Restorative benefits of transplanting human mesenchymal stromal cells overexpressing arginine decarboxylase genes after spinal cord injury

Abstract

BACKGROUND AIMS: Mesenchymal stromal cells (MSCs) promote functional recovery in central nervous system (CNS) injury. Neuroprotective effects of MSCs are being tested in clinical trials for the treatment of CNS injury; however, the underlying mechanisms remain unclear. Arginine decarboxylase (ADC) is a rate-limiting enzyme of agmatine synthesis and is known to exist in the CNS of mammals. The present study investigated whether transplantation of ADC-overexpressing human MSCs (ADC-hMSCs) after spinal cord injury (SCI) could increase the production of neurotrophic factors and promote cell survival, differentiation, axonal regeneration and the restoration of functional recovery.

METHODS: Retroviral human ADC was constructed with the use of an LXSN vector. After compression injury in thoracic level 9, PKH26-labeled ADC-hMSCs were transplanted into the dorsolateral funiculus 1 mm rostral and caudal to the lesion site. The tissues were sampled at 2, 4 and 10 weeks after SCI.

RESULTS: Behavioral analysis revealed that locomotor functions of the ADC-hMSC group were significantly restored. Histological analysis showed that the fibrotic scar volume was smaller in the ADC-hMSC-injected group than in any other group. Brain-derived neurotrophic factor level was significantly higher in the ADC-hMSC-injected group than in any other group throughout 10 weeks. Terminal deoxynucleotidyl transferase-mediated nick-end labeling assay showed decreased cell death, and co-localization analysis showed significant increase in the number of neurons and oligodendrocytes originating from transplanted hMSCs when they had been transduced with the ADC gene.

CONCLUSIONS: The results suggested that ADC-hMSCs are a more suitable candidate than hMSCs for stem cell therapy after SCI.