Abstract
Charcot Marie Tooth Disease (CMT) is a group of inherited progressive conditions affecting distal motor and sensory neurons, leading to muscle weakness, pain and loss of sensation in limbs. There are currently no treatments for this debilitating disease. To investigate disease mechanisms and facilitate treatment discovery, here we developed an in vitro model for CMT type 2A by introducing the patient-specific MFN2R94Q mutation into human embryonic stem cells (hESCs). Isogenic mutant and wild-type hESCs differentiated to spinal motor neurons with similar efficiency and gave rise to functional motor neurons in vitro. However, MFN2R94Q/+ spinal motor neurons displayed impaired mitochondrial trafficking, resulting in reduced numbers of mitochondria in distal parts of axons. Importantly, we showed that mitochondrial trafficking defects can be alleviated by treatment with an HDAC6 inhibitor. Chemical and genetic inhibition of HDAC6 also significantly rescued the motor phenotype in a zebrafish CMT2A model. Taken together, our study reveals a mutation-specific insight into CMT2A disease mechanism and confirms HDAC6 as a promising target for further therapeutic development.
Competing Interest Statement
The authors have declared no competing interest.