Combination of induced pluripotent stem cell-derived motor neuron progenitor cells with irradiated brain-derived neurotrophic factor over-expressing engineered mesenchymal stem cells enhanced restoration of axonal regeneration in a chronic spinal cord injury rat model

Jang-Woon Kim; Juryun Kim; Soon Min Lee; Yeri Alice Rim; Young Chul Sung; Yoojun Nam; Hyo-Jin Kim; Hyewon Kim; Se In Jung; Jooyoung Lim; Ji Hyeon Ju

doi:10.1186/s13287-024-03770-9

Stem Cell Research & Therapy (Jun 2024)

Combination of induced pluripotent stem cell-derived motor neuron progenitor cells with irradiated brain-derived neurotrophic factor over-expressing engineered mesenchymal stem cells enhanced restoration of axonal regeneration in a chronic spinal cord injury rat model

Jang-Woon Kim,
Juryun Kim,
Soon Min Lee,
Yeri Alice Rim,
Young Chul Sung,
Yoojun Nam,
Hyo-Jin Kim,
Hyewon Kim,
Se In Jung,
Jooyoung Lim,
Ji Hyeon Ju

Affiliations

Jang-Woon Kim: CiSTEM laboratory, Catholic iPSC Research Center (CiRC), College of Medicine, The Catholic University of Korea
Juryun Kim: YiPSCELL, Inc.
Soon Min Lee: SL BiGen, Inc.
Yeri Alice Rim: CiSTEM laboratory, Catholic iPSC Research Center (CiRC), College of Medicine, The Catholic University of Korea
Young Chul Sung: SL BiGen, Inc.
Yoojun Nam: YiPSCELL, Inc.
Hyo-Jin Kim: SL BiGen, Inc.
Hyewon Kim: YiPSCELL, Inc.
Se In Jung: CiSTEM laboratory, Catholic iPSC Research Center (CiRC), College of Medicine, The Catholic University of Korea
Jooyoung Lim: CiSTEM laboratory, Catholic iPSC Research Center (CiRC), College of Medicine, The Catholic University of Korea
Ji Hyeon Ju: CiSTEM laboratory, Catholic iPSC Research Center (CiRC), College of Medicine, The Catholic University of Korea

DOI: https://doi.org/10.1186/s13287-024-03770-9
Journal volume & issue: Vol. 15, no. 1
pp. 1 – 20

Abstract

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Abstract Background Spinal cord injury (SCI) is a disease that causes permanent impairment of motor, sensory, and autonomic nervous system functions. Stem cell transplantation for neuron regeneration is a promising strategic treatment for SCI. However, selecting stem cell sources and cell transplantation based on experimental evidence is required. Therefore, this study aimed to investigate the efficacy of combination cell transplantation using the brain-derived neurotrophic factor (BDNF) over-expressing engineered mesenchymal stem cell (BDNF-eMSC) and induced pluripotent stem cell-derived motor neuron progenitor cell (iMNP) in a chronic SCI rat model. Method A contusive chronic SCI was induced in Sprague-Dawley rats. At 6 weeks post-injury, BDNF-eMSC and iMNP were transplanted into the lesion site via the intralesional route. At 12 weeks post-injury, differentiation and growth factors were evaluated through immunofluorescence staining and western blot analysis. Motor neuron differentiation and neurite outgrowth were evaluated by co-culturing BDNF-eMSC and iMNP in vitro in 2-dimensional and 3-dimensional. Results Combination cell transplantation in the chronic SCI model improved behavioral recovery more than single-cell transplantation. Additionally, combination cell transplantation enhanced mature motor neuron differentiation and axonal regeneration at the injured spinal cord. Both BDNF-eMSC and iMNP played a critical role in neurite outgrowth and motor neuron maturation via BDNF expression. Conclusions Our results suggest that the combined transplantation of BDNF- eMSC and iMNP in chronic SCI results in a significant clinical recovery. The transplanted iMNP cells predominantly differentiated into mature motor neurons. Additionally, BDNF-eMSC exerts a paracrine effect on neuron regeneration through BDNF expression in the injured spinal cord. Graphical Abstract

Published in Stem Cell Research & Therapy

ISSN: 1757-6512 (Online)
Publisher: BMC
Country of publisher: United Kingdom
LCC subjects: Medicine: Medicine (General); Science: Chemistry: Organic chemistry: Biochemistry
Website: https://stemcellres.biomedcentral.com

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