM2 gangliosidoses patients that include neurodevelopment alterations, neuroinflammation, and neuronal apoptosis. Currently, there is not approved therapy for GM2 gangliosidoses, but different therapeutic strategies have been studied including hematopoietic stem cell transplantation, enzyme replacement therapy, substrate reduction therapy, pharmacological chaperones, and gene therapy. The blood-brain barrier represents a challenge for the development of therapeutic agents for these disorders. In this sense, alternative routes of administration (e.g., intrathecal or intracerebroventricular) have been evaluated, as well as the design of fusion peptides that allow the protein transport from the brain capillaries to the central nervous system. In this review, we outline the current knowledge about clinical and physiopathological findings of GM2 gangliosidoses, as well as the ongoing proposals to overcome some limitations of the traditional alternatives by using novel strategies such as molecular Trojan horses or advanced tools of genome editing.
Keyphrases
- replacement therapy
- genome editing
- crispr cas
- gene therapy
- oxidative stress
- end stage renal disease
- healthcare
- chronic kidney disease
- cerebrospinal fluid
- gene expression
- stem cells
- smoking cessation
- traumatic brain injury
- multiple sclerosis
- newly diagnosed
- protein protein
- bone marrow
- single molecule
- brain injury
- immune response
- transcription factor
- cell cycle arrest
- toll like receptor
- fluorescent probe
- subarachnoid hemorrhage