mSOD1-NSG mice: a new in vivo model to test human T cells in ALS

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Abstract

Amyotrophic lateral sclerosis (ALS) is a progressive neurodegenerative disease with unclear etiology and few treatment options. Engineering of human cells for therapy has great potential to provide a means to create long-lived therapeutics that can respond to local signals within tissues. One challenge for development of human cell therapeutics is to have disease models that do not reject transplanted human cells. G93A mutant superoxide dismutase-1 (mSOD1) transgenic mouse model is a robust disease model for ALS, with development of local inflammation, activation of microglia and astrocytes, motor neuron death, and development of paralysis. To create a mouse model for ALS that permits the transplantation of human T cells without immune-mediate rejection, we bred the G93A transgene onto the NOD-SCID-IL-2Rγ-deficient (NSG) mouse model to create mSOD1-NSG mice. We report that mSOD1-NSG mice develop a progressive ALS-like disease with microgliosis, astrogliosis, and paralysis development with an average onset at 11 weeks and end-stage at 14 weeks. Transplanted human T regulatory cells survive in these mice for at least 60 days. This mSOD1-NSG mouse model for ALS can be used to test human T cell-based therapeutics, and it may be helpful to test any human cell-based therapy for ALS. Significance Statement G93A SOD1 transgenic NSG mice develop a progressive ALS-like disease and are an in vivo model for testing human T cell-based therapies for ALS.

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